European Conference on Networks and Communications

ENABLING SMART CONNECTIVITY

Valencia (SPAIN) VALENCIA 18-21 JUNE CONFERENCE 2019 CENTRE

European conference on Networks and Communications

FINAL PROGRAMME

Co-located with Table of Contents

Message from the General Co-Chairs...... 3

Message from the Technical Programme Committe Chair...... 4

Conference Programme Overview...... 6

Useful information...... 8

Venue...... 10

5G Global Event...... 12

Keynote Speakers...... 14

Panels...... 18

Program...... 24

Workshops...... 44

Tutorials...... 56

Announcement of EUCNC 2020...... 61

Exhibiton Map...... 64

Exhibition and Demos...... 65

Steering Committee...... 86

Technical Programme Committee...... 90

Local Organizing Committee...... 95

Sponsors & Patrons...... 96 Message from the General Co-Chairs

Enabling Smart Connectivity

It is a great pleasure to welcome you to the 28th edition of the European Conference on Networks and Communications (EuCNC’2019). As the EuCNC conference is the key event to showcase the excellence of European research and innovation in communication technologies, Valencia is a natural choice to host this year’s edition. Thanks to its entrepreneurial mindset and its wealth of talent in technology, this remarkable city is on its way to becoming an innovation hub in the Mediterranean. This year’s edition of the conference will feature timely discussions about enabling Smart Connectivity in the Digital Future as we are nearing the end of the Horizon 2020 R&I programme. It will demonstrate the results of European research and innovation in the area of 5G and future connectivity. 5G networks that are based on the first versions of the standard are already being deployed and launched worldwide. In Europe, we currently have around 150 trials in over 20 Member States and tens of European cities are implementing extensive 5G trials! But this is only the beginning, and much more is needed before 5G can deliver on its full promise. 5G connectivity infrastructures are set to become the backbone of the digital economy. They are critical infrastructures and have a significant role to play in Europe’s competitiveness, including as regards the manufacturing sectors. In Europe, the5G Public Private Partnership set under Horizon 2020 has been key in the development of the vision of 5G for verticals and in the structure of R&I activities in Europe and in cooperation with other regions in the world. It is now time for the European actors to reflect on what comes next, beyond 5G. What are the set of technology building blocks that will define beyond 5G and later 6G networks and services required for an ever-demanding set of applications? Industry competitiveness will be at the heart of this work, but more than ever, it will be necessary to address systematically the societal issues. Sustainability, access to connectivity and services (in a world where 3.5 billion people do not have Internet access), security and trust and Electromagnetic Field (EMF) issues (that are of increasing concerns toour citizens) are just a few examples where our research should develop solutions. In that context, we are willing to set up an ambitious initiative that will unite our excellent research ecosystem and prepare for the next wave of technologies. Europe should stay at the cutting edge of innovation. We wish you a very fruitful and enjoyable EUCNC’2019 conference.

Pearse O’Donohue & Mónica Sala Conference General Co-Chairs

3 Message from the Technical Programme Committee Chair

Welcome to the Valencia 5G Week. I am really proud to chair the Technical Program and Organising Committee of the 28th edition of the European Conference on Networks and Communications (EuCNC) that is celebrated in Valencia for the first time from the 18th to the 21st of June 2019. This year is also very special for EuCNC because it has been co-located with the 7th Global 5G and the CELTIC events, a confluence that we ended up calling Valencia 5G Week. You will discover Valencia during your stay, a city full of amazing sights, from the historical city centre to the very modern buildings of the City of the Arts and Sciences, without missing the nice beaches, the natural parks nearby, and the old river bed, a breathing green central park of 7 km all along the city. We have prepared some social events to make your stay really enjoyable. In this year’s edition of EuCNC we have gathered a very high quality set of tutorials, workshops, keynotes and panels, on a wide variety of topics related to the current trends on mobile communications, from 5G and onwards, as well as on the expected revolution that these technologies are about to boost in several Industry sectors, “Enabling the Smart Connectivity” of the future Society. In the Valencia Conference Centre you can also enjoy the highest number of exhibitors so far in the EuCNC series, 70 in total, and almost 30 live indoor and outdoor demonstrations, not only of every 5G vertical applications, but also of future wireless and optical communication systems. We are also welcoming to this edition of the EuCNC many participants from Asia, USA, Australia, Africa, Americas and the Middle East, in an increasing number every year, being this time the 20% of the total attendees. This entire programme has only been possible after a lot of preparation work, and the support of the European Commission, the City of Valencia, the iTEAM Research Institute staff, and a long list of patrons, sponsors, TPC members and volunteers. Let me express my personal gratitude to all of them. At the time this conference takes place, pilots of 5G are running all over the Globe, and even some commercial launches have been recently announced, all based on 5G-NSA release. In Valencia, in parallel to the preparation of this event we have completed the first transmissions and trials of 5G-SA, and proved the real performance of the 5G concept, its low latency and extreme high bandwidth. We have set up the VLC 5G Campus, an open air test-bed built by iTEAM where connected cars, remote driving, remote control of machines, immersive reality, broadcast and entertainment services, as well as emergency and e-health systems are developed and tested. All these trials will be showcased over live 5G networks during the EuCNC week in Valencia. The institutional commitment to EuCNC 2019 has been also relevant, and together with the local and regional governments, the two main universities and the main players of the local industry, we have created the “Valencia 5G alliance” early in 2019 to promote and boost the deployment of the 5G technology in our region. We can at this point in time assure that Valencia is one of the first real 5G cities in Europe. 5G is today’s evolution of the Mobile Technologies, aimed to revolutionise the Industry of tomorrow. Be welcome to discover the way beyond 5G at EuCNC 2019 in Valencia, where the future of Mobile Communications may start being written. Narcís Cardona Organising Committee and Technical Program Committee Chair

4 Valencia Conference Centre Conference Programme Overview

TIME AUDITORIUM 1 AUDITORIUM 2 Networking Area ROOM 1 ROOM 2 TIME ROOM 3 ROOM 4 ROOM 5 ROOM 6 ROOM 8

Monday, June 17 Monday, June 17 MoC0: Global 5G Event (G5GE): 13:30-15:15 13:30-15:15 Opening Session 15:15-15:45 MoC0: G5GE: Keynote 15:15-15:45

15:45-16:15 COFFEE BREAK 15:45-16:15 COFFEE BREAK

16:15-18:00 MoD0: G5GE: 5G Regional Trends 16:15-18:00 MoE0: G5GE: Q&A / 5G 18:00-18:30 18:00-18:30 Commercial Success Tuesday, June 18 Tuesday, June 18

08:30-10:30 TuA0: G5GE: 5G for Business TuA1: Workshop 3 - Session 1 TuA2: Workshop 4 - Session 1 08:30-10:30 TuA3: Tutorial 1 - Session 1 TuA4: Tutorial 4 - Session 1 TuA6: Workshop 1 - Session 1 TuA8: Workshop 2 - Session 1

10:30-11:00 COFFEE BREAK 10:30-11:00 COFFEE BREAK TuB0: G5GE: Looking fordward TuB1: Workshop 3 - Session 2 TuB2: Workshop 4 - Session 2 TuB3: Tutorial 1 - Session 2 TuB4: Tutorial 4 - Session 2 TuB6: Workshop 1 - Session 2 TuB8: Workshop 2 - Session 2 11:00-13:00 11:00-13:00 / 8th G5GE 13:00-14:00 Lunch 13:00-14:00 Lunch TuC0: G5GE+EuCNC: Cross- TuC3: Tutorial 3 - Session 1 TuC4: Tutorial 2 - Session 1 14:00-15:45 14:00-15:45 Regional projects 15:45-16:15 COFFEE BREAK 15:45-16:15 COFFEE BREAK TuD0: G5GE+EuCNC: 5G KPI TuD3: Tutorial 3 - Session 2 TuD4: Tutorial 2 - Session 2 TuD6: Workshop 1 - Session 3 16:15-18:00 16:15-18:00 Measurement Wednesday, June 19 Wednesday, June 19

08:30-09:00 WeA0: EuCNC Opening 08:30-09:00

09:00-09:45 WeA0: Keynote 1 09:00-09:45

09:45-10:30 WeA0: Keynote 2 09:45-10:30

10:30-11:00 COFFEE BREAK 10:30-11:00 COFFEE BREAK

11:00-12:30 WeB0: Panel 1 11:00-12:30

12:30-13:00 WeBH: Poster Session 1 12:30-13:00

13:00-14:00 Lunch 13:00-14:00 Lunch WeC0: CELTIC Event - Session 1 WeC1: Special Session 1 WeC2: Coding Techniques WeC3: Orchestration and WeC4: Optical Communications WeC5: Vehicular and Industrial WeC6: Workshop 5 - Session 1 WeC8: Workshop 6 - Session 1 14:00-15:30 14:00-15:30 Virtualisation Communication Trials 15:30-16:00 COFFEE BREAK 15:30-16:00 COFFEE BREAK

16:00-17:30 WeD0: CELTIC Event - Session 2 WeD1: Special Session 2 WeD2: Propagation 16:00-17:30 WeD3: Network Slicing WeD4: Satellite Communications WeD5: Autonomuos Driving WeD6: Workshop 5 - Session 2 WeD8: Workshop 6 - Session 2

17:30-18:30 WeEH: Special Session 5 17:30-18:30

Thursday, June 20 Thursday, June 20

09:00-09:45 ThA0: Keynote 3 09:00-09:45

09:45-10:30 ThA0: Keynote 4 09:45-10:30

10:30-11:00 COFFEE BREAK 10:30-11:00 COFFEE BREAK

11:00-12:30 ThB0: Panel 2 11:00-12:30

12:30-13:00 ThBH: Poster Session 2 12:30-13:00

13:00-14:00 Lunch 13:00-14:00 Lunch

14:00-15:30 ThC0: CELTIC Event - Session 3 ThC1: Special Session 3 ThC2: Backhaul and SDR Design 14:00-15:30 ThC3: Service Oriented Optimisation ThC4: Network Security ThC5: Industrial Communications ThC6: Workshop 7 - Session 1 ThC8: Workshop 8 - Session 1

15:30-16:00 COFFEE BREAK 15:30-16:00 COFFEE BREAK ThD0: CELTIC Event - Session 4 ThD1: Special Session 4 ThD2: Modulation and Massive ThD3: Radio Access Techniques ThD4: Edge Computing ThD5: Network Optimisation ThD6: Workshop 7 - Session 2 ThD8: Workshop 8 - Session 2 16:00-17:30 16:00-17:30 MIMO Friday, June 21 Friday, June 21 FrA0: 5G-PPP ICT19 FrA1: Software Defined Networking FrA2: Fronthaul Design FrA3: New Deployments and Trials FrA4: IoT Communications FrA6: Physical Layer Optimisation FrA8: Radio Resource 08:30-10:30 08:30-10:30 Management 10:30-11:00 COFFEE BREAK 10:30-11:00 COFFEE BREAK

11:00-12:30 FrB0: Panel 3 11:00-12:30

12:30-13:30 FrB0: EuCNC Closing 12:30-13:30

6 TIME AUDITORIUM 1 AUDITORIUM 2 Networking Area ROOM 1 ROOM 2 TIME ROOM 3 ROOM 4 ROOM 5 ROOM 6 ROOM 8

Monday, June 17 Monday, June 17 MoC0: Global 5G Event (G5GE): 13:30-15:15 13:30-15:15 Opening Session 15:15-15:45 MoC0: G5GE: Keynote 15:15-15:45

15:45-16:15 COFFEE BREAK 15:45-16:15 COFFEE BREAK

16:15-18:00 MoD0: G5GE: 5G Regional Trends 16:15-18:00 MoE0: G5GE: Q&A / 5G 18:00-18:30 18:00-18:30 Commercial Success Tuesday, June 18 Tuesday, June 18

08:30-09:00 WeA0: EuCNC Opening 08:30-09:00

09:00-09:45 WeA0: Keynote 1 09:00-09:45

09:45-10:30 WeA0: Keynote 2 09:45-10:30

10:30-11:00 COFFEE BREAK 10:30-11:00 COFFEE BREAK

11:00-12:30 WeB0: Panel 1 11:00-12:30

12:30-13:00 WeBH: Poster Session 1 12:30-13:00

17:30-18:30 WeEH: Special Session 5 17:30-18:30

Thursday, June 20 Thursday, June 20

09:00-09:45 ThA0: Keynote 3 09:00-09:45

09:45-10:30 ThA0: Keynote 4 09:45-10:30

10:30-11:00 COFFEE BREAK 10:30-11:00 COFFEE BREAK

11:00-12:30 ThB0: Panel 2 11:00-12:30

12:30-13:00 ThBH: Poster Session 2 12:30-13:00

13:00-14:00 Lunch 13:00-14:00 Lunch

11:00-12:30 FrB0: Panel 3 11:00-12:30

12:30-13:30 FrB0: EuCNC Closing 12:30-13:30

7 EuCNC 2019 Registration Useful and Info Desk: Is located at Valencia Conference Centre, right after main Information entrance. Opening times: Monday 17 June: 12:00 - 19:00 Tuesday 18 June: 07:30 - 18:30 Wednesday 19 June: 07:30 - 19:00 Thursday 20 June: 08:00 - 18:00 Friday 21 June: 08:00 - 14:00

Social Media EuCNC 2019 app Use the official conference app at EuCNC 2019 to plan Stay tuned! your activities. Get connected! Follow us on social media and be the first to hear the – Real-time 2D/3D Map: The app offers real-time latest on news, exciting happenings and updates! geolocation during the event, being at all times your augmented guide inside the premises! Facebook: EuCNC Twitter: @eucnc, @NetTechEU The provided digital 2D and 3D maps will help you to LinkedIn: EuCNC (group) - Valencia 5G Week move among the different spaces and know where all Youtube: EuCNC stands to visit are placed. Instagram: eucnc2019 – Events agenda: The activities developed during the event will be available as well. Check with the app Share your own stories and photos! what, when and where! Include our official hashtags: #Valencia5GWeek, – Gamified evaluations: Your opinion matters to us. The #EuCNC2019, #Global5GEvent and #CELTICEvent more stands you value, the more you will go up in the Watch our live video stream on the conference website: classification. www.eucnc.eu – Be updated! If you wish to consult the abstract of any paper participating in the conference, you can find them through the search engine by using the keywords. EuCNC 2019 mobile app for iOS and Android can be downloaded from the following link: https://www.eucnc.eu/app/

EuCNC 2019 offers a exceptional social programme to make the EuCNC 2019 a worthwhile and memorable experience. The participants will be welcome to attend to the social events, outside official programme, where enjoy of unique gastronomy of Valencia in spectacular places around the city. Excellent opportunity for networking and socializing with your colleagues.

Welcome reception Date: Tuesday, 2019 Jun.18th. Time: 19:00 – 21:30 Location: Veles e Vents (Marina de València) Welcome reception will share by EuCNC 2019 and Global 5G Event wich will be held on the first conference day after the end of the official programme. All participants are welcome to relax and enjoy networking opportunities and meet old and new friends in the Marina Real (sailing port of Valencia), at the innovative building ‘Veles e Vents’, which faces the main beach of Valencia city. This is a great opportunity to admire the Valencia’s blue sea while tasting culinary bites of the mediterranean diet. More information here: http://veleseventsvalencia.es/en/

8 WALKING TOUR Date: Wednesday, 2019 Jun.19th. Time: 19:00 - 21:00 Location / Meeting Point: Serranos´s Towers Discover Valencia’s roots in its historical center. A history that goes back many centuries! The monuments bear witness to its fascinating history over the centuries. In this tour you will experience all its dimensions, faces and legends. From its foundation in Roman times, passing through historical figures such as San Vicente Mártir and El Cid, its Moor period, King Jaime I, the splendor of its golden age until the most recent time. You will be surprised by the many details you will get to see, hear, touch and experience. You will be transferred to another time as if it were a trip through time machine! Our guides will comment on, and explain, the cultural-historical details of buildings and monuments, fun details and interesting stories. Discover how each era has left its mark through its styles: Roman, Gothic, Baroque, etc.

Gala dinner Date: Thursday, 2019 Jun.20th. Time: 20:00 – 23:00 Location: City of Arts and Sciences – Hemisfèric L’Hemisfèric at City of Arts and Sciences is the place chosen to celebrate the EUCNC 2019 gala dinner at evening of the third day of the conference. The building was designed by Santiago Calatrava, it has a spectacular ovoid roof over 100 metres long that contains in its interior the large sphere that constitutes the projection room. A registration to the gala dinner is required through the online registration system. Please note that not all conference passes include the gala dinner pass. Don’t miss this special event, the venue is unique! More information here: https://www.cac.es/en/hemisferic/

9 Venue

EUCNC2019 will take place in the Valencia Conference Centre

The venue has been awarded as the World’s Best Convention Center in 2018 by the AIPC.

Address of the Venue: Avenida de las Cortes Valencianas, 60, 46015 València (Spain)

EUCNC2019 will take place in the Valencia Conference Centre. The venue is located at the main access to the city from the Northwest, 7 minutes from the international airport of València-Manises and 8 minutes from the city centre and the high- speed train (AVE). Its connection with the rest of the city is excellent by metro, taxi, bus, bicycle and tram. The Valencia Conference Centre, which was designed by one of the world’s best architects, Norman Foster, its industrial style and bold forms have made it one of the flagship projects in his career. In 1999, the Valencia Conference Centre was named as Best European Building by the Royal Institute of British Architects (RIBA) and in 2018 it has been chosen for the second time in its history as the World’s Best Convention Centre by the International Association of Conference Centres (AIPC).ww It is the perfect building to hold congresses, conventions and exhibitions.

10 Valencia Conference Centre

Ground floor Networking Area

Auditorium 2 Auditorium 1 VIP Room

Virtual Cave

Registration Area

Exhibition Area

First floor Rooms 1 to 8

Multi purpose Room 1 and Networking Area

Second floor

Multi purpose Room 2

11 5G Global Event

Monday, June 17

Monday, June 17, 13:30 - 15:15 Monday, June 17, 16:15 - 18:00

MoC0: Opening Session MoD0: 5G Regional Trends Auditorium 1 Moderator: Colin Willcock (Chairman of the board of the 5G Auditorium 1 Infrastructure Association) Moderator: Hyeon Woo Lee (Dankook University, Korea) Formalities speakers Topics: Topics: • 5G Research and Technological Trends • Welcome statements • 5G Trials and Pre-Commercial Launches • 5G Policy perspectives • New deployment strategies • Government Policies for 5G • Progress of 5G Spectrum Harmonization and Speakers: Regulatory Policy • Luciano Leonel Mendes (5G Brasil Project) Speakers: • Yukihiko Okumura (NTT DOCOMO) • Dan Warren (Samsung Research, UK) • Pearse O’Donohue (Director for Future Metwork) • Chris Pearson (5G Americas) • Gaku Nakazato (Ministry of Internal Affairs and • Zhiqin Wang (IMT-2020(5G) Promotion Group) Communications, Japan) • Didier Bourse (5G IA Trials WG Chairman) • Donald Stockdale (U.S. Federal Communications Commission) • Tae Wan Park (ICT and Broadcasting Technology Policy Division, MSIT, Korea) Monday, June 17, 18:00 - 18:30 • Liu Yulin (Department of Information and Communication Development, MIIT, China) • José Gontijo (Ministry of Science, Technology, MoE0: Q&A / 5G Commercial Success Innovation and Communications, Brazil) Auditorium 1 Fireside Chat: Laurent Paillassot (CEO, Orange Spain) Moderator: Ruprecht Niepold (Independent Spectrum Expert)

Topics: Monday, June 17, 15:15 - 15:45 • What is Needed for 5G Commercial Success

MoC0: KEYNOTE Speakers:

Auditorium 1 • José Marcos C. Brito (5G Brasil Project) Tomás Alonso (Head of Product Technology in Orange, Spain) • Chris Pearson (5G Americas) • Yoshinori Ohmura (ARIB) • Dong Ku Kim (5G Forum) Coffee break 15:45-16:15 • Yeqing Du (Huawei) • Colin Willcock (Chairman of the board of the 5G Commercial Exhibition Area Infrastructure Association)

12 Tuesday, June 18

Tuesday, June 18, 08:30 - 10:30 Tuesday, June 18, 14:00 - 15:45

TuA0: 5G for Business TuC0: G5GE+EuCNC: Cross-Regional projects Auditorium 2 Moderator: Suncheol Gweon (Vice-Chair, 5G Forum Advisory Auditorium 2 Committee) Moderator: Yeqing Du (Huawei)

Topics: Topics: • 5G from the Verticals perspective • Results and achievements from Cross Regional • Sector driven 5G Service demands 5G projects

Speakers: Speakers: • Wilson Cardoso (5G Brazil) • Flávio de Oliveira Silva (Federal University of • John Baker (Mavenir) Uberlândia, Brazil) • Lee Seongchoon (Giga KOREA Foundation) • Luciano Leonel Mendes (5G Brasil Project) • Yeqing Du (Huawei) • Uwe Herzog (Eurescom, 5G-DRIVE) • Yoko Kurosawa (KDDI) • Ilgyu Kim (Etri) • Thyaga Nandagopal (National Science Foundation, USA) • Wei Deng (China Mobile Research Institute) Coffee break 10:30-11:00 Commercial Exhibition Area Coffee break 15:45-16:15 Commercial Exhibition Area Tuesday, June 18, 11:00 - 13:00

TuB0: Looking fordward / 8th G5GE Tuesday, June 18, 16:15 - 18:00

Auditorium 2 Moderator: Chris Pearson (5G Americas) TuD0: G5GE+EuCNC: 5G KPI Measurement

Topics: Auditorium 2 • Beyond 5G: Realizing Smart Networks Moderator: Maurizio Cecchi (Associazione P.I.I.U.)

Speakers: Topics: • Flávio de Oliveira Silva (Federal University of • Measuring 5G KPIs in real environments Uberlândia, Brazil) • Ryo Inohara (KDDI Research, Inc.) Speakers: • Shaoli Kang (Datang Telecomm Group) • Harilaos Koumaras (5GENESIS) • Sung Ho Choi (Institute for Information & • Panagiotis Demestichas (WINGS ICT Solutions) communications Technology Promotion, Korea) • Andrea Cattoni (Keysight Technologies, 5G-VINNI) • Arturo Azcorra (5G IA Vision WG Chairman) • Xinhui Wang (ZTE) • Doyoung Kwak (Infra Laboratory / KT Corporation) • Takaharu Nakamura (5GMF, Fujitsu) Launch of the 8th Global 5G Event • Zhiqin Wang (IMT-2020(5G) Promotion Group)

Lunch 13:00-14:00 Multipurpose Rooms 1 and 2

13 Keynote Speakers

Wednesday 19 june, Wednesday 19 June, 9:00-10:30, Auditorium 1

WI FIve-F 5G networks emerge through leverage of unlicensed frequency spectra. A stunning eighty percent of today’s mobile internet data traffic is off-loaded to Wi-Fi, which in turn is largely backhauled by copper or John M. Cioffi fiber access technologies. Successful fifth-generation networks will be Chairman/CEO ASSIA Inc. , EE based on a convergence of mobile and fixed technologies through this Professor Emeritus (recalled) Wi-Fi hybrid of mobile and fixed access. This creates very important Stanford University, USA and technically exciting challenges for dynamic managing/optimizing space, time, and frequency dimensions for cost-effective delivery of all services with acceptable quality, across both Wi-Fi and 5G LTE. This talk will examine these trends and explore technological evolutionary steps and challenges that may well define the true emergency of high-speed internet connectivity reliably to all future internet data consumers. John M. Cioffi – BSEE, 1978, Illinois; PhDEE, 1984, Stanford; Bell Laboratories, 1978-1984; IBM Research, 1984-1986; EE Prof., Stanford, 1986-present, now emeritus. founded Amati 1991 (became TI in 1997). Chairman and CEO), ASSIA INc. BoD of Alto Beam, Tinoq, Collinear, and the Marconi Foundation, Specific interests is high-performance digital transmission. IEEE AG Bell, Kirchmayer, and Millenium Medals (2010, 2014, and 2000); Internet (2014) and Consumer Electronics (2018) Halls of Fame; Economist Magazine 2010 Innovations Award; International Marconi Fellow (2006); Member, US National and UK Royal Academies of Engineering (2001, 2009); IEEE Kobayashi and Armstrong Awards (2001 and 2013); BBWF Lifetime Achievement (2014), IEEE Fellow (1996); IEE JJ Tomson Medal (2000); over 600 papers and 100+ patents, in the areas of MIMO, DSL, Wi-Fi, LTE, and disk storage.

5G in Automotive C-V2X communication is the state-of-the-art, high-speed cellular communications platform that enables vehicles to communicate with - Pioneering one another, with roadside infrastructure, with other road users (such as pedestrians, cyclists, and motorcyclists) using either direct short- the digital range communications or cellular networks. While C-V2X network- transformation in based solutions are already widely deployed, direct communication solutions will be commercially available as of this year. As such the the automotive C-V2X platform delivers safety, mobility, traffic efficiency, and industry environmental benefits. C-V2X is designed with an evolutionary path to 5G and supports safe and efficient operations of autonomous vehicles. Johannes Springer The presentation gives insights into various examples of C-V2X applications for the next Lead 5G@Automotive generation of connected mobility for advanced driving and automated vehicle solutions. Program Deutsche Telekom Johannes Springer is responsible for the 5G Automotive Program at Deutsche Telekom in AG,Deutsche Telekom AG Group Technology and Innovation Headquarter. Johannes studied Engineering, Mechanical and / T-Systems International Production Engineering at Berlin Technical University. After his doctorate in 1992 he was in and 5GAA (5G Automotive charge at Aachen University of Technology (RWTH) as head of department in the Institute of Association), Director General, Ergonomics and Industrial Engineering. In 1998 he joined Deutsche Telekom Group in various Germany) management positions. From 2004 to 2010 he worked as CTO/COO for Toll Collect, the GNSS and mobile networks based electronic tolling operator for trucks in Germany. From 2011 to 2016 he was Vice President Technology and Solution Design within the Strategic Business Unit Connected Car in T-Systems. Johannes is active in various organizations, e.g. NGMN (Next Generation Mobile Network, Co- Lead in V2X Task Force) and DGON (German Association of Navigation, Advisory Board). In 5GAA (5G Automotive Association) he works in the Working Groups “Use Cases” and “Business Models”, and since July 2018, he is the Director General of the 5GAA.

14 Thursday 20 June, 9:00-10:30, Auditorium 2

5G - A Door As we see 5G unfold, expectations on the economic and societal impact are very high. Many new opportunities shall emerge for new Opener for 6G? business opportunities. Besides Gb/s data rates, the Tactile Internet being the most highlighted promise of 5G, enabling remote control Gerhard P. Fettweis applications over cellular. We shall review opportunities and their Vodafone Chair Professor – TU technical requirements. This helps to build an understanding to Dresden, and CEO Barkhausen detect missing pieces. Institut, Germany 1G was a great step creating the vision of ubiquitous voice telephony, but we needed 2G to deliver (like international roaming). 3G was a great step towards ubiquitous cellular data, but we needed 4G to fix the challenges. 5G will be an infliction point in bringing cellular to new applications. However, do we need to use the 5G system to understand what is really needed, and have to wait for 6G as a fix? And is this fix required to make the Tactile Internet a reality? Gerhard P. Fettweis is Vodafone Chair Professor at TU Dresden, and heads the Barkhausen Institute. He earned his Ph.D. under H. Meyr’s supervision from RWTH Aachen in 1990. After one year at IBM Research in San Jose, CA, he moved to TCSI Inc., Berkeley, CA. He coordinates the 5G Lab Germany, and 2 German Science Foundation (DFG) centers at TU Dresden (cfaed and HAEC). His research focusses on wireless transmission and chip design for wireless/IoT platforms, with 20 companies from Asia/Europe/US sponsoring his research. Gerhard is IEEE Fellow, member of the German Academy of Sciences (Leopoldina) and the German Academy of Engineering (acatech). He received multiple IEEE recognitions as well has the VDE ring of honor. In Dresden his team has spun-out sixteen start-ups, and setup funded projects in volume of close to EUR 1/2 billion. He co-chairs the IEEE 5G Initiative, and has helped organizing IEEE conferences, most notably as TPC Chair of ICC 2009 and of TTM 2012, and as General Chair of VTC Spring 2013 and DATE 2014, and of IEEE 5G Summits.

Completing First 5G networks are launched – mission accomplished? While the commercial launch of the first 5G networks is a significant the 5G vision mile-stone it merely represents the completion of the basement of - Overview of the 5G House, and that house will only be complete when the full 5G vision has turned into a reality for all. The 5G vision, capabilities, target the Industry architecture and transformational properties are well understood in the community of networks and communication professionals. So, Roadmap in this key note provide an overview on key initiatives the industry engages on to complete the 5G House. Standardization and Industry Ulrich Dropmann Initiatives often are tightly linked to prior work as done in funded Head of Standardization, Bell research. Hence a broad landscape overview of the standard and Industry Initiatives is Labs – CTO, Nokia, Germany highly relevant for EuCNC conference. We will cover three main dimensions: 1 – Toward a full 5G standard with all enabling capabilities By mid-2019, the second phase of 5G standard is fully worked on with 3GPP Rel 16, the evaluation of IMT-2020 is ongoing in the ITU-R. The further priorities of the next 5G Release (3GPP Rel 17) are also take shape. Even certain key enhancements for subsequent releases are clear. We give an overview of that work program highlighting key work items which complement 5G vision capabilities. 2 – Transformation toward open, agile and fully automated network The promise of 5G will only be realized with open, agile and fully automated networks. Starting with the virtualization of network functions some years ago, several key initiatives

15 have been undertaken in Industry standard and open source projects to address various aspect of opening the network as well as to automate its operation, such as ONAP, O-RAN, ZSM, only to name a few. We highlight which problems these initiatives are solving and how, the relationship among them as well as their status and program ahead. 3 – Beyond telecom ecosystem One defining characteristic of 5G is the ubiquity of relevance beyond the direct telco sector. That has led to numerous activities to collaborate with different such sectors, understand the requirements and make sure the technology will finally address their needs. There are initiatives around automotive and autonomous mobility (5GAA), Public Safety (TCCA BIG) and more. Further there are groups working on 5G for satellite links, use in future railway systems, as a means to deliver terrestrial broadcast and more. Addressing the needs of Connected Industries and Automation for 5G enabled Industry 4.has lead to the creation of the 5G-ACIA (Alliance for Connected Industries and Automation). As 5G enabled Industrial IoT will represent one of the largest opportunities we will elaborate on this further. Ulrich heads the Standardization activities for Nokia. He is responsible for global and regional standardization and technical regulation as spectrum. The team is part of the Nokia BellLabs CTO group. Ulrich is board member of the 5G Alliance for Connected Industries and Automation (5G-ACIA). He also is a VP and Executive Committee member of the Global Mobile Supplier Association (GSA). Prior to that Ulrich was responsible for Nokia Networks Industry Environment activities. Between 2007 and 2012 Ulrich lead the NSN 3GPP standardization team and has served as Head of Delegation to 3GPP. In that role he also chaired the Industry Group “European Friends of 3GPP”. Between 1996 and 2007, Ulrich held various positions in R&D of Siemens Mobile Networks unit. He was responsible for standardization activities of the core network business unit and managed Siemens 3GPP activities. Ulrich had instrumental role in the definition of the UMTS architecture as well as in set up of project management in 3GPP. Ulrich holds a Ph.D. from Télécom ParisTech (ENST) from 1996; research area was the definition of 3G Radio Interface and his research was part of EU collaborative research program (RACE ATDMA).

16 17 Panels

WeB0: Panel 1

Wednesday, June 19 11:00 - 12:30 | Auditorium 1 Beyond 5G Technological Enablers for the Next Generation Mobile

Oragniser/Moderator: Motivation and Background: Afif Osseiran 5G networks in the framework of 3GPP activity have a clear roadmap towards technology (Ericsson AB, Sweden) validation, rollout and commercial launch along 2019. First mobile devices were presented in last mobile world congress events, and the machinery of industry is running at maximum speed to have them in the market in the second half of the year. However, new scientific opportunities are blooming in the field of networking research, radio technologies, new spectrum potential bands, mainly beyond 90 GHz, and improved computation capabilities. It includes interaction with photonic systems as well as new cooperation networking and protocols, notably in the mobility context. This panel is one of the fist opportunities to bring together reputed experts from various sectors to present their views on the technology enablers for the next generation mobile. Industry, vendors, operators, academics and computation experts will exchange their forecasts while looking for the new application driving the innovation towards the 6G. This is the context for the panel at EuCNC 2019. Questions: • Are there new deployment strategies for the future, is the era of macro-cells coming to an end? • Which is the vision of vendors with respect to virtualization, are the players going to change? • Which technologies have no room in 5G roadmap and require a new generation frame? • Is there a clear killer application in mind for the 6G? • Will be the industry the driver of the new generation? Which are they actual requirements? Participants: • Andreas Mueller (Bosch, Germany) • Eric Hardouin (Director of the “Ambient Connectivity” research domain of Orange Labs, France) • Thomas Magedanz (TU Berlin / Fraunhofer FOKUS, Germany) • Suat Topsu (University of Paris Saclay-Founder & Chairman Oledcomm, France)

18 19 ThB0: Panel 2

Thursday, June 20 11:00 - 12:30 | Auditorium 2 Future Connectivity and Network Security

Oragniser/Moderator: Motivation and Background: Bengt Sahlin 5G infrastructures constitute a whole new level for connectivity in the digital economy. (Research Leader, Network Beyond consumer services, 5G technology is designed to greatly change the way areas such Security, Ericsson Research as transport, industry, energy and health work. Applicability of 5G in these new sectors NomadicLab, Sweden) introduces new security challenges to consider. This trend will further intensify when moving into the future; In the mid- to long-term, the strategic importance of future Smart Networks (namely beyond 5G and later 6G network systems) calls for a strongly structured R&I roadmap with regards to cybersecurity. Against the above background, following the expressed support from the Member States for a concerted approach to the security of 5G networks, the European Commission issued on 26 March a Recommendation to assess cybersecurity risks of 5G networks and to strengthen preventive measures, helping EU Member States to implement them in a coherent manner. (Commission Recommendation of 26 March 2019 on Cybersecurity of 5G networks C(2019) 2335 https://ec.europa.eu/digital-single-market/en/news/cybersecurity-5g-networks) In terms of standardization, 5G phase 1 work has been completed in 3GPP, and phase 2 work is ongoing. Phase 1 work concentrated on the mobile broadband use case, phase 2 will have focus on use cases for massive IOT, Industrial Internet and mission critical services. New technology paradigms like SDN, virtualization and network slicing are impacting on how future networks are designed, implemented and deployed. This will have impact on how to design, implement and operate networks securely. In addition to the existing trends, there are also emerging trends like AI, quantum computing and blockchain arising. As for other technology paradigms, there will be impacts on security. The panel will present the Commission Recommendation on Cybersecurity of 5G networks, its status and next steps. It will also provide a short overview of security of 5G phase 1 (3GPP Rel-15) and the ongoing security work for phase 2 (3GPP Rel-16). Based on this, the panel will discuss future needs and expectations on security for future networks and services, also in the light of the Commission Recommendation. This discussion will cover aspects relevant for the different use cases (mobile broadband, IOT, mission critical services) and how the security challenges related to the new and emerging technology paradigms can be dealt with. Questions: • Why the Commission published a Recommendation on Cybersecurity of 5G networks and what are the expected results of all related policy actions? • What are the expectations on security specified in 3GPP Rel-16 for IOT and mission critical services? • What security aspects should be considered for future networks beyond 5G? • What are the impacts of ongoing technology paradigms on security? • What are the impacts on security of emerging technology paradigms? • What opportunities do the emerging technology paradigms bring in the security area? • What expectations on security are seen from industrial digitalization perspective for future communication networks? Participants: • Emmanuel Dotaro (Head of ICT and Security Labs at Thales Secure Communications and Information Systems - France) • Alejandro Pinto González (Policy Officer on Cybersecurity, National Security Department, Cabinet of the Prime Minister) • Linus Thrybom (R&D Manager at ABB Corporate Research) • Peter Stuckmann (Head of Unit - Future Connectivity Systems DG CONNECT, European Commission) • Eric Gauthier (Orange, London, UK)

20 FrB0: Panel 3

Friday, June 21 11:00 - 12:30 | Auditorium 2 Beyond 5G and Artificial Intelligencee

Oragniser/Moderator:: Motivation and Background: Panagiotis Demestichas This panel will investigate the tight coupling of the new connectivity generation and the (University of Piraeus, Greece) digital transformation with the advent of AI. 5G and future connectivity infrastructures will offer unprecedented performance levels. Gradually, through successive standards versions, new services will be enabled. These services will transform the way end-users live, corporations conduct business, and governments operate. This will happen in a direct manner (e.g., enhanced eMBB/URLLC-powered applications offered to end users) or indirectly, e.g., by providing data, in a timely and reliable manner, to advanced AI mechanisms, which are essential for the provision of vertical services. Potential benefits from the introduction of intelligence in the system could aid network management and optimization, increase spectrum efficiency and improve QoS/QoE; however, AI will also affect the design of new architectures beyond 5G resulting in many uncharted scientific territories. From a different perspective, new businesses and the sustainability of current ones call for more intelligence in the network infrastructure. Aspects like AI and Machine/Deep Learning seem to open new business opportunities and to pave the way for areas in need of research work. Aspects like the ones above seem to open new business opportunities and to pave the way for areas in need of research work. Therefore, they call for a panel in the context of the EuCNC 2019. Questions: • What are the first services and application areas in need of AI and B5G for their transformation? – What offerings are we aiming at, beyond those happening today or through the first 5G versions? – What further performance levels are needed for AI? Are these possible today and at what cost? • What is the impact on connectivity and AI in 5G, B5G, longer term evolution? – AI impact on architecture, access network, core network and devices? – AI impact on network resource optimisation and management? • Is a new generation of wireless (namely 6G) being designated, through the tight coupling with AI mechanisms? Participants: • Slawomir Stanczak (Head of Wireless Communications and Networks Department, Fraunhofer Heinrich Hertz Institute HHI, Germany) • Sana Ben Jemaa (Research Engineer & Project Manager, Orange Labs, France) • Heli Helaakoski (Senior Principal Scientist, VTT Technical Research Centre of Finland Ltd, Finland) • Peiying Zhu (Huawei Fellow, Huawei, Canada) • Henning Sanneck (Head of the “Network Automation” Department, Nokia Bell Labs, Research, Germany)

Program

Monday, June 17

Monday, June 17, 13:30 - 15:15 Monday, June 17, 16:15 - 18:00

MoC0: Global 5G Event (G5GE): Opening Session MoD0: G5GE: 5G Regional Trends

Auditorium 2 Auditorium 2 Moderator: Colin Willcock (Chairman of the board of the 5G Moderator: Hyeon Woo Lee (Dankook University, Korea) Infrastructure Association) Fireside Chat: Laurent Paillassot (CEO, Orange Spain) Formalities Speakers: Session Chair: Narcís Cardona (iTEAM – Univ. Politècnica de Monday, June 17, 18:00 - 18:30 València, Spain) MoE0: G5GE: Q&A / 5G Commercial Success

Monday, June 17, 15:15 - 15:45 Auditorium 2 Moderator: Ruprecht Niepold (Independent Spectrum MoC0: G5GE: KEYNOTE Expert) Auditorium 2 Tomás Alonso (Head of Product Technology in Orange, Spain)

Coffee break 15:45-16:15 Commercial Exhibition Area

24 Tuesday, June 18

Tuesday, June 18, 08:30 - 10:30 (University of the West of Scotland, United Kingdom (Great Britain)); Biagio Maione (Ericsson, Poland); Ciriaco Angelo, Giacomo Borlizzi and Luca Baldini TuA0: G5GE: 5G for Business (Ericsson, Italy); Navid Nikaein (Eurecom, France); Giacomo Bernini (Nextworks, Italy); Konstantinos Koutsopoulos (Creative Systems Engineering, Auditorium 2 Greece); Ricardo Figueiredo (Redzinc, Ireland); Moderator: Suncheol Gweon (Vice-Chair, 5G Forum Advisory Marius Iordache (Orange, Romania); Cristian Committee) Patachia (Orange Romania SA, Slovenia)

TuA1: Workshop 3 - Session 1 Coffee break 10:30-11:00 Commercial Exhibition Area Room 1 Photonic Technologies in 5G and Beyond Tuesday, June 18, 11:00 - 13:00 TuA2: Workshop 4 - Session 1 TuB0: G5GE: Looking fordward / 8th Room 2 G5GE 5G in the Era of Connected Cars Auditorium 2 Moderator: Chris Pearson (5G Americas) TuA3: Tutorial 1 - Session 1 TuB1: Workshop 3 - Session 2 Room 3 Room 1 Blockchain technology and smart contracts in 5G and beyond networks Photonic Technologies in 5G and Beyond Hamed Ahmadi, Irene Macaluso, Marco Ruffini, and Nima Afraz TuB2: Workshop 4 - Session 2 TuA4: Tutorial 4 - Session 1 Room 2 Room 4 5G in the Era of Connected Cars Behind Wi-Fi’s success story: Fundamentals, deciphering 802.11ax, and roadmap towards the next generation TuB3: Tutorial 1 - Session 2 David Lopez-Perez, Adrian Garcia-Rodriguez, and Lorenzo Galati Giordano Room 3 Blockchain technology and smart contracts in 5G and TuA6: Workshop 1 - Session 1 beyond networks Hamed Ahmadi, Irene Macaluso, Marco Ruffini, and Nima Afraz Room 6 Empowering Transatlantic Platforms for Advance TuB4: Tutorial 4 - Session 2 Wireless Research Room 4 Behind Wi-Fi’s success story: Fundamentals, deciphering TuA8: Workshop 2 - Session 1 802.11ax, and roadmap towards the next generation David Lopez-Perez, Adrian Garcia-Rodriguez, and Lorenzo Room 8 Galati Giordano From Cloud-ready to Cloud-native transformation TuB6: Workshop 1 - Session 2 • SliceNet Programmable Data Plane Control in 5G Network Slicing Pablo Salva Garcia (University West Of Scotland, Room 6 United Kingdom (Great Britain)); Enrique Chirivella- Empowering Transatlantic Platforms for Advance Perez, Jose Alcaraz-Calero and Qi Wang Wireless Research

25 TuB8: Workshop 2 - Session 2 Tuesday, June 18, 16:15 - 18:00

Room 8 From Cloud-ready to Cloud-native transformation TuD0: G5GE+EuCNC: 5G KPI Measurement

Auditorium 2 Lunch 13:00-14:00 Moderator: Maurizio Cecchi (Associazione P.I.I.U.) Multipurpose Rooms 1 and 2

TuD3: Tutorial 3 - Session 2 Tuesday, June 18, 14:00 - 15:45 Room 3 Machine Learning for Artificially Intelligent Wireless TuC0: G5GE+EuCNC: Cross-Regional Networks: Challenges and Opportunities projects Walid Saad Auditorium 2 Moderator: Yeqing Du (Huawei) TuD4: Tutorial 2 - Session 2

Room 4 TuC3: Tutorial 3 - Session 1 When Clouds meet 6G: the academic, industrial and Room 3 standard perspective Emilio Calvanese Strinati and Vincenzo Sciancalepore Machine Learning for Artificially Intelligent Wireless Networks: Challenges and Opportunities Walid Saad TuD6: Workshop 1 - Session 3

Empowering Transatlantic Platforms for Advance TuC4: Tutorial 2 - Session 1 Wireless Research

Room 4 Room 6 When Clouds meet 6G: the academic, industrial and standard perspective Emilio Calvanese Strinati and Vincenzo Sciancalepore

Coffee break 15:45-16:15 Commercial Exhibition Area

26 Wednesday, June 19

Wednesday, June 19, 08:30 - 10:30 • Integration of Antenna Systems in Aeroframes for Seamless Communication and Connectivity Marta Martínez-Vázquez, Jordi Balcells- Ventura, Jens Leiß and Rens Baggen (IMST WeA0: EUCNC OPENING AND KEYNOTES GmbH, Germany); Jaco Verpoorte and Adriaan Hulzinga (National Aerospace Laboratory NLR, Auditorium 1 The Netherlands); Zdeněk Řezníček (Design and Chair: Narcís Cardona (Universitat Politècnica de València) Engineering, Czech Republic) • Field Trial Test and Monitoring of W-band Point to Multipoint Wireless Network Keynote 1 Antonio Ramirez and Miguel Martinez (Fibernova Systems, Spain); Etienne Leder and Joel Willebois (BOWEN, France); François Magne (WHEN-AB & WI FIve-G SARL, France); Frederic Andre (Thales Electron Devices, John M. Cioffi (Chairman/CEO ASSIA Inc. , EE Professor France); Quang Trung Le (HF Systems Engineering Emeritus (recalled) Stanford University, USA) GmbH & Co. KG, Germany); Xavier Begaud (LTCI, Télécom ParisTech, Université Paris-Saclay, France); Viktor Krozer (Goethe University of Frankfurt am Keynote 2 Main, Germany); Marc Marilier (OMMIC, France); Rosa Letizia (Lancaster University, United Kingdom (Great Britain)); Roberto Llorente (Universidad Politecnica 5G in Automotive - pioneering the digital de Valencia, Spain); Ralp Zimmerman (HF System transformation in the automotive industry Engineering, Germany); Claudio Paoloni (Lancaster Johannes Springer (Lead 5G@Automotive Program Deutsche University, United Kingdom (Great Britain)) Telekom AG,Deutsche Telekom AG / T-Systems International • Deep Learning to Forecast Energy Consumption and 5GAA (5G Automotive Association), Director General, in Smart Buildings Using Heterogeneous IoT Data Germany) Sources Paulo Marques (Instituto Politecnico de Castelo Branco) • Flow Table Overflow Analysis with OpenFlow POX Controller Coffee break 10:30-11:00 Ying Qian (East China Normal University, P.R. Commercial Exhibition Area China); Kai Qian, Hossain Shahriar and Md Arabin Islam Talukder (Kennesaw State University, USA) • Towards a Distributed Authentication and Authorization Mechanism via Blockchain in 5G Wednesday, June 19, 11:00 - 12:30 Energy Applications Wafa Ben Jaballah (Thales, France); Artemis Voulkidis (Power Operations Ltd, UK) WeB0: Panel 1 • Use Case Representations of Connected and Automated Driving Auditorium 1 Kai Cordes (VISCODA GmbH, Germany); Bastian Cellarius (Ericsson, Germany); Tobias Frye (Robert Bosch GmbH, Germany); Stephan Saur and Juergen Beyond 5G Technological Enablers for the Next Otterbach (Nokia Bell Labs, Germany); Mathieu Generation Mobile Lefebvre and Frédéric Gardes (Orange, France); Mikael Fallgren (Ericsson Research, Sweden); Organizer/Moderator: Jérôme Tiphène (Groupe PSA, France) • Contribution to the Analysis of the Lifetimes of Afif Osseiran (Ericsson AB, Sweden) Well Functioning of Wireless Sensor Networks Application on 5G Infrastructure Amal Chaffai (Universidad Politecnica de Valencia, Spain) Wednesday, June 19, 12:30 - 13:00 • Cognitive, Multi-Domain Network Slicing: The SliceNet Framework Pedro Neves (Altice Labs, Portugal); Jose Maria Alcaraz Calero (University of the West of Scotland & School of WeBH: Poster Session 1 Engineering and Computing, United Kingdom (Great Britain)); Qi Wang (University of the West of Scotland, Networking Area United Kingdom (Great Britain)); Giacomo Bernini and Pietro Giardina (Nextworks, Italy); Salvatore Spadaro • A PN Code Design Based on Genetic Algorithm (Universitat Politecnica de Catalunya (UPC), Spain); for Folding-Based GNSS Signal Acquisition Fernando Agraz (Universitat Politècnica de Catalunya, Keunhong Chae and Seokho Yoon (Sungkyunkwan Spain); Albert Pagès (Universitat Politècnica de University, Korea) Catalunya (UPC), Spain); Dean H Lorenz (IBM Research

27 - Haifa, Israel); Konstantinos Koutsopoulos (Creative Wednesday, June 19, 14:00 - 15:30 Systems Engineering, Greece); Ciriaco Angelo (Ericsson, Italy); Navid Nikaein (Eurecom, France); Thuy Truong (Dell EMC, Ireland); Cristian Patachia (Orange Romania WeC0: CELTIC Event - Session 1 SA, Slovenia); Marius Iordache (Orange, Romania); Imen Grida Ben Yahia (Orange Labs, France); George Auditorium 2 Agapiou (Hellenic Telecommunications Organization, Greece); Ricardo Figueiredo (Redzinc, Ireland); Mark Agenda: F Roddy (Cork Institute of Technology, Ireland); Ana Aleixo (Efacec Energia, Portugal) • Welcome: Valerie Blavette (CELTIC Chairperson) • Multi-Sensor Assisted Cooperative Beam Tracking • Keynote Speech 1: Artificial Intelligence for mmWave Vehicle-to-Vehicle Communication • Panel: Impact of CELTIC Projects. Moderator: Mattia Brambilla, Lorenzo Combi, Monica David Kennedy (EURESCOM) Nicoli, Sergio Savaresi and Umberto Spagnolini (Politecnico di Milano, Italy) 1. NOTTS and MONALIS: Antonio Cuadra • Prototyping LTE-WiFi Interworking on a Single Sanchez (INDRA) SDR Platform 2. UPSC Vincent Kotzsch, Clemens Felber and Walter 3. Flagship SASER Nitzold (National Instruments, Germany) 4. Flagship SENDATE • Evaluation of LoRa Technology Performance in a 5. ACIO City-wide Testbed Giannis Kazdaridis (University of Thessaly, Greece); Stratos Keranidis (University of Thessaly WeC1: Special Session 1 and CERTH, Greece); Polychronis Symeonidis, Panagiotis Tzimotoudis, Ioannis Zographopoulos, Panagiotis Skrimponis and Thanasis Korakis Room 1 (University of Thessaly, Greece) • LORNO - An Industrial Grade Wireless Sensor Validating and Demonstrating the Satellite Integration Network for Leakage Detection and Localization into 5G in Water Distribution Networks Damien Piguet (Centre Suisse d’Electronique et de Organizers: Microtechnique, Switzerland); Urs Riesen (HINNI Maria Guta (European Space Research and Technology AG, Switzerland) Centre, European Space Agency, The Netherlands) • Smart Highway: ITS-G5 and C-V2X Based Konstantinos Liolis (SES, Luxembourg) Testbed for Vehicular Communications in Real Environments Enhanced by Edge Technologies Johann M. Marquez-Barja (University of Antwerpen • Satellite Integration into 5G: Getting Ready & IMEC, Belgium); Bart Lannoo (University of Antwerp Maria Guta (European Space Research and - imec, Belgium); Dries Naudts (Ghent University & Technology Centre, European Space Agency, The Imec, Belgium); Bart Braem (University of Antwerp - Netherlands) imec, Belgium); Carlos Donato (University of Antwerp • Value Chain Analysis for Integrated Satellite- - imec, IDLab Research Group, Belgium); Vasilis Terrestrial 5G Networks Maglogiannis (University of Ghent & IBCN Research Simon Watts (Avanti Communications, United Group, Belgium); Siegfried Mercelis (University of Kingdom (Great Britain)) Antwerp & imec IDLab, Belgium); Rafael Berkvens • Satellite Ground Segment Integration into 5G: (University of Antwerp - imec, Belgium); Peter Softwarization, Virtualization and Orchestration of Hellinckx (University of Antwerp, Belgium); Maarten Satellite Ground Segment for Integration into 5G Weyn (University of Antwerp - imec, Belgium); Ingrid Joe Cahill (VT iDirect Solution Ltd, Ireland); Richard Moerman (Ghent University - imec, Belgium); Steven Lord (VT iDirect, Ireland) Latré (University of Antwerp - imec, Belgium) • Milestone Over-the-Air Demonstrations • Particles Traces Classification by a Spiking Neural Showcasing Satellite’s Strategic Role in 5G Network Running on a Distributed Simulator Konstantinos Liolis (SES, Luxembourg) Rodolfo Rocco (University of Antwerp & Imec, Belgium) • 5G Experimentation Facility Supporting Satellite- • Downlink Multicarrier Distributed Antenna Terrestrial Integration: The 5GENESIS Approach Systems for Indoor Industrial Internet of Things Harilaos Koumaras (NCSR Demokritos, Greece) Wooram Shin (Electronics and Telecommunications • MNO’s View and Use Cases on Satellite Research Institute, Korea); Seokki Kim (ETRI, Integration into 5G Korea); Joonhyuk Kang (KAIST, Korea) Pål R. Grønsund (Telenor & University of Oslo, • LoRa Physical Layer Evaluation for Point-to- Norway); Stefan Heck (Telenor Satellite, Norway) Point Links and Coverage Measurements in • Updates on Japanese Plans for Satellite- Diverse Environments Terrestrial 5G Integration R&D Activities Gilles Callebaut, Guus Leenders, Stijn Crul and Naoto Kadowaki (National Institute of Information Chesney Buyle (KU Leuven, Belgium); Liesbet Van and Communications Technology, Japan); Amane der Perre (KUL, Belgium) Miura (Institute of Information and Communications Technology, Japan) • 5G and Beyond: Research Challenges for Satellite Lunch 13:00-14:00 Integration Multipurpose Rooms 1 and 2 Marius Corici (Fraunhofer FOKUS, Germany)

28 Programme Wednesday, June 19

• Satellites and 5G: What’s the Future? de Catalunya (CTTC/CERCA), Spain); Iñaki Pascual Hejia Luo and Bin Wang (Huawei Technologies Co., (CTTC, Spain); Ricardo Martinez(Centre Tecnològic Ltd., P.R. China); Jun Wang (Huawei Technologies de Telecomunicacions de Catalunya (CTTC/ Co. Ltd, P.R. China) CERCA), Spain); Luca Vettori (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC), Spain); Arturo Zurita and David Salama (ATOS, Spain); WeC2: Coding Techniques Dmitriy Andrushko (Kharkiv National University of Radio Electronics, Ukraine); Konstantin Tomakh Room 2 (Mirantis, Ukraine); Giada Landi (Nextworks, Italy); Chair: Claudio Paoloni (Lancaster University, United Kiril Antevski (Universidad Carlos III, Spain); Jorge Kingdom (Great Britain)) Martín-Pérez (Universidad Carlos III de Madrid, Spain); • Optimal Sequence and SINR for Desired User in Barbara Martini (CNIT, Italy); Xi Li (NEC, Germany); Asynchronous CDMA System Josep Xavier Salvat (NEC Labs Europe, Germany) Hirofumi Tsuda (Kyoto University & Graduate • Inter-Business Orchestration for Resource and School of Informatics, Japan) Service Provisioning in 5G Network Slicing • An Unnoticed Property in QC-LDPC Codes to Enrique Chirivella-Perez (University of the West of Find the Message from the Codeword in Non- Scotland, United Kingdom (Great Britain)); Pablo Salva systematic Codes Garcia (University West Of Scotland, United Kingdom Alireza Hasani (Brandenburg University of Technology (Great Britain)); Jose Alcaraz-Calero and Qi Wang Cottbus-Senftenberg & IHP GmbH - Innovations (University of the West of Scotland, United Kingdom for High Performance Microelectronics, Germany); (Great Britain)); Pedro Neves (Altice Labs, Portugal) Lukasz Lopacinski (IHP, Germany); Steffen Büchner • NGPaaS Framework for Enriched and Customized (Brandenburgische Technische Universität Cottbus- Virtual Network Functions-as-a-Service Senftenberg, Germany); Jörg Nolte (BTU Cottbus, Paul Veitch (BT, United Kingdom (Great Britain)); Germany); Rolf Kraemer (IHP Microelectronics, Frankfurt/Oder & BTU-Cottbus, Germany) Adam Broadbent (British Telecom, United Kingdom • Packet Recovery Latency of a Rate-less Polar (Great Britain)); Angelos Mimidis and Jose Soler Code in Low Power Wide Area Networks (Technical University of Denmark, Denmark); Marco Yi Yu (ISEP, France); Lina Mroueh (Institut Supérieur Mobilio (University of Milano-Bicocca, Italy); d’Electronique de Paris, France); Guillaume Vivier Alessandro Tundro (Unimib, Italy); Michell Guzman (Sequans, France); Michel Terré (CNAM, France) (Unimib, United Kingdom (Great Britain)); Steven Van • 5G New Radio over Satellite Links: Rossem (Ghent University & iMinds - IBCN, Belgium) Synchronization Block Processing • vFPGAmanager: A Hardware-Software Harri Saarnisaari (University of Oulu, Finland); Framework for Optimal FPGA Resources Jean-Michel Houssin and Thibault Deleu (Thales Exploitation in Network Function Virtualization Alenia Space, France) Spyros Chiotakis (Virtual Open Systems, France); • Integrating Sparse Code Multiple Access with Sébastien Pinneterre and Michele Paolino (Virtual Circularly Pulse-Shaped OFDM Waveform for Open Systems SAS, France) 5G and the Factories of the Future Yenming Huang (National Taiwan University & Graduate Institute of Communication Engineering, WeC4: Optical Communications Taiwan); Rueibin Yang and Borching Su (National Taiwan University, Taiwan) Room 4 Chair: Konstantinos Stavropoulos (EXFO, United Kingdom (Great Britain)) WeC3: Orchestration and Virtualisation • Duobinary Modulation for Visible Light Communications Room 3 Petr Chvojka (Czech Technical University in Prague, Chair: Toktam Mahmoodi (King’s College London, United Czech Republic); Paul Anthony Haigh (Newcastle Kingdom (Great Britain)) University, United Kingdom (Great Britain)); Izzat Darwazeh (University College London, United • Network Slicing-aware NFV Orchestration for Kingdom (Great Britain)); Zabih Ghassemlooy 5G Service Platforms (Northumbria University, United Kingdom (Great Hamzeh Khalili, Apostolos Papageorgiou and Britain)); Stanislav Zvanovec (Czech Technical Muhammad Shuaib Siddiqui (Fundació i2CAT, University in Prague, Czech Republic) Internet i Innovació Digital a Catalunya, Spain); • Modeling and Link Quality Assessment of THz Carlos Colman Meixner (University of Bristol, United Network Within Data Center Kingdom (Great Britain)); Gino Carrozzo (Nextworks, Italy); Reza Nejabati and Dimitra Simeonidou Boujnah Noureddine (Waterford Institute of (University of Bristol, United Kingdom (Great Britain)) Technology, TSSG, Tunisia & Faculty of Sciences • 5G-TRANSFORMER Service Orchestrator: of Gabes, unknown); Saim Ghafoor (Waterford Design Implementation and Evaluation Institute of Technology & TSSG, Ireland); Alan Davy Josep Mangues-Bafalluy (Centre Tecnològic de (Waterford Institute of Technology, Ireland) Telecomunicacions de Catalunya (CTTC), Spain); Jorge • How, When and Where Can Fixed Wireless Baranda (Centre Tecnològic de Telecomunicacions Access Compete with FTTH?

29 Szymon Piotr Izydorek (Aalborg University, Finland, Finland); Antti Anttonen (VTT Technical Denmark); Annie Gravey (Institut Mines Telecom - Research Centre of Finland, Finland); Aarne O Telecom Bretagne, France); Reza Tadayoni (Aalborg Mämmelä (VTT, Finland); Pekka Isto (VTT Technical University Copenhagen, Denmark) Research Centre of Finland Ltd, Finland) • Optical Interconnection of CDN Caches with Tb/s Sliceable Bandwidth-Variable Transceivers Featuring Dynamic Restoration WeC6: Workshop 5 - Session 1 David Larrabeiti and Gabriel Otero Pérez (Universidad Carlos III de Madrid, Spain); Juan Pedro Fernández- Room 6 Palacios (Telefónica I+D, Spain); Michela Svaluto Moreolo (Centre Tecnològic de Telecomunicacions de Emerging 5G Business Models: Opportunities for SMEs Catalunya (CTTC), Spain); José Alberto Hernández and large companies-lesson from 5G PPP (5G-EBM) (Universidad Carlos III de Madrid, Spain); Pedro Reviriego (University Carlos III of Madrid, Spain); Josep M. Fabrega (Centre Tecnologic de Telecomunicacions de Catalunya, Spain); Victor Lopez (Telefonica, Spain); WeC8: Workshop 6 - Session 1 Laia Nadal (CTTC, Spain); Ricardo Martinez (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC/ Room 8 CERCA), Spain) European and Taiwanese Cooperation on 5G • Adaptive Unipolar MIMO-OFDM for Visible Light Communications Mohamed Al-Nahhal (Ozyegin University, Turkey); Coffee break 15:30-16:00 Ertugrul Basar (Koc University, Turkey); Murat Commercial Exhibition Area Uysal (Ozyegin University, Turkey)

WeC5: Vehicular and Industrial Communication Trials Wednesday, June 19, 16:00 - 17:30 Room 5 Chair: John Davies (BT, United Kingdom (Great Britain)) WeD0: CELTIC Event - Session 2

• 5G Connected and Automated Driving: Use Auditorium 2 Cases and Technologies in Cross-border Environments Agenda: Dirk Hetzer (T-Systems, Germany); Maciej Mühleisen (Ericsson Research, Germany); • Keynote Speech 2: Future prove of mobility Apostolos Kousaridas (Huawei Technologies, • CELTICNEXT Ambitions: Valerie Blavette (CELTIC Germany); Jesus Alonso-Zarate (Centre Chairperson) Tecnologic de Telecomunicacions de Catalunya - • SME: Steny Solitude, Perfect Memory, France CTTC, Spain) • Best of CELTIC Projects. Presentation of the 4 • Evaluation of LiDAR Data Processing at the CELTIC Awards Winners and Award Ceremony Mobile Network Edge for Connected Vehicles Olli Mämmelä and Tiia Ojanperä (VTT Technical Research Centre of Finland, Finland); Jukka Mäkelä WeD1: Special Session 2 (VTT Technical Research Centre of Finland Ltd, Finland); Room 1 Ossi Martikainen (VTT Technical Research Centre of Finland, Finland); Jani Väisänen (Unikie Ltd., Finland) Advanced THz Technologies Towards Terabit/s • Monitoring Resilience in a Rook-managed Wireless Communications Containerized Cloud Storage System Louis Baumann and Stefan Benz (Abraxas, Switzerland); Leonardo Militano and Thomas Organizers: Michael Bohnert (Zurich University of Applied Angeliki Alexiou (University of Piraeus, Greece) Sciences, Switzerland) Catherine Douillard (IMT Atlantique, France) • Vertical Industries Requirements Analysis & Targeted KPIs for Advanced 5G Trials • ICT Beyond 5G Cluster: Seven H2020 for Future 5G Konstantinos Trichias (WINGS ICT Solutions, Greece); Claudio Paoloni (Lancaster University, United Tilemachos Doukoglou and Velissarios Gezerlis Kingdom (Great Britain)); Angeliki Alexiou (OTE, Greece); Nikos Kostopoulos (Ericsson Hellas (University of Piraeus, Greece); Olivier Bouchet SA, Greece); Nikos Vrakas and Marios Bougioukos (Orange Labs, France); Alan Davy (Waterford (NOKIA SOLUTIONS AND NETWORKS HELLAS SA, Institute of Technology, Ireland); Vladimir Ermolov Greece); Rodolphe Legouable (Orange, France) (, Finland); Thomas Kuerner (Braunschweig • Remote Control Demonstrator Development in Technical University, Germany); Bruce Napier 5G Test Network (Vivid Components Ltd., Germany); Onur Sahin Mikko Uitto (VTT Technical Research Centre of (InterDigital, Inc., USA) Finland Ltd, Finland); Mika Hoppari (VTT, Finland); • Channel Coding for Tbit/s Communications: An Tapio Heikkilä (Technical Research Centre of Implementation Centric View

30 Programme Wednesday, June 19

Norbert Wehn (University of Kaiserslautern, Germany) Foivos Michelinakis (Simula Metropolitan, Norway) • Regulatory Aspects of THz Communications and • Defining a Communication Service Management Related Activities Towards WRC 2019 Function for 5G Network Slices Thomas Kuerner (Technische Universitaet Luis Suarez (IRT bcom & Université de Bretagne Braunschweig) Occidentale (UBO), France); David Espes (University of Brest & LabSTICC, France); Philippe Le Parc (University of Brest, France); Frédéric Cuppens (IMT WeD2: Propagation Atlantique, France) • Deploying Smart City Components for 5G Room 2 Network Slicing Chair: Filipe Cardoso (IST/INOV INESC/ESTSetubal, Portugal) Bogdan Rusti (Orange Romania, Romania) • Management of Mission Critical Public Safety • Modeling and Link Budget Estimation of Applications: The 5G ESSENCE Project Directional mmWave Outdoor Environment for 5G Maria Spada (Wind Tre SpA, Italy); Jordi Pérez- Sheeba Kumari M (VTU, Bangalore, India); Sudarshan Romero (Universitat Politècnica de Catalunya (UPC), Rao (BigSolv Labs Pvt Ltd Bangalore, India); Navin Spain); Vincenzo Riccobene (Intel, Ireland); Aitor Kumar (Amrita University & School of Engineering, India) Sanchoyerto (University of the Basque Country, • Transmission Through Large Intelligent Surfaces: Spain); Ruben Solozabal (EHU, Spain); Michail A New Frontier in Wireless Communications Alexandros Kourtis (NCSR Demokritos, Greece) Ertugrul Basar (Koc University, Turkey) • The Effect of Rough Surface Statistics on Diffuse Scattering at Terahertz Frequencies WeD4: Satellite Communications Mai Alissa (University Duisburg Essen, Germany); Theo Kreul (University of Duisburg-Essen, Room 4 Germany); Thomas Kaiser (Universität Duisburg- Chair: Konstantinos Liolis (SES, Luxembourg) Essen, Germany) • Multi-band Double-directional 5G Street Canyon • Optimising Layered Video Content Delivery Measurements in Germany Based on Satellite and Terrestrial Integrated 5G Diego Dupleich (Ilmenau University of Technology, Networks Germany); Robert Müller and Sergii Skoblikov (TU Satish Kumar, Ning Wang, Chang Ge and Barry Ilmenau, Germany); Jian Luo (Huawei Technologies Evans (University of Surrey, United Kingdom (Great Duesseldorf GmbH, Germany); Giovanni Del Galdo Britain)) (Fraunhofer Institute for Integrated Circuits IIS & • TALENT: Towards Integration of Satellite and Technische Universität Ilmenau, Germany); Reiner S. Terrestrial Networks Thomä (Ilmenau University of Technology, Germany) Pouria Sayyad Khodashenas (i2CAT Foundation • Millimeter Wave Antenna for Information (i2CAT), Spain); Hamzeh Khalili (Fundació i2CAT, Shower: Design Choices and Performance Internet i Innovació Digital a Catalunya, Spain); Sergio Barberis, Daniele Disco and Roberto Daniel Guija (i2CAT Foundation (i2CAT), Spain); Vallauri (TIM, Italy); Takashi Tomura and Jiro Muhammad Shuaib Siddiqui (Fundació i2CAT, Hirokawa (Tokyo Institute of Technology, Japan) Internet i Innovació Digital a Catalunya, Spain) Marco Chiani and Ahmed Elzanaty (University of • The SHINE Testbed for Secure In-Network Bologna, Italy) Caching in Hybrid Satellite-Terrestrial Networks Simon Pietro Romano (University of Napoli Federico II, Italy); Cesare Roseti (University of Rome WeD3: Network Slicing Tor Vergata, Italy); Massimo Zito (ITSLAB srl, Italy); Michele Luglio (University of Rome Tor Vergata - Room 3 Dip. Ing. Elettronica, Italy) Chair: Óscar Carrasco (Casa Systems, Spain) • Design of Moving Experimentation Facility to Showcase Satellite Integration into 5G • Network Slice Instantiation for 5G Micro- Christos Politis and Konstantinos Liolis (SES, Operator Deployment Scenarios Luxembourg); Marius Corici and Eric Troudt Idris Badmus (Centre for Wireless (Fraunhofer FOKUS, Germany); Zsolt Szabo Commmunications, University of Oulu, Finland); (Fraunhofer Institut FOKUS, Germany); Joe Cahill Marja Matinmikko-Blue (University of Oulu, Centre (iDirect, Ireland) for Wireless Communications, Finland); Jaspreet • Implementation of Virtualised Network Functions Singh Walia and Tarik Taleb (Aalto University, (VNFs) for Broadband Satellite Networks Finland) Ahmed Abdelsalam (University of Rome Tor Vergata, • Towards Closed Loop 5G Service Assurance Italy); Armir Bujari (University of Padua, Italy); Architecture for Network Slices as a Service Michele Luglio (University of Rome Tor Vergata - Dip. Min Xie (Telenor Research & Telenor Group, Ing. Elettronica, Italy); Daniele Munaretto (Athonet, Norway); Wint Yi Poe (Huawei Technologies - Italy); Claudio E. Palazzi (University of Padua, Italy); European Research Center, Germany); Yue Wang Mattia Quadrini (University of Rome Tor Vergata - (Samsung Electronics, USA); Andres J Gonzalez Dip. Ing. Elettronica, Italy); Simon Pietro Romano (Telenor Research, Norway); Ahmed Mustafa (University of Napoli Federico II, Italy); Cesare Roseti Elmokashfi (Simula Research Laboratory, Norway); and Francesco Zampognaro (University of Rome Tor Joao Antonio Pereira Rodrigues (Nokia, Portugal); Vergata, Italy)

31 WeD5: Autonomuos Driving WeD6: Workshop 5 - Session 2

Room 5 Room 6 Chair: Sandra Roger (Universitat de València, Spain) Emerging 5G Business Models: Opportunities for SMEs • Packet Inter-Reception Time Modeling for and large companies-lesson from 5G PPP (5G-EBM) High-Density Platooning in Varying Surrounding Traffic Density Guillaume Jornod (Volkswagen AG & TU Braunschweig, Germany); Ahmad El Assaad WeD8: Workshop 6 - Session 2 (Volkswagen, Germany); Andreas Kwoczek (Volkswagen AG, Germany); Thomas Kürner Room 8 (Technische Universität Braunschweig, Germany) • Channel Models for the Simulation of Different European and Taiwanese Cooperation on 5G RATs Applied to Platoon Emergency Braking Tianxiang Nan (Technische Universität Braunschweig, Germany); Guillaume Jornod (Volkswagen AG & TU Braunschweig, Germany); Michael Schweins (Technische Universität Wednesday, June 19, 17:30 - 18:30 Braunschweig & Institut für Nachrichtentechnik, Germany); Ahmad El Assaad (Volkswagen, Germany); Andreas Kwoczek (Volkswagen AG, WeEH: Special Session 5 Germany); Thomas Kürner (Technische Universität Braunschweig, Germany) • A Lane Merge Coordination Model for a V2X Networking Area Scenario Luis Sequeira, Adam Szefer, Jamie Slome and Grow your innovative ideas and career with COST Toktam Mahmoodi (King’s College London, United Chair: Ralph Stuebner (COST Association, Belgium) Kingdom (Great Britain)) • Autonomous Driving Progressed by oneM2M - This networking reception is hosted by COST (European The Experience of the AUTOPILOT Project Cooperation in Science and Technology), a funding Giovanna Larini and Giovanni Romano (Telecom organisation for the creation of research and innovation Italia, Italy); Mariano Falcitelli (CNIT - Photonic networks, called COST Actions. Networks National Laboratory, Italy); Sandro Noto In an lively and participatory format the participants will (CNIT, Italy); Paolo Pagano (Consorzio Nazionale learn how these networks do offer an open space for Interuniversitario per le Telecomunicazioni, Italy); collaboration across Europe (and beyond) and thereby give Miodrag Djurica (TNO, The Netherlands); Georgios impetus to research advancements and innovation. You Karagiannis (Huawei Technologies, Germany); will also hear from COST Action participants how COST Gürkan Solmaz (NEC Laboratories Europe, impacted their careers. Germany) The event will help create dialogues and thereby lay • A Look into Communication and Necessary the basis for potential future connections and common Ingredients for Improved Situational Awareness projects, e.g. future COST Actions or other joint research Manzoor Ahmed Khan (TU Berlin, Germany); projects. Martin Berger (Technische Universität Berlin, Please note that the reception is on invitation only. More Germany); Xuan-Thuy Dang (Technische Universität information is available at the COST booth in the EUCNC Berlin & DAI Labor, Germany) exhibition area.

32 Thursday, June 20

Thursday, June 20, 09:00 - 10:30 (BT Group, United Kingdom (Great Britain)); Simon Watts (Avanti Communications, United Kingdom (Great Britain)); Leonardo Goratti (Zodiac ThA0: KeynoteS Aerospace, Germany); Boris Tiomela Jou (Airbus Defence and Space, France) • On the Use of Existing 4G Small Cell Auditorium 2 Deployments for 5G V2N Communication Chair: Luis Correia (IST/INESC-ID - University of Lisbon & INESC, Umar Saeed, Jyri Hämäläinen and Edward Portugal) Mutafungwa (Aalto University, Finland); Risto Wichman (Aalto University School of Electrical Engineering, Finland); David Gonzalez G. Keynote 3 (Continental Automotive, Germany); Mario Garcia- Lozano (Universitat Politècnica de Catalunya, Spain) • On the Deployment of Large Scale NSaaS 5G - A Door Opener for 6G? Thomas Deiss, Bertold Dickhaus and Dereje Kifle Gerhard P. Fettweis (Vodafone Chair Professor - TU Dresden, (Nokia, Germany) and CEO Barkhausen Institut, Germany) • 5G Video Optimization Challenges for Entertainment and Remote Driving in Connected Mobility Ignacio Benito Frontelo (Nokia Bell Labs, Spain); Keynote 4 Jaime Ruiz Alonso (Nokia Spain SA, Nokia Bell Labs, Spain); Pablo Pérez (Nokia Bell Labs, Spain); Completing the 5G vision - Overview of the Industry Diego Bernardez Moron (CTAG, Spain); Francisco Roadmap Sanchez (Centro Tecnológico de Automoción Ulrich Dropmann (Head of Standardization, Bell Labs - de Galicia, Spain); João Moutinho (Centro de CTO, Nokia, Germany) Computação Gráfica, Portugal) • MESON: Facilitating Cross-Slice Communications for Enhanced Service Delivery at the Edge Coffee break 10:30-11:00 Konstantinos V. Katsaros (Intracom S.A. Telecom Solutions, Greece); Panagiotis Papadimitriou and Commercial Exhibition Area Georgios Papathanail (University of Macedonia, Greece); Dimitrios Dechouniotis (National Technical University of Athens, Greece); Symeon Papavassiliou (ICCS/National Technical University of Athens, Greece) Thursday, June 20, 11:00 - 12:30 • 5G Network Slicing Based on SDN and Machine Learning Jose Costa-Requena (Aalto University, Finland); ThB0: Panel 2 Abdulkadir Mohammedadem (Cumucore, Finland) • IoT Gateway Virtualization for 5G mMTC Auditorium 2 Network Slicing Vasileios Theodorou and Konstantinos V. Future Connectivity and Network Security Katsaros (Intracom S.A. Telecom Solutions, Greece); Christos Tranoris and Spyros Denazis (University Organizer/Moderator: of Patras, Greece) Bengt Sahlin (Research Leader, Network Security, Ericsson • 5G End-to-End Open-Source Network: Research NomadicLab, Sweden) Architecture and Use Cases Sofiane Imadali (Orange Labs & Orange, France); Mohamad Yassin (Orange Labs, France); Lukasz Rajewski (Orange Polska & Warsaw University of Thursday, June 20, 12:30 - 13:00 Technology, Poland); Grzegorz Panek (Orange Polska, Poland); Tomasz Osiński (Orange Polska & Warsaw University of Technology, Poland); Louiza Yala and Ayoub Bousselmi (Orange Labs, France) ThBH: Poster Session 2 • On the Uplink Spectral Efficiency of FBMC Systems Networking Area Davide Mattera (Università degli Studi di Napoli Federico II, Italy); Mario Tanda (Università di Napoli • Managing Integrated satellite-5G Networks Federico II, Italy); Maurice Bellanger (CNAM, France) Techno-Economic Evaluation of a Brokerage Role • An Enhanced Version of IEEE 802.15.4 Standard Asma Chiha (University of Gent & IMEC, Belgium); Compliant Transceiver Supporting Variable Data Rate Marlies Van der Wee (imec- Ghent University, Muhammad Aslam and Xianjun Jiao (Ghent Belgium); Michael Fitch (University of Surrey UK, University - imec, IDLab, Belgium); Wei Liu United Kingdom (Great Britain)); Keith Briggs (University Ghent - imec, Belgium); Ingrid Moerman

33 (Ghent University - imec, Belgium) ThC1: Special Session 3 • Performance Evaluation of THz Wireless Systems Under the Joint Impact of Misalignment Room 1 Fading and Phase Noise Evangelos N. Papasotiriou, Alexandros-Apostolos 5G trials for vertical industries A Boulogeorgos and Angeliki Alexiou (University of Piraeus, Greece) Organizers: • Index Modulated Orthogonal Frequency Division Multiplexing with Quasi-Orthogonal Sequence Massimo Bertoncini (Engineering Ingegneria Informatica, Italy) Hyeongseok Kim, Myeonggil Yeom and Giampaolo Fiorentino (Engineering Ingegneria Informatica, Italy) Jeongchang Kim (Korea Maritime and Ocean Filippo Rebecchi (Thales, France) University, Korea) Maria Rita Spada (Wind Tre, Italy). • Clustering-based mmWave Channel Propagation Models for Outdoor Urban Scenarios • Network Functions for Supporting 5G Services Bogdan Antonescu, Miead Tehrani Moayyed and Alexandros Kostopoulos (Hellenic Stefano Basagni (Northeastern University, USA) Telecommunications Organization S.A. (OTE), Greece); • MATILDA: A Value Proposition for Ioannis Chochliouros and Evangelos Sfakianakis Telecommunication Service Providers for Vertical (Hellenic Telecommunications Organization S.A. Applications’ Integration in a 5G -Ecosystem (OTE), Greece); Daniele Munaretto (Athonet, Ioanna Mesogiti, Elina Theodoropoulou and Italy); Claus Keuker (Smart Mobile Labs GmbH, George Lyberopoulos (COSMOTE Mobile Germany); Michail Alexandros Kourtis and Ioannis Telecommunications S.A., Greece); Fotini Setaki Giannoulakis (NCSR Demokritos, Greece) (COSMOTE Mobile Telecommunications S.A. • Use Cases for Developing Enhanced Mobile Greece, Greece); Aurora Ramos (Atos, Spain); Broadband Services for the Promotion of 5G Panagiotis Gouvas (Ubitech, Greece); Anastasios Ioannis Chochliouros (Hellenic Zafeiropoulos (UBITECH & National Technical Telecommunications Organization S.A. (OTE), University of Athens, Greece); Roberto Bruschi Greece); Anastasia Spiliopoulou (Lawyer, Hellenic (CNIT, Italy) Telecommunications Organization SA (OTE), • Architecture Proposal for SD-IoT Deployments Greece); Alexandros Kostopoulos (Hellenic with a Decoupling of Gateway Functionalities Telecommunications Organization S.A. (OTE), Jara Suárez de Puga and Andreu Belsa (Universitat Greece); Dimitrios Arvanitozisis (Hellenic Politècnica de València, Spain); Carlos E Palau Telecommunications Organization S.A. (OTE), (Universitat Politecnica Valencia, Spain) Greece); Na Yi (University of Surrey, United • An Analysis of Redundancy Schemes on Cloud Kingdom (Great Britain)); Tao Chen (VTT, Finland); Radio Access Network Reliability Athanassios Dardamanis (SmartNet S.A., Greece); Kunjan Shah and Sina Khatibi (NOMOR Research Olga Segou (ORION Innovations, Greece); Latif GmbH, Germany); Borislava Gajic (Nokia Bell Labs, Ladid (University of Luxembourg / IPv6 Forum, Germany) Luxembourg); Rita Spada (Wind, Italy) • Multistandard RAS in a K-Tier Network of Various • How 5G Enables Smart Energy: Setup and First Geometry, Coverage and Capacity Jasmin Musovic (Communications Regulatory Experiences from the NRG-5 Pilots Agency, Bosnia and Herzegovina); Vlatko Lipovac Francesco Bellesini (Emotion s. r. l., Italy); Tommaso (University of Dubrovnik, Croatia) Bragatto (Sapienza University of Rome, Italy); Daniel Cabagnols (ENGIE, France); Antonello Corsi (Engineering, Italy); Giampaolo Fiorentino(Italy & Engineering, Italy); José María Lalueza (Visiona Lunch 13:00-14:00 Ingeniería de Proyectos, Spain); Filippo Rebecchi Multipurpose Rooms 1 and 2 (Thales Communications & Security, France) • Path to 5G Smart Cities Experiences from Media and Public Safety Pilots in 5GCity Thursday, June 20, 14:00 - 15:30 Gino Carrozzo (Nextworks, Italy); Muhammad Shuaib Siddiqui (Fundació i2CAT, Internet i Innovació Digital a Catalunya, Spain) • Definition and Evaluation of Latency in 5G with ThC0: CELTIC Event - Session 3 Heterogeneous Use Cases and Architectures Xuan Du (OnApp Limited, United Kingdom (Great Auditorium 2 Britain)); Bessem Sayadi (Nokia Bell-Labs, France); Oscar Carrasco (Casa Systems, Spain); Fotis Agenda: Lazarakis (NCSR Demokritos, Institute of Informatics • Funding and research topics in EUREKA countries & Telecommunications, Greece); Gino Carrozzo • Roundtable with available Public Authorities. (Nextworks, Italy); Muhammad Shuaib Siddiqui Moderator: Valerie Blavette (CELTIC Chair) (Fundació i2CAT, Internet i Innovació Digital a • CELTIC Project Ideas Pitches. Short elevator Catalunya, Spain); Janez Sterle (INTERNET INSTITUTE pitches of innovative project ideas for the next Ltd, Slovenia); Roberto Bruschi (CNIT, Italy) call of CELTIC Cluster. Moderator: Christiane • Enabling the Media Industry with 5G: The Reinsch (CELTIC Office) 5G-MEDIA Pilot Cases

34 Programme Thursday, June 20

Stamatia Rizou (Singular Logic, Greece); Pasquale ThC3: Service Oriented Optimisation Andriani (Engineering Ingegneria Informatica S.p.A) • Experimenting End-to-End Slicing with Public Room 3 Safety Applications Chair: Vlatko Lipovac (University of Dubrovnik, Croatia) Hicham Khalife (Thales Communications & Security, France); Ehsan Ebrahimi Khaleghi (Thales, France); • In-Flight Entertainment and Connectivity in the Begoña Blanco (University of the Basque Country, 5G Era: The 5G ESSENCE Experimental Platform Spain); Olga Segou (ORION Innovations, Greece) Elisenda Temprado Garriga (Safran Electronics & Defense - Triagnosys Gmbh, Germany); Leonardo Goratti (Zodiac Aerospace, Germany); Antonino ThC2: Backhaul and SDR Design Albanese (ITALTEL S. p. A, Italy); Claudio Meani and Pietro Paglierani (ITALTEL, Italy); Olga Room 2 Segou (ORION Innovations, Greece); Emmanouil Chair: Sylvie Mayrargue (CEA-LETI, France) Kafetzakis (Orion Innovations P. C., Greece); Christos Xylouris (Orion Innovations PC, Greece); • Technology for D-band/G-band Ultra Capacity Maria Spada (Wind Tre SpA, Italy) Layer • A Novel Multi-Factored Replacement Algorithm Claudio Paoloni (Lancaster University, United for In-Network Content Caching Kingdom (Great Britain)); Antonio Ramirez (Fibernova Lijun Dong (Huawei, USA); Richard Li (Huawei USA, Systems, Spain); François Magne (WHEN-AB & SARL, USA) France); Marc Marilier (OMMIC, France); Rosa Letizia • Application of Deep Learning Techniques to (Lancaster University, United Kingdom (Great Britain)); Video QoE Prediction in Smartphones Ernesto Limiti (University of Rome Tor Vergata, Italy); Carlos Cárdenas Angelat and Janie Baños Sebastian Boppel (Ferdinand-Braun-Institut, Germany); Polglase (DEKRA, Spain); Cristian Vaca-Rubio Borja Vidal (Universidad Politecnica de Valencia, and Mari Carmen Aguayo-Torres (Universidad de Spain); Quang Trung Le (HF Systems Engineering Malaga, Spain) GmbH & Co. KG, Germany); Ralp Zimmerman (HF • Field Trials for Evaluating Advanced Digital System Engineering, Germany); Viktor Krozer (Goethe Terrestrial MIMO TV Broadcasting System University of Frankfurt am Main, Germany) Takuya Shitomi (Japan Broadcasting Corporation, • D-Band Transport Solution to 5G and Beyond 5G Japan & Universitat Politecnica de Valencia, Cellular Networks Spain); Akihiko Sato, Noriyuki Shirai, Tsuyoshi Mario G L Frecassetti (NOKIA, Italy); Juan F Nakatogawa, Masahiro Okano, Shogo Sevillano and David del Río (CEIT and TECNUN, Kawashima, Tomoya Ijiguchi, Hiroaki Miyasaka Spain); Andrea Mazzanti (University of Pavia, Italy); and Shingo Asakura (Japan Broadcasting Vladimir Ermolov (VTT Technical Research Centre of Corporation, Japan); Tomoaki Takeuchi (Japan Finland) Broadcasting Corporation (NHK), Japan); Madoka • Simple Molecular Absorption Loss Model for Nakamura (Japan Broadcasting Corporation, Japan); 200-450 Gigahertz Frequency Band Kenichi Tsuchida (NHK Science & Technology Joonas Kokkoniemi, Janne Lehtomäki and Markku Research Laboratories, Japan) Juntti (University of Oulu, Finland) • Practical Cross-Layer Testing of HARQ-Induced • RGB Demultiplexer Based on Multicore Polymer Delay Variation on IP/RTP QoS and VoLTE QoE Optical Fiber Adriana Lipovac, Anamaria Bjelopera, Ivan Dror Malka (Holon Institute of Technology & Grbavac, Ines Obradović and Tomo Sjekavica MostlyTek, Israel); Moshe Ran (MostlyTek, Israel); Rami Dadabayev (Holon Institute of Technology, (University of Dubrovnik, Croatia) Israel) • Spatially Combined Wideband Interleaved Transmitter ThC4: Network Security Prasidh Ramabadran (National University of Ireland, Maynooth & SFI CONNECT, Ireland); Room 4 Pavel Afanasyev (National University of Ireland, Chair: Andrea F. Cattoni (Keysight Technologies, Denmark) Maynooth, Ireland); Sara Hesami (Maynooth University, Ireland); Darragh McCarthy (National • Telco Cloud Resilience: Synergies Between Fault University of Ireland, Maynooth, Ireland); Ronan and Security Management Farrell (Maynooth University, Ireland); Bill O’Brien Borislava Gajic (Nokia Bell Labs, Germany); (Nonlinear Systems Limited, Ireland); John Dooley Ruben Trapero Burgos (Atos, Spain); Diomidis S. (National University of Ireland Maynooth, Ireland) Michalopoulos (Nokia Bell Labs, Germany) • Software-Defined Radio Prototype for Fast- • Towards the Detection of Mobile DDoS Attacks Convolution-Based Filtered OFDM in 5G NR in 5G Multi-Tenant Networks Selahattin Gökceli (Tampere University, Finland); Ana Serrano, Zeeshan Pervez, Qi Wang and Jose Toni A Levanen, Juha Yli-Kaakinen and Matias Alcaraz-Calero (University of the West of Scotland, Turunen (Tampere University of Technology, Finland); United Kingdom (Great Britain)) Markus Allén and Taneli Riihonen (Tampere • Secure Location-Aware VM Deployment on the University, Finland); Arto Palin (Nokia Research Edge Through OpenStack and ARM TrustZone Center, Finland); Markku K. Renfors and Mikko Teodora Sechkova, Enrico Barberis and Michele Valkama (Tampere University of Technology, Finland) Paolino (Virtual Open Systems SAS, France)

35 • Applying QKD to Improve Next-Generation Hellas - Information Technologies Institute, Greece); Network Infrastructures Dimitrios Tzovaras (Rochester, Greece) Victor Lopez (Telefonica, Spain); Antonio Pastor • Self-Restoring Video User Experience in 5G and Diego Lopez (Telefonica I+D, Spain); Alejandro Networks Based on a Cognitive Network Aguado Martin (Universidad Politécnica de Madrid, Management Framework Spain); Vicente Martin (Universidad Politecnica de Pablo Salva Garcia (University West Of Scotland, Madrid, Spain) United Kingdom (Great Britain)); Jose Alcaraz- • An Analytical Cross Layer Model for MultipathTCP Calero and Qi Wang (University of the West of (MPTCP) Scotland, United Kingdom (Great Britain)); Maria Garima Mishra (TCS (Research and Innovation), Barros Weiss and Anastasius Gavras (Eurescom India); Samar Shailendra, Hemant Kumar Rath and GmbH, Germany) Arpan Pal (Tata Consultancy Services, India) • A QoE-oriented Cognition-based Management System for 5G Slices: The SliceNet Approach Albert Pagès (Universitat Politècnica de Catalunya ThC5: Industrial Communications (UPC), Spain); Fernando Agraz (Universitat Politècnica de Catalunya, Spain); Salvatore Spadaro Room 5 (Universitat Politecnica de Catalunya (UPC), Chair: Jara Suárez de Puga (Universitat Politècnica de València, Spain); Rafael Montero (Universitat Politècnica Spain) de Catalunya (UPC), Spain); Dean H Lorenz (IBM Research - Haifa, Israel); Kenneth Nagin (IBM • Dynamic Polarimetric Wideband Channel Research, Israel); Rui Pedro, Guilherme Cardoso Sounding in an Elevator Shaft and Pedro Neves (Altice Labs, Portugal); Nuno Pasi Koivumäki, Mikko Heino and Katsuyuki Henriques (Instituto de Telecomunicações, Haneda (Aalto University, Finland); Mikko Puranen Portugal); Xenofon Vasilakos, Nasim Ferdosian and Johanna Pesola (KONE Corporation, Finland) and Navid Nikaein (Eurecom, France); Yosra Ben • Putting 5G into Production: Realizing a Smart Slimen (Orange Labs Belfort, France); Marouen Manufacturing Vertical Scenario Mechtri (Orange Labs, France); Qi Wang (University Stefan Schneider and Manuel Peuster (Paderborn of the West of Scotland, United Kingdom (Great University, Germany); Daniel Behnke and Marcel Britain)); Jose Maria Alcaraz Calero (University Müller (Weidmüller Group, Germany); Patrick- of the West of Scotland & School of Engineering Benjamin Bök (Weidmueller Group, Germany); and Computing, United Kingdom (Great Britain)); Holger Karl (Paderborn University, Germany) Antonio Matencio (University of the West Scotland, • Multi-Robot Cooperative Patrolling Algorithm United Kingdom (Great Britain)); Pablo Salva Garcia with Sharing Multiple Cycles (University West Of Scotland, United Kingdom Youngtaek Hong, Yeosun Kyung and Seong-Lyun (Great Britain)); Enrique Chirivella-Perez and Kim (Yonsei University, Korea) Ricardo Marco Alaez (University of the West of • Achieving Millimeter Precision Distance Scotland, United Kingdom (Great Britain)) Estimation Using Two-Way Ranging in the 60 GHz Band Vladica Sark, Nebojsa Maletic and Marcus Ehrig ThC8: Workshop 8 - Session 1 (IHP, Germany); Jesús Gutiérrez (IHP - Leibniz-Institut für Innovative Mikroelektronik, Germany); Eckhard Room 8 Grass (IHP & Humboldt-University Berlin, Germany) International Workshops on 5G Architectures ThC6: Workshop 7 - Session 1

Room 6 Coffee break 15:30-16:00 Commercial Exhibition Area Artificial Intelligence for 5G Networks

Chair: Anastasius Gavras (Eurescom GmbH, Germany) Thursday, June 20, 16:00 - 17:30

• Bringing Elasticity into 5G: From VNF Operation to AI-based Orchestration ThD0: CELTIC Event - Session 4 Dario Bega (IMDEA Networks, Spain); Marco Gramaglia (Universidad Carlos III de Madrid, Spain); Auditorium 2 Marco Fiore (National Research Council of Italy, Italy); Albert Banchs (Universidad Carlos III de Agenda: Madrid, Spain) • Slice-aware Resource Orchestration of an Elastic • CELTIC Project Ideas Pitches. Short elevator 5G Network via Evolutionary Algorithms pitches of innovative project ideas for the next Asterios Mpatziakas and Stavros Papadopoulos call of CELTIC Cluster. Moderator: Christiane (Centre for Research and Technology Hellas, Greece); Reinsch (CELTIC Office) Sina Khatibi (NOMOR Research GmbH, Germany); • Open networking, bilateral discussions with Anastasios Drosou (Centre for Research & Technology proposers and Public Authorities

36 Programme Thursday, June 20

ThD1: Special Session 4 • Distributed Spatial Modulation Aided NOMA Amir Shehni and Mark F. Flanagan (University Room 1 College Dublin, Ireland) • Quantized Massive MIMO Networks Under 5GPPP ONE5G: Moving 5G towards 5G-advanced Channel Correlation and CSI Mismatch Murat Temiz (University of Manchester, United Organizers: Kingdom (Great Britain)); Emad Alsusa (Manchester University, United Kingdom (Great Britain)); Laith Hans-Peter Mayer (Nokia Bell Labs, Germany) Danoon (University of Manchester, United Kingdom Marie-Helene Hamon (Orange Labs, France) (Great Britain)) Gerhard Wunder (Freie Universität Berlin & Heisenberg • Impact of Polarization Diversity in Massive Communications and Information Theory Group, Germany) MIMO for Industry 4.0 Frédéric Challita (University of Lille & IEMN • Multi-Connectivity Beamforming for Enhanced Lab, France); Pierre Laly and Martine Liénard Reliability and Massive Access Martin Schubert (Huawei Technologies Duesseldorf (University of Lille, France); Emmeric Tanghe and GmbH, Munich Office, Germany); Ronald Boehnke Marwan Yusuf (Ghent University, Belgium); Wout (Huawei European Research Center, Germany); Wen Joseph (Ghent University/IMEC, Belgium); Davy P Xu (Huawei Technologies Duesseldorf GmbH & - Gaillot (University of Lille, France) European Research Center (ERC), Germany) • Downlink Coordinated Beamforming Policies for • Techno-economic Analyses for Vertical Use 5G Millimeter Wave Dense Networks Cases in the 5G Domain Marios Gatzianas (Aristotle University of Thessaloniki Sandrine Destouet Roblot (Orange Labs, France); & International Hellenic University, Greece); Georgios Mythri Hunukumbure (Samsung Electronics, United Kalfas and Christos Vagionas (Aristotle University of Kingdom (Great Britain)); Nadège Varsier (Orange Thessaloniki, Greece); Agapi Mesodiakaki (Aristotle Labs, France); Elena Serna (Telefónica I+D, Spain); University of Thessaloniki (AUTH), Greece) Yu Bao, Serge Langouet, Marie-Helene Hamon and Sebastien Jeux (Orange Labs, France) • ONE5G Prototyping Activities Supporting Vertical ThD3: Radio Access Techniques Scenarios in Megacities and Underserved Areas Evangelos Kosmatos and Christos Ntogkas Room 3 (WINGS ICT Solutions, Greece); Orestis Zekai (WING Chair: Ingrid Moerman (Ghent University - imec, Belgium) ICT Solutions, Greece); Emil Khatib (University of Malaga, Spain); Gilberto Berardinelli (Aalborg • Study of Coexistence Between Different University, Denmark); Sergio Fortes (University of Services in Novel 5G Frequency Bands Málaga, Spain); Eduardo Baena (Universidad de Claudia Carciofi (FUB, Italy); Paolo Grazioso, Málaga, Spain); Carlos Baena and Raquel Barco Valeria Petrini and Francesco Matera (Fondazione (University of Malaga, Spain); Cyril Collineau Ugo Bordoni, Italy) (B-COM, France); Matthias Mehlhose(Fraunhofer • A Device to Device (D2D) Spectrum Sharing Institute for Telecommunications, Heinrich Hertz Scheme for Wireless Industrial Applications Institute, Germany); Daniyal Amir Awan (TU Berlin Idayat Sanusi (University of Greenwich, United & Fraunhofer Heinrich Hertz Institute, Germany); Kingdom (Great Britain)); Karim M. Nasr Martin Kurras (Fraunhofer Heinrich Hertz Institute, (University of Greenwich & University of Surrey, Germany); Andreas Georgakopoulos, Vera United Kingdom (Great Britain)); Klaus Moessner Stavroulaki and Panagiotis Demestichas (University (University of Surrey, United Kingdom (Great of Piraeus, Greece); Hanwen Cao (Huawei German Britain)) Research Center, Germany); Hans-Peter Mayer (Nokia Bell Labs, Germany); Marie-Helene Hamon • A High Performance Low Complexity Muting (Orange Labs, France) Scheme for Interference Coordination Ole Grøndalen and Kashif Mahmood (Telenor, Norway) • A Method to Tailor Broadcasting and ThD2: Modulation and Massive MIMO Multicasting Transmission in 5G New Radio Room 2 Wei Guo (Samsung, United Kingdom (Great Chair: Martine Liénard (University of Lille) Britain)); Belkacem Mouhouche (Samsung Electronics Research and Development UK, United • Achieving Ultra-Reliable Communication via Kingdom (Great Britain)) CRAN-enabled Diversity Schemes • A Hybrid Approach for Data Duplication and Binod Kharel, Onel Luis López, Hirley Alves and Network Coding Matti Latva-aho (University of Oulu, Finland) Jakob Belschner (Deutsche Telekom AG, Germany); • A Non-orthogonal Waveform Design with Diomidis S. Michalopoulos (Nokia Bell Labs, Iterative Detection and Decoding for Germany) Narrowband IoT Applications • Over the Sea UAV Based Communication Sumaila Mahama (University of York, United Kingdom Gianluca Fontanesi (University College Dublin, (Great Britain)); Yahya Jasim Harbi (University of Kufa, Ireland); Hamed Ahmadi (University of Essex, Iraq); Alister G. Burr and David Grace (University of United Kingdom (Great Britain)); Anding Zhu York, United Kingdom (Great Britain)) (University College Dublin, Ireland)

37 ThD4: Edge Computing • Experiments on Shared- And Dedicated- Power over Fiber Scenarios in Multi-core Fibers Room 4 Carmen Vazquez (Universidad Carlos III Madrid, Chair: María Cuevas (BT Group Chief Technology Office, United Spain); David Sanchez Montero (Universidad Kingdom (Great Britain)) Carlos III de Madrid, Spain); Fahad Al-Zubaidi (Universidad Carlos III Madrid, Spain); Juan Dayron • A Dynamic Multi-Resource Management for López-Cardona (UC3M, Spain) Edge Computing • A Traffic Pattern Adaptive Mechanism to I-Hsun Chuang and Sun Rong Chen (National Bound Packet Delay and Delay Variation in 5G Cheng Kung University, Taiwan); Hsiang-Jen Tsai Fronthaul (NCKU, Taiwan); Mong-Fong Horng (National Federico Tonini (Università di Bologna, Italy); Carla Kaohsiung University of Science and Technology Raffaelli (University of Bologna, Italy); Steinar & National Kaohsiung University of Applied Bjornstad (NTNU, Norway); David T Chen (Nokia, Sciences, Taiwan); Yau Hwang Kuo (National USA); Raimena Veisllari (TransPacket AS, Norway) Cheng Kung University, Taiwan) • Active Queue Management as Quality of Service • Energy-Efficient and Reliable MEC Offloading for Enabler for 5G Networks Heterogeneous Industrial IoT Networks Mikel Irazabal (Universitat Politecnica de Che-Wei Hsu, Yung-Lin Hsu and Hung-Yu Wei Catalunya, Spain); Elena Lopez-Aguilera (Technical (National Taiwan University, Taiwan) University of Catalonia (UPC), Spain); Ilker Demirkol • Pushing Services to the Edge Using a Stateful (Universitat Politecnica de Catalunya, Spain) Programmable Dataplane • Signaling Reduction in 5G eV2X Communications Angelo Tulumello (CNIT / University of Rome Tor Based on Vehicle Grouping Vergata, Italy); Giacomo Belocchi (CNIT/University David Martín-Sacristán (Universitat Politècnica of Rome Tor Vergata, Italy); Marco Bonola de València, iTEAM Research Institute); Sandra (University of Rome “Tor Vergata”, Italy); Salvatore Roger (Universitat de València, Computer Science Pontarelli (National Inter-University Consortium Department); David Garcia-Roger and Jose F for Telecommunications (CNIT), Italy); Giuseppe Monserrat (Universitat Politècnica de València, Bianchi (University of Rome “Tor Vergata”, Italy) iTEAM Research Institute); Apostolos Kousaridas, • Co-Operative and Hybrid Replacement Caching Panagiotis Spapis and Chan Zhou (Huawei for Multi-Access Mobile Edge Computing Technologies, German Research Center) Emeka Emmanuel (LSBU, United Kingdom (Great Britain)); Saptarshi Ghosh, Muddesar Iqbal and Tasos Dagiuklas (London South Bank University, ThD6: Workshop 7 - Session 2 United Kingdom (Great Britain)); S Mumtaz (GS-lda, Portugal); Anwer Al-Dulaimi (EXFO Inc., Canada) Room 6 • Multi-path Scheduling with Deep Reinforcement Learning Marc Mollà Roselló (Ericsson Spain, Spain) Artificial Intelligence for 5G Networks

ThD5: Network Optimisation ThD8: Workshop 8 - Session 2

Room 5 Room 8 Chair: Salvador Sales (Universitat Politècnica de València) International Workshops on 5G Architectures • Design and Assessment of Low-Latency Random Access Procedures in 5G Networks Ljupco Jorguseski and Remco Litjens (TNO, The Netherlands); Maria Raftopoulou (KPN, The Netherlands)

38 Friday, June 21

Friday, June 21, 08:30 - 10:30 Politécnica de Cartagena, Spain); Maria Victoria Bueno (UPCT, Spain); Pablo Pavon-Marino (Technical University of Cartagena, Spain) FrA0: 5G-PPP ICT19 • Towards Cross-Layer Optimization of Virtualized Radio Access Networks Behnam Rouzbehani (Instituto Superior Técnico Auditorium 2 & GROW - Group for Research on Wireless, INOV - INESC Inovação, Portugal); Vladimir Marbukh Launching Advanced 5G validation trials across (National Institute of Standards and Technology, multiple vertical industries USA); Kamran Sayrafian(NIST, USA); Luis M. The purpose of this session is to introduce the new ICT 19 Correia (IST/INESC-ID - University of Lisbon & project and discuss their ambitions to validate 5G services INESC, Portugal) with the vertical communities in Europe. • A Fingerprint-based Bloom Filter with DeletionCapabilities The session will conclude with some info on the next steps Minseok Kwon and Vijay Shankar (Rochester to be take in the 5G PPP. Institute of Technology, USA); Salvatore Pontarelli (National Inter-University Consortium for • Introduction EC. Bernard Barani Telecommunications (CNIT), Italy); Pedro Reviriego • Introduction 5G IA. Colin Wilcock (University Carlos III of Madrid, Spain) • 5G!Drones. Jussi Haapola/Pascal Bisson • 5G-HEART. Haesik Kim • 5GROWTH. Carlos Jesús Bernardos Cano FrA2: Fronthaul Design • 5G-SMART. José Monserrat Del Rio • 5G-SOLUTIONS. Andrea Di Giglio Room 2 • 5G-TOURS. Belkacem Mouhouche Chair: Jordi Joan Gimenez (Institut für Rundfunktechnik, • 5G-VICTORI. Jesús Guitierrez Germany) • Full5G. David Kennedy • Q&A. All Speakers • SDN/NFV 5G Fronthaul Networks Integrating • Future of the 5G-PPP. Bernard Barani Analog/Digital RoF, Optical Beamforming, Power over Fiber and Optical SDM Technologies Raul Muñoz (Centre Tecnològic de Telecomunicacions FrA1: Software Defined Networking de Catalunya (CTTC/CERCA), Spain); Josep M. Fabrega (Centre Tecnologic de Telecomunicacions de Catalunya, Room 1 Spain); Marco Capitani (Nextworks, Italy); Simon Chair: Kamran Sayrafian (NIST, USA) Rommel (Eindhoven University of Technology, The Netherlands); Gabriel Otero Pérez (Universidad Carlos • Rule-Based Translation of Application-Level QoS III de Madrid, Spain); Evangelos Grivas (Eulambia, Constraints into SDN Configurations for the IoT Greece); Ricard Vilalta (CTTC/CERCA, Spain); Ramon Jan Seeger (Technical University Munich & Siemens Casellas (Centre Tecnològic de Telecomunicacions AG, Germany); Arne Bröring (Siemens AG, Germany); de Catalunya (CTTC/CERCA), Spain); Laia Nadal Marc-Oliver Pahl (Technical University of Munich, (CTTC, Spain); Ricardo Martinez (Centre Tecnològic Germany); Ermin Sakic (Siemens AG, Germany) de Telecomunicacions de Catalunya (CTTC/CERCA), • Machine Learning-assisted Planning and Spain); Michela Svaluto Moreolo (Centre Tecnològic Provisioning for SDN/NFV-enabled Metropolitan de Telecomunicacions de Catalunya (CTTC), Spain); Networks Giada Landi (Nextworks, Italy); Idelfonso Tafur Monroy Sebastian Troia (Politecnico di Milano, Italy); David (Eindhoven University of Technology, The Netherlands); Eugui Martinez and Ignacio Martín (Universidad Juan Dayron López-Cardona (UC3M, Spain); Carmen Carlos III de Madrid, Spain); Ligia Maria Moreira Vazquez (Universidad Carlos III Madrid, Spain); David Zorello and Guido Maier (Politecnico di Milano, Larrabeiti and David Sanchez Montero (Universidad Italy); José Alberto Hernández (Universidad Carlos Carlos III de Madrid, Spain) III de Madrid, Spain); Oscar González de Dios • A 5G C-RAN Architecture for Hot-Spots: OFDM (Telefonica I+D, Spain); Miquel Garrich, José-Luis Based Analog IFoF PHY and MAC Layer Design Romero-Gázquez and Francisco-Javier Moreno- Charoula Mitsolidou and Christos Vagionas Muro (Universidad Politécnica de Cartagena, (Aristotle University of Thessaloniki, Greece); Agapi Spain); Pablo Pavon-Marino (Technical University Mesodiakaki (Aristotle University of Thessaloniki of Cartagena, Spain); Ramon Casellas (Centre (AUTH), Greece); Pavlos Maniotis and Georgios Tecnològic de Telecomunicacions de Catalunya Kalfas (Aristotle University of Thessaloniki, (CTTC/CERCA), Spain) Greece); Chris Roeloffzen, Paul van Dijk and • Network Optimization as a Service with Net2Plan Ruud Oldenbeuving (LioniX International BV, The Miquel Garrich, César San Nicolás Martínez Netherlands); Amalia N. Miliou and Nikos Pleros and Francisco-Javier Moreno-Muro (Universidad (Aristotle University of Thessaloniki, Greece)

39 • 5G-PICTURE: A Programmable Multi-Tenant 5G FrA4: IoT Communications Compute-RAN-Transport Infrastructure Daniel Camps (i2CAT, Spain); Kostas Katsalis Room 4 (HUAWEI, Germany); Igor Freire (Federal University Chair: Henning Sanneck (Nokia, Germany) of Pará, Brazil); Jesús Gutiérrez(IHP - Leibniz- Institut für Innovative Mikroelektronik, Germany); • Secure Open Federation of IoT Platforms Through Nikos Makris (University of Thessaly & CERTH, Interledger Technologies - The SOFIE Approach Greece); Salvatore Pontarelli (National Inter- Dmitrij Lagutin (Aalto University, Finland); University Consortium for Telecommunications Francesco Bellesini (Emotion s.r.l., Italy); Tommaso (CNIT), Italy); Robert Schmidt (EURECOM, France) Bragatto and Alessio Cavadenti (ASM Terni S.p.A., • Fronthaul Links Based on Analog Radio over Fiber Italy); Vincenzo Croce (Engineering Ingegneria Diego Perez-Galacho, Demetrio Sartiano and Salvador Informatica Spa, Italy); Yki Kortesniemi (Aalto Sales (Universitat Politecnica de Valencia, Spain) University, Finland); Helen C. Leligou and Yannis • Analog Radio-over-Fiber 5G Fronthaul Systems: Oikonomidis (Synelixis Solutions, Greece); George blueSPACE and 5G-PHOS Projects Convergence C. Polyzos (Athens University of Economics and Thiago R Raddo and Simon Rommel (Eindhoven Business, Greece); Giuseppe Raveduto (Engineering University of Technology, The Netherlands); Ingegneria Informatica Spa, Italy); Francesca Christos Vagionas, Georgios Kalfas and Nikos Santori (ASM Terni S.p.A., Italy); Panagiotis Pleros (Aristotle University of Thessaloniki, Greece); Trakadas (Synelixis Solutions Ltd., Greece); Matteo Idelfonso Tafur Monroy (Eindhoven University of Verber (Engineering Ingegneria Informatica S.p.A., Technology, The Netherlands) Italy) • Beyond LoRa and NB-IoT: Proposals for Future LPWA Systems FrA3: New Deployments and Trials Guillaume Vivier (Sequans, France); Lina Mroueh (Institut Supérieur d’Electronique de Paris, France); Room 3 Valérian Mannoni (CEA, France); Vincent Berg Chair: David Martín-Sacristán (Universitat Politècnica de (CEA LETI, France); Francois Dehmas (CEA-Leti València, Spain) Minatec, France); Yi Yu (ISEP, France); Diane Duchemin (University of Lyon, France); Jean-Marie • Comparison of Optimization Methods for Aerial Gorce (INSA-Lyon & CITI, Inria, France); Faouzi Base Station Placement with Users Mobility Bader (CentraleSupélec, France); Julio Manco- Danaisy Prado, Saul Inca, David Martín-Sacristán Vasquez (CentraleSupélec & IETR, France) and Jose F Monserrat (Universitat Politècnica de • Assignment of IoT Nodes to Edge Computing València, iTEAM Research Institute) Devices in Internet of Things • 5G-RANGE Project Field Trial Madhu Perkin and S Mini (National Institute of Alexandre Ferreira and Wheberth Damascena Technology Goa, India) Dias (Inatel, Brazil); Alexandre M Pessoa (Federal • Towards Democratizing E-Health Under University of Ceará - UFC, Brazil); Luciano Leonel Constrained ICT Infrastructure Through ‘A- REaLiST’ Mendes (Inatel, Brazil); Carlos Filipe Moreira e Silva Solution and Bruno Sokal (Federal University of Ceará, Brazil); Abhijan Bhattacharyya (Tata Consultancy Services Tiago Reis Rufino Marins (Telecommunications Ltd., India); Suvrat Agrawal, Hemant Kumar Rath National Institute & Inatel Competence Center, and Arpan Pal (Tata Consultancy Services, India) Brazil); Danilo Gaspar (UNIFEI, Brazil) • WearIoT - Wearable IoT Human Emergency System • Open-source RANs in Practice: An Over-The-Air Miriam Batista, Rodrigo L. Cortesão and Pedro Deployment for 5G MEC Sebastião (ISCTE-IUL, Portugal) Juuso Haavisto, Muhammad Arif and Lauri Lovén (University of Oulu, Finland); Teemu Leppänen (University of Oulu & Center for Ubiquitous Computing, FrA6: Physical Layer Optimisation Finland); Jukka Riekki (University of Oulu, Finland) • Drive Tests-based Evaluation of Macroscopic Room 6 Pathloss Models for Mobile Networks Chair: Jeongchang Kim (Korea Maritime and Ocean Alberto Alvarez Polegre (University Carlos III de University, Korea) Madrid, Spain); Raquel Perez Leal (Universidad Carlos III de Madrid, Spain); Jose Antonio Garcia • Doubly Constrained Underlay Cognitive Radio Garcia (Nokia Spain, Spain); Ana Garcia Armada System: Optimization and Analysis (Universidad Carlos III de Madrid, Spain) Aniruddha Paturkar and Vibhuti Goel (BITS Pilani, • Testbed to Experiment with LTE WiFi Aggregation Rajasthan, India); B. Sainath (BITS Pilani, India) Pedro Merino (University of Malaga, Spain); Ivan • Automatic Modulation Classification in the Gonzalez Muriel (University of Malaga & MORSE Presence of Interference Research Group, Spain); Alvaro Martin (University Pavlos Triantaris (Toshiba Research Europe Ltd., of Màlaga, Spain) United Kingdom (Great Britain)); Evgeny Tsimbalo • Spectrum Coordination for Disaggregated Ultra (Telecommunications Research Laboratory of Dense Heterogeneous 5G Networks Toshiba Research Europe Ltd., United Kingdom Nikos Makris (University of Thessaly & CERTH, Greece); (Great Britain)); Woon Hau Chin (Toshiba Research Panagiotis Karamichailidis, Christos Zarafetas and Europe Limited, United Kingdom (Great Britain)); Thanasis Korakis (University of Thessaly, Greece) Deniz Gündüz (Imperial College London, United

40 Programme Friday, June 21

Kingdom (Great Britain)) • 5G Component Carrier Management Evaluation • Optimal Reserved Resources to Ensure the by Means of System Level Simulations Repetitions in Ultra-Reliable Low-Latency Ioannis-Prodromos Belikaidis, Andreas Communication Uplink Grant-free Transmission Georgakopoulos and Evangelos Kosmatos Trung-Kien Le (EURECOM, France); Umer Salim (WINGS ICT Solutions, Greece); Isabel de la (TCL, France); Florian Kaltenberger (Eurecom, Bandera-Cascales (University of Málaga, Spain); France) David Palacios and Raquel Barco (University • Reference Signal Design for Remote Interference of Malaga, Spain); Panagiotis Demestichas Management in 5G New Radio (University of Piraeus, Greece) Elena Peralta (Tampere University of Technology, • Multi-Numerology Based Resource Allocation Finland); Mikko Mäenpää (Wireless System for Reducing Average Scheduling Latencies for Engineering Finland Ltd., Finland); Toni A Levanen 5G NR Wireless Networks (Tampere University of Technology, Finland); Tanmoy Bag and Sharva Garg (Ilmenau University Youngsoo Yuk (Nokia, Korea); Klaus Pedersen of Technology, Germany); Zubair Shaik (Technische (Nokia - Bell Labs, Denmark); Sari Nielsen (Nokia, Universität Ilmenau, Germany); Andreas Mitschele- Finland); Mikko Valkama (Tampere University of Thiel (Ilmenau University of Technology, Germany) Technology, Finland) • Profit-Based Radio Access Network Slicing for • Two-Tier Cellular Networks: Enhanced Secondary Multi-tenant 5G Networks Node Resource Allocation, Applied to LTE-A Jordi Pérez-Romero (Universitat Politècnica de Diogo Sequeira Martins (University of Lisbon - Catalunya (UPC), Spain); Oriol Sallent, Ramon Instituto Superior Técnico & Vodafone Portugal, Ferrús and Ramon Agustí (Universitat Politècnica Portugal); Luis M. Correia (IST/INESC-ID - de Catalunya, Spain) University of Lisbon & INESC, Portugal); Ahmed Alsohaily and Elvino Silveira Sousa (University of Toronto, Canada) • Ultra-reliable V2X Communication: On the Value Coffee break 10:30-11:00 of User Cooperation in the Sidelink Commercial Exhibition Area Malte Schellmann (Huawei Technologies German Research Center, Germany); Tapisha Soni (Huawei European Research Center & Germany, Germany) Friday, June 21, 11:00 - 12:30 FrA8: Radio Resource Management FrB0: Panel 3 Room 8 Chair: Jordi Pérez-Romero (Universitat Politècnica de Catalunya (UPC), Spain) Auditorium 2

• Elastic Slice-Aware Radio Resource Management Beyond 5G and Artificial Intelligence with AI-Traffic Prediction Sina Khatibi (NOMOR Research GmbH, Germany); Oragniser/Moderator: Alba Jano (Nomor Research GmbH, Germany) Panagiotis Demestichas (University of Piraeus, Greece) • C-RAN Employing xRAN Functional Split: Complexity Analysis for 5G NR Remote Radio Unit Jay Kant Chaudhary and Atul Kumar (Technische Friday, June 21, 12:30 - 13:30 Universität Dresden, Germany); Jens Bartelt (Airrays, Germany); Gerhard P. Fettweis(Technische Universität Dresden, Germany) • Edge Sectors Detection in Mobile Communications FrB0: EuCNC Closing Networks Omar Kaddoura (Ericsson & University of Malaga, Auditorium 2 Spain); Inmaculada Serrano and Juan Sánchez- Sánchez (Ericsson, Spain); Raquel Barco (University Chair: Narcís Cardona (Universitat Politècnica de València) of Malaga, Spain)

Workshops

Workshop 1

Tuesday, June 18 08:30 - 18:00 | Room 6 Empowering Transatlantic Platforms for Advance Wireless Research

Organizers: Motivation and Background: Serge Fdida The European Commission has created the CSA EMPOWER in order to foster the collaboration (Sorbonne University & CNRS, between Europe and USA on Advance Wireless Platforms, which include ICT-17 End-to-End France) 5G platforms and NSF PAWR projects. The overarching aim of EMPOWER is to reinforce the Abhimanyu (Manu) Gosain cooperation between the EU and the US towards establishing a collaborative transatlantic (IEEE SM, USA) community on the new connectivity frontiers beyond 5G with the ambition to accelerate Arturo Azcorra the joint development of the associated advanced wireless platforms. EMPOWER follows (University Carlos III of Madrid, and builds on the recurrent dialogue between the EU and the US regarding collaboration for Spain) Advanced Wireless Platforms as presented in the “Report from the EU/US Future Networks Didier Bourse Workshop”, dated November 11, 2017. (Nokia, France) Antonio de la Oliva EMPOWER targets the creation of a joint EU-US advanced Wireless ecosystem for (i) (University Carlos III of Madrid, bridging the relevant EU-US Wireless communities and stakeholders, such as scientific Spain) researchers, platform engineers, standardization experts, regulators, and product Jaime Garcia-Reinoso incubators; and (ii) developing a strategic EU-US collaboration agenda and supporting its (University Carlos III of Madrid, execution ahead of worldwide competition for beyond 5G connectivity standards, based Spain) on common EU-US roadmaps spanning advances in scientific knowledge, platforms and testbeds, standards and regulations. This workshop objective is to put in contact key persons on Europe and USA to start a track record of collaborations and to discuss posible joint activities and evolution of the wireless platforms at both sides of the Atlantic towards beyond 5G technologies. The workshop will be mainly driven by ICT-17 and NSF PAWR representatives, although projects planning to use the Wireless platforms, such as ICT-19 winning consortiums and projects with already established experience on collaboration with USA such as 5GinFire, will also be invited. Participating Projects: • EMPOWER • PAWR • 5G-VINNI • 5GENESIS • 5G-EVE

44 Agenda: TuA6, Session 1 8:30- 10:30: 1. Opening • Challenges for developing future test platforms to support research in digital infrastructures, Serge Fdida, Sorbonne Université, France • Introduction to PAWR, Abhimanyu Gosain, Technical Program Director of PAWR Office, Northeastern University College of Engineering • The EU/USA collaboration programme by Thyaga Nandagopal, NSF • EU/USA Collaboration, Bernard Barani, European Commission 2. E2E System view Round table focused on exploring E2E system level. The big question would be how to set-up an E2E open reference architecture. This might be a concern of mutual interest for Europe and USA as it goes beyond the wireless specific hardware components and target the issue related to the E2E architecture that should be encountered by most projects. We will discuss among others, the role of Open Source for experimentation, production and infrastructures: • Radio platforms: use of OAI/O-RAN or other platforms for the developing of the RAN in an open reference platform. • Core platforms: possible use of ONF/OMEC or other platforms for the development of the Core part of the open reference platform. • The need of an NFV open framework to provide a relevant test framework and toolset to perform tests.

TuB6, Session 2 11:00- 13:00: 3. Wireless challenges for the future • Talk: Technical Challenges in future Wireless Technologies, the EMPOWER Technology Roadmap by Alain Mourad (IDCC). • Round Table: Representatives of ICT-17, NSF PAWR projects and other stakeholders. Active discussion on the future of the platforms and their technology evolution is expected. 4. ICT-17 Platforms • 5G-EVE: 5G European Validation platform for Extensive trails, Mauro Boldi, Telecom Italia. • 5G-VINNI: An open large scale 5G end-to-end facility for KPI validation and verticals use case piloting, Pål Grønsund • 5GENESIS: An Open 5G Experimental Facility for Testing, KPI Validation and Showcasing,Harilaos Koumaras, NCSR “Demokritos”

TuD6, Session 3 16:15- 18:00: 5. ICT-17/ICT-19 - Dialogue with verticals • Short presentation of 5Growth, 5G-Tours, 5G-Solutions and 5G-HEARTon the vertical scenarios to be addressed and their technological requirements. • The 5GINFIRE Platform: A facility for end-to-end 5G experimentation, Halid Hrasnica, Eurescom GmbH • EuWireless: Design of the European Mobile Network Operator for Research, Pedro Merino, University of Malaga. • Open discussion on how to best address the vertical experimentation and requirements.

45 Workshop 2

Tuesday, June 18 08:30 - 13:00 | Room 8 From Cloud-ready to Cloud-native transformation

Organizer: Motivation and Background: Bessem Sayadi (Nokia Bell-Labs, France) The softwarization of the network is focused on the virtualization, decoupling the HW from the SW to lower the cost of network and service operation and to reduce the time to market for new services while introducing higher flexibility. In addition, virtualization of networking systems offers a multitude of benefits for telecommunication and datacenter operators by decoupling network functions from proprietary hardware as well as decoupling services from propriety service platforms. In the same time, the cloud has disrupted the established order in many sectors. And the reason is simple. With it, companies have been able to reduce the investment in their internal data centers in favor of unlimited computing resources, available on demand and billed for use. From now on, the competitiveness of a company depends directly on its capacity to quickly realize new ideas. Start-ups understand this well, so they rely on native cloud approaches to disrupt traditional sectors. It becomes obvious that innovations should be made cloud-native for being successful where the functions are designed for a cloud environment rather than packaged up and deployed onto it. Cloud-native is an approach to build and run applications that fully exploit the benefits of the cloud computing model. The Cloud-native approach is the way applications are created and deployed, not where they are executed. It includes things like services architectures, infrastructure as a code, automation, continuous integration/delivery pipelines, observability/ monitoring tools, etc A research ecosystem of horizontal and vertical R&D actions is being formed, which examines the transformation from cloud ready to cloud native in the telco world. A carrier- grade enhancement to the Telco cloud native platform is required to provide better-than-IT performance in par or better than what is possible with classical telco platforms. Features like five-nine reliability, stateless microservices, etc should be supported in the Telco cloud native. A fast virtualization and programmability across all networking domains: from core to edge and access, from wired/optical to wireless, cellular and also satellite, is also considered. The workshop is not only about 5G technologies and their implementation - with, for instance, Cloud-RAN, functional split and resource management techniques in 5G - but also about the whole service-based technology relevant to 5G in the cloud-native transformation. A service- based technology, by definition, offers hardware and/or software resources provided as a service over a network. This open workshop aims at reinforcing this European research ecosystem by strengthening the liaison between the participating projects, facilitating the exchange of ideas and helping each research group to take advantage of the results produced by other projects, improving focus of innovation and aligning towards common goals and milestones, thus maximizing the overall impact. The workshop will promote and stimulate the discussion about development of new research directions for building a stronger abstraction layer for the cloud, programmable infrastructure, cognitive management, flexible programmability of 5G networks services, managing application lifecycle in the cloud, etc The workshop is endorsed by the Software Networks Working Group of the 5G-PPP (https://5g-ppp.eu/) and supported by participating projects and partners. The participants will have the opportunity to exchange ideas, share hands-on experience and solutions and discuss research results. The workshop will aim in extending collaborations and paving common exploitation strategies. The structure of the workshop is based on invited presentation of 5G-PPP projects that operate on the same focus area, followed by breakout sessions on particular subjects allowing immediate interaction between the delegates and facilitating the exchange of expertise and best practices in the field. The workshop will invite a Keynote to talk about the cloud transformation in Telco.

46 Participating Projects: • NGPaaS • 5G-TRANSFORMER • 5G-CITY • 5GTANGO • SLICENET • NRG5 • 5G-MEDIA • 5G-PICTURE • MATILDA • 5G-EVE

Agenda: TuA8, Session 1, 08:30-10:30: • Keynote presentation “Cloud Native 5G Virtual Network Functions: Design Principles and Use Cases”, Sofiane Imadali, Orange Labs Networks, 5G-EVE (30min) + Q&A (10min) • Presentation of 5G-PPP Software Network WG White Paper: “Verticals in the Cloud-Native Era” (15min) + Q&A (5min), Bessem Sayadi, Nokia (5G-PPP Software Network WG Chair) • Josep Martrat (ATOS, ES), “Cloud-native Immersive Media pilot deployment using SONATA”, 5G-TANGO • Anastasios Zafeiropoulos (Ubitech, GR), “Cloud native applications design and deployment”, MATILDA • Marius Iordache (Orange, RO), “Cloud-native approach for a 5G use-case implementation based on network slicing” + technical paper “SliceNet Programmable Data Plane Control in 5G Network Slicing”, SLICENET.

TuB8, Session 2, 11:00 - 13:00: • Hadi Razzaghi (UPB, DE), “Kubernetes and OpenStack to support multi-version service chaining”, 5G-PICTURE • Antonello Corsi (ENG, IT), “Progress towards cloud native paradigm for the energy domain services based on VNFs”, NRG5 • David Breitgand (IBM, IL) and David Griffin (UCL, UK), “Cognitive Network Optimization of Cloud-Native Media Applications”, 5G-MEDIA • Thomas Deiss (Nokia, DE), “Cloud native and RAN”, 5G-TRANSFORMER • Ilhem Fajjari (Orange, FR)), “Telco-grade Kubernetes”, NGPaaS • Apostolos Papageorgiou (i2cat, ES), “Slicing-aware service orchestration”, 5G-CITY • Wrap-up and next steps (10 min)

47 Workshop 3

Tuesday, June 18 08:30 - 13:00 | Room 1 Photonic Technologies in 5G and Beyond

Organizers: Motivation and Background: Josep M. Fabrega Future 5G networks will give rise to a wide range of new services addressing the needs of (CTT, Spain) multiple vertical markets (such as connected car, smart-factories, and others). The 5G end- Nikos Passas to-end network infrastructure will have to support extreme requirements in terms of data (Communication rates, latency, reliability, energy efficiency, etc, that need an entire set of new technologies Networks Laboratory to support it. Dept. Of Informatics & Telecommunications University For the evolution toward 5G mobile connectivity, it is envisioned that optical networking of Athens, Greece) and photonics, as an enabling technology, will play a major role in supporting the service and network requirements, while reducing costs through the introduction of novel converged fibre and wireless technologies. One key target for the underlying optical network is to support the distribution and collection of millimetre-wave radio signals, enabling the greatest flexibility for the accommodation of the wireless network requirements, while reducing the cost of the wireless access points (i.e., remote radio heads/antenna units at cell-cites). Moreover, new multi-access edge computing (MEC) will play a significant role of offering new services closer to the end-user. Photonic technologies and devices allow meeting the demanding capacity and latency demands for 5G in ways that scale well to highly densified network deployments with low footprint and energy consumption. This workshop will address the role and relevance of photonic technologies to 5G and any future development in mobile networks. With this workshop we intend to attract expert speakers and audience who will discuss the relevant photonics technology solutions - those developed by 5G-PPP projects, Photonics- PPP projects, and others - and provide a complete coverage of the 5G-related topics for which optical networking and photonics can play a key role. Such topics will include but will not be limited to: optical access network solutions supporting fronthaul, photonics for mm-wave 5G, energy efficiency optimized 5G, converged optical-wireless system solutions, flexible aggregation/Metro networks and network orchestration. Participating Projects: • blueSPACE • IoRL • 5G-PHOS • Metro-Haul • PASSION • 5GCAR • SPOTLIGHT • 5GSTEPFWD

48 Agenda: TuA1, Session 1, 08:30 - 10:30: • Josep M. Fabrega: Workshop opening and presentation • Ricard Vilalta: Network Slicing with NFV/SDN architectures and Multi-Access Edge Computing network orchestration for V2I communications • Massimiliano Maule: Real-time Dynamic Network Slicing for the 5G Radio Access Network • Alessandro Percelsi: Impact of 5G environment on operators optical infrastructures and equipment • Nikos Passas: SPOTLIGHT: Single Point Of aTtachment communications empowered by cLoud computing and bIG data analytics running on-top of massively distributed and loosely-coupled Heterogeneous mobile data neTworks • Andrew Lord: The Impact of the Optical Network on 5G - the Metro-Haul Project • Behnam Shariati: Photonics-supported 5G Test Facilities for Low-Latency Applications • Achim Authenrieth (Director Advanced Technology, ADVA)

TuB1, Session 2, 11:00 - 13:00: • Konstantinos Stavropoulos: FiberG: Fiber everywhere, for 5G and beyond • Juan Pedro Fernandez-Palacios: Cost Efficient 5G Optical Transport Architecture • Giorgio Parladori (Research Program Director, SM-Optics) • Kebede Atra: 25 Gb/s Reflective Electro-Absorption Modulator Monolithically Integrated with Semiconductor Optical Amplifier for Colorless WDM-PON Application • Paul Van Dijk: Vertical integration in SiN based foundry enables new applications • Panel

49 Workshop 4

Tuesday, June 18 08:30 - 13:00 | Room 2 5G in the Era of Connected Cars

Organizers: Motivation and Background: Roberto Riggio Both the telecom and the automotive industries are going through profound transformations (Unit WiN - Wireless and these day. The automotive industry is evolving towards a vision where cars are becoming Networked Systems, Italy) autonomous and wirelessly connected to cooperate with each other for a safer and more François Fischer efficient driving. (ERTICO) Jesús Alonso-Zarate 5G is regarded as the key technology that will empower this transition. For the success of such (CTTC) a revolution, it is necessary that both the telecom and the automotive industry cooperate together to shape the future by addressing all the challenges that connected, cooperative and autonomous mobility (CCAM) brings into the innovation arena. The goal of this workshop is to bring both experts and projects from automotive and the mobile communications industries to discuss on the successful path towards CCAM services with the use of 5G technologies. The challenges and the approaches to reduce the uncertainties of a 5G deployment, in multi-country, multi-operator, multi-vendor, and multi-car-manufacturer scenarios, will be discussed and analysed. The validation via trials and the optimization of 5G technologies for CCAM services are additional topics of the workshop to pave the way for the preparation of commercial deployments. Agenda: TuA2, Session 1, 08:30 - 10:30: • Opening • Keynote: “Making connected cars a reality with 5G,” Maxime Flament (5GAA) • “5GCAR, and the role of 5G in automotive industry,” Mikael Fallgren (Ericsson) • “C-V2X trial activities in 5G-DRIVE,” Tao Chen (VTT) • “CCAM progressed by Internet of Thing,” Francois Fischer (ERTICO) • “5G for Connected and Automated Mobility in the European unioN,” Roberto Riggio (FBK) • “5G-CARMEN and Greta - touching the next frontier in entirely new societal benefits,” Walter Aigner (HiTec) • “5G Cross-Border CCAM in France-Germany-Luxembourg Corridor,” Jesus Alonso- Zarate (CTTC)

TuB2, Session 2, 11:00 - 13:00: • “5GCroCo Tests and Trials: User Stories and 5G Technologies,” Dirk Hetzer (DTAG) • “5G enabled CCAM at Greece - Turkey x-border corridor,” Panagiotis Demestichas (WINGS-ICT) • “5G enabled CCAM at Spain-Portugal x-border corridor,” José Santa (University of Murcia) • “A Timeline for C-V2X,” Luigi Ardito (QUALCOMM) • Panel. Moderator: Toktam Mahmoodi (King’s College London, UK). Panelists: – Maxime Flament (5GAA) – Tao Chen (VTT) – Mikael Fallgren (Ericsson) – Walter Aigner (HiTec)

50 Workshop 5

Wednesday, June 19 14:00 - 17:30 | Room 6 Emerging 5G Business Models: Opportunities for SMEs and large companies-lesson from 5G PPP (5G-EBM)

Organizers: Motivation and Background: Jacques Magen The imminent arrival of 5G will bring disruption in business models for incumbent operators (Interinnov, France) and verticals alike. While opportunities will surely arise for large, well-positioned market Stephanie Parker participants, the real winners may well be those SMEs who have mastered the key technologies (Trust-IT, UK) and services enabling the new business models emerging from the inevitable disruption not only in the telecommunications ecosystem but also in the vertical sectors making use of 5G including automotive, manufacturing, health, energy, and others. This interactive workshop will explore the new playing field that is emerging with the advent of 5G, and the opportunities for SMEs to be at the leading edge. Key practical outcomes include ensuring exploitation potential for 5G PPP phase 2 and Phase 3 projects and concrete innovation opportunities for SMEs. Agenda: WeC6, Session 1, 14:00 - 15:30: • Opening • Keynotes from industry - market opportunities for SMEs • SMEs in the Spotlight - Lightning talks with Q&A on taking 5G innovations to market – Nicola Ciulli (Nextworks), “5G new opportunities for verticals and technology providers: an SME viewpoint” – Aitor Zabala (Telcaria), “Enabling new SME business models by leveraging novel federation and zero-touch technologies, through network softwarization in 5G CORAL” – Maurizio Cecchi (PIIU), “Prizes for SMEs: Call of Ideas on how to exploit 5GPPP trials facilities” – Azcom – Krzysztof Rocki (MIRANTIS) – Panagiotis Demestichas (WINGS) – Theodoras Rokkas (inCITES), “Call for SMEs” – Pierre Boucher (Innovation ENCQOR), “Opportunities for SMEs in the ENCQOR Canadian initiative”

WeD6, Session 2, 16:00 - 17:30: 4. Panel Discussion: “Large meets Small” 5. Business Models across Verticals • Darko Ratkaj (European Broadcasting Union) • Simon Fletcher (Real Wireless), “Techno-economics for 5G solutions” • Asma Chiha Ep Harbi (UGENT), “Cutting across Verticals - New business models for non-terrestrial networks” • Ioannis Neokosmidis (inCITES), “Business Models for Neutral Hosts • Valerio Frascolla (Intel), “Merging MEC and mmWave in 5G & beyond use cases” 6. Wrap-up and Next Steps

51 Workshop 6

Wednesday, June 19 14:00 - 17:30 | Room 8 European and Taiwanese Cooperation on 5G

Organizers: Motivation and Background: Woon Hau Chin The workshop is jointly organized by the Clear5G and 5G Coral projects who committed (Toshiba Research Europe to driving industry adoption of 5G by promoting and nurturing research in applications of Limited, UK) 5G communications. Both projects represent the coordination between the EC and Taiwan Antonio de la Oliva governments on 5G development. The motivation of the workshop will be to bring together (University Carlos III of Madrid, experts from both Europe and Taiwan on 5G to discuss the results of this cooperation and Spain) discuss possible mechanisms to improve the cooperation, by analyzing the results of the Klaus Moessner Phase I projects. (University of Surrey, UK) Michelle Tsai This is also a platform for participants to understand how 5G is evolving and developing (5G Office, Taiwan) outside of the EU. The workshop targets 5G as a pathfinder for future actions by pursuing the following goals: • Discuss progress and priorities with participating projects. • Ensure industry views are represented, also beyond 5G PPP. • Engage in a multi-stakeholder dialogue aimed at facilitating contributions to the standards process. Agenda: WeC8, Session 1, 14:00 - 15:30: • Keynote 1: “5G: Are We Ready?,” Lifung Chang (5G Office, Taiwan) • Keynote 2: “European Research Beyond 5G,” Bernard Barani (DG-Connect, EC) • Clear5G, Klaus Moessner (University of Surrey) • 5G Coral & 5G-DIVE, Antonio de la Oliva (University of Madrid)

WeD8, Session 2, 16:00 - 17:30: • “5G-CONNI: 5G Private Networks for Connected Industries,” Wilhelm Keusgen (Fraunhofer HHI) • “5G R&D in Factory of the Future,” Hung-Yun Hsieh (NTU, Taiwan) • “Distributed EFS AR navigation/advertisement scenario in Taipei Main Train Station and Nan-Kang Train Station,” Tonny Yang (ITRI) • Panel: Impact of 5G on Society. European and Asian views – Moderator: Woon Hau Chin (Toshiba Research Europe) – Lifung Chang (5G Office, Taiwan) – Klaus Moessner (University of Surrey) – Antonio de La Oliva (University of Madrid) – Wilhelm Keusgen (Fraunhofer HHI) – Tonny Yang (ITRI)

52 Workshop 7

Thursday, June 20 14:00 - 17:30 | Room 6 Artificial Intelligence for 5G Networks

Organizers: Motivation and Background: David M. Gutierrez The use of AI for network operation and management is known to have great potential to Estevez enhance the network performance and efficiency, therefore has received significant interest in (Samsung R&D Institute UK) both research and industry standardization groups. Prominent industry standard groups, such Yue Wang as ETSI ISG ENI and ZSM, and 3GPP SA2 and SA5, have made great efforts to build industry (Samsung Electronics, UK) consensus on network architecture and interfaces to enable the use of AI in the network. Anastasius Gavras However, the standardization on AI in network management and orchestration is just at its (Eurescom GmbH, Germany) beginning. Open questions on AI for network management need joint efforts from different Jose M. Alcaraz Calero standardization groups, as well as between the research and industry standardization groups. (University of the West of Scotland, UK) Likewise, the topic is having a big impact in the research communities, and 5G-PPP projects are also part of this trend. In this workshop, 5G-MoNArch will showcase recent results on the employment of AI to achieve resource elasticity, i.e., an efficient and autonomous utilization of computational resources in the network, by enhancing the design of VNFs and their scaling mechanisms. In SliceNet, AI is investigated to achieve cognitive network management to improve both operation experience for network operators and quality of experience for vertical users, especially in the context of network slicing. However, traditionally it has been difficult for research and innovation projects to make significant impact on standards in a timely manner. The workshop aims to bridge the gap between research and standards on AI for network management and orchestration. It will bring together researchers and industry experts, and stimulate debate and discussions on what are the significant problems to resolve to fully explore the potential of AI in networks, and how the relevant results provided by 5GPPP projects can be leveraged, therefore maximize their impacts to standards. Agenda: ThC6, Session 1, 14:00 - 15:30: Chair: Anastasius Gavras (Eurescom GmbH, Germany) • Keynote. Hans Schotten (DFKI & University of Kaiserslautern) • 5G-PPP Research Activities

ThD6, Session 2, 16:00 - 17:30: Chair: David M Gutiérrez-Estevez (Samsung Electronics, United Kingdom (Great Britain)) • Standardisation Activities – Ray Forbes (ETSI ENI Chairman, Huawei) – Diego Lopez (ETSI ZSM, Telefonica) – Alessandro Trogolo (3GPP SA5, Telecom Italia) – Slawomir Stanczak (ITU-T FG-ML5G Chairman, Fraunhofer HHI) • Panel discussion

53 Workshop 8

Thursday, June 20 14:00 - 17:30 | Room 8 International Workshops on 5G Architectures

Organizers: Motivation and Background: Simone Redana 5G is the first generation of mobile networks that is by design addressing the wide range of (Nokia Bell Labs, Germany) needs of the vertical industries. 5G offers unlimited mobile broadband experience, provides Ömer Bulakci massive connectivity for everything from human-held smart devices to sensors and machines, (Huawei GRC, Germany) and most importantly, it has the ability to support critical machine communications with instant action and ultra-high reliability. First 5G specifications are available with 3GPP Rel.15, however further enhancements and optimizations are needed to design a 5G System that meets the requirements from the vertical industries. 5GPPP Architecture Working Group was launched during the Phase 1 of the 5GPPP Initiative with the result of publishing two White Papers on 5G Architecture in June 2016 (v1.0) and January 2018 (v2.0). The work is now continuing with the 5GPPP Phase 2 and Phase 3 with special focus on understanding the requirements from vertical industries involved in the projects and then driving the required enhancements of the 5G Architecture able to meet their requirements. The results of the Working Group are captured in a White Paper v3.0 to be released at EuCNC 2019 in June 2019. In this Workshop, we will present the findings and analyses of the 5GPPP Phase 2 projects and early findings of 5GPPP Phase 3 projects within the white paper framework. While the standard implications on the ongoing specifications, e.g. in 3GPP Rel.16 and ETSI, are highlighted, various achievements presented in the White Paper are also expected to impact 3GPP Rel.17 and beyond Study Items and Work Items. Thus, the timeline matches perfectly as the discussion in 3GPP is going to start mid of 2019. Agenda: ThC8, Session 1, 14:00 - 15:30: • Welcome & Overall White Paper introduction. Simone Redana (Nokia Bell Labs) and Ömer Bulakci (Huawei GRC) • Chapter 3 - Radio & Edge Architecture. Ömer Bulakci (Huawei GRC) • Chapter 4 - Core & Transport Architecture. David Navratil (Nokia Bell Labs) and Jesus Gutierrez Teran (IHP) • Chapter 5 - Management & Orchestration Architecture. Xi Li (NEC laboratories Europe) • Chapter 6 - Deployment & Analyses. Anastasius Gavras (Eurescom) • Chapter 2 - Overall Architecture. Marco Gramaglia (UC3M)

ThD8, Session 2, 16:00 - 17:30: • Chapter 7 - Standardization Impact. Edward Mutafungwa (Aalto) • Panel discussion – Moderator: Simone Redana (Nokia Bell Labs) – Ömer Bulakci (Huawei GRC) – David Navratil (Nokia Bell Labs) – Jesus Gutierrez Teran (IHP) – Xi Li (NEC laboratories Europe) – Anastasius Gavras (Eurescom) – Marco Gramaglia (UC3M) – Edward Mutafungwa (Aalto) • Closing remarks

54 55 Tutorials

Tutorial 1

Tuesday, June 18 8:30 - 13:00 | Room 3 Blockchain technology and smart contracts in 5G and beyond networks

Speakers: Blockchain is a revolutionary technology which has found its way to several domains outside of finance Hamed Ahmadi industry. The venture capitalist and software developer Marc Andreesen considers blockchain to be Irene Macaluso as important and revolutionary as the Internet. It is therefore reasonable to expect that aspects of Marco Ruffini this technology have the potential to underpin concepts, frameworks, regulations, and economics in Nima Afraz the world of mobile communication and networking. Blockchain has numerous applications in these areas and will play a significant role in 5G and beyond networks. By enabling automatic and trusted transactions, smart contracts facilitate infrastructure and spectrum sharing among infrastructure providers, service providers, and virtual network operators. Blockchain also creates new business models for ephemeral networks and/or operator partnerships for better coverage and service. In a step forward, mobile operators can offer “Blockchain-as-a-service” ecosystem for content providers who could store their offerings throughout the mobile network and use the blockchain infrastructure for access control and monetization. In IoT networks blockchain can be applied to enhance privacy and security, data and identity management, and monetization of the service. Since the first comm’s related blockchain workshop in IEEE DySPAN2017, there has been a raise in the number of blockchain related publications in communication society, and there has been at least four workshops on this topic in major conferences which are showing the significant interest in this topic among members of communication society. This tutorial will provide an introduction to blockchain technology and smart contracts to EUCNC participants. We will review its applications communication, networking and IoT in the first half of the tutorial. In the second half we will demonstrate hands-on Blockchain/smart contract programming which will be a unique opportunity especially for early career researchers and making our tutorial different from conventional conference tutorials.

56 Tutorial 2

Tuesday, June 18 14:00 - 18:00 | Room 4 When Clouds meet 6G: the academic, industrial and standard perspective

Speakers: In 2020 the 5G Networks are expected to be operational and a global game changer from a Emilio Calvanese technological, economic, societal and environmental perspective with very aggressive promised Strinati and performance in terms of latency, reliability, energy efficiency, wireless broadband capacity, Vincenzo Sciancalepore elasticity, and so on. Nevertheless, experts claim that the next big step for cellular (and, generally speaking, wireless) networks is not the 5G realization but its next cloudification. Virtualization and cloudification (or commonly dubbed as cloud computing) are often used interchangeably but they represent different concepts while involving a number of different technical challenges. Virtualization was introduced to consolidate physical servers running heterogeneous applications onto fewer (computing nodes) servers by placing the applications on so-called virtual machines (VMs) in a “hypervised” environment. This was the incipit for the Network Function Virtualization (NFV) paradigm to find a solid basis in communication networks supported by industry initiatives that aimed at saving CAPEX and OPEX while still claiming deployment flexibility and service agility. This brought up in the last years the network slicing concept that has completely revolutionized the networking perspective by abstracting and separating logical network behaviours from the underlying physical network resources thereby significantly impacting on the reduction of the operations expenditures which, in turn, drives the network operators to foster the programmability and automation of network facilities as well as to enable the evolution of a wider range of business services. Conversely, Cloud computing refers to the delivery of shared on-demand computing resources through the public cloud (e.g., internet) or enterprise private cloud networks. This calls into question the need of cloudification, which translates into i) deploying communications software that has been rewritten and specifically designed for cloud environments, ii) enabling (low-latency) communication paths between cloud environments and iii) adding more flexibility and dynamicity (high reactiveness) on the orchestration process to successfully deliver agile services. This tutorial focuses on the evolutionary flow of the network virtualization concept through several standard definition activities in the last decade. In particular, we shed light on the Network Function Virtualization pillars and the main difference with the upcoming cloudification phenomena of 5G-andbeyond networks. We analyse the state-of-the-art solutions proposed to realize the first example of cloudification, highlighting the main limitations of the current solutions and the real potentiality of advanced upcoming approaches. We present the interdependencies between 5G KPIs, 5G key enabling technologies and the three levels of cloud: Fog, Mobile Edge Cloud and the Central Cloud. In particular, for the Mobile Edge Cloud, we also provide the audience with a solid background and comprehensive description of the last 5 / 12 achievements of the ETSI MEC ISG group in terms of cloud computing features and interface descriptions. Finally, we point out the future research directions to embrace new open-source function/resource allocation procedures highlighting the viewpoint of few up-and-running H2020 projects.

57 Tutorial 3

Tuesday, June 18 14:00 - 18:00 | Room 3 Machine Learning for Artificially IntelligentW ireless Networks: Challenges and Opportunities

Speakers: Next-generation wireless networks must support ultra-reliable, low-latency communication and Walid Saad intelligently manage a massive number of Internet of Things (IoT) devices in real- time, within a highly dynamic environment. This need for stringent communication quality-of-service (QoS) requirements as well as mobile edge and core intelligence can only be realized by integrating fundamental notions of artificial intelligence (AI) and machine learning across the wireless infrastructure and end-user devices. AI will play major roles in next-generation wireless networks ranging from data analytics to AI-powered self-organizing networks. To this end, the goal of this tutorial is to provide a holistic on the topic of machine learning for AI-powered wireless networks. In particular, we will first provide a comprehensive treatment of the fundamentals of machine learning and artificial neural networks, which are one of the most important pillars of machine learning. Then, we introduce a classification of the various types of neural networks that include feed-forward neural networks, recurrent neural networks, spiking neural networks, and deep neural networks. For each type, we provide an introduction on their basic components, their training processes, and their wireless use cases. Then, we overview a broad range of wireless applications that can make use of neural network designs. This range of applications includes ultra-reliable low latency communications (URLLC), wireless virtual reality, mobile edge caching, drone- based communications, Internet of Things, and vehicular networks. For each application, we first outline the main rationale for applying machine learning while pinpointing illustrative scenarios. Then, we overview the challenges and opportunities brought forward by the use of neural networks in the specific wireless application. We complement this overview with a detailed example drawn from the state-of-the-art. Finally, we conclude by shedding light on the potential future works within each specific area and within the overall area of AI for wireless networks.

58 Tutorial 4

Tuesday, June 18 8:30 - 13:00 | Room 4 Behind Wi-Fi’s success story: Fundamentals, deciphering 802.11ax, and roadmap towards the next generation

Speakers: Wireless-Fidelity (Wi-Fi) is among the greatest success stories of this new technology era, and its David Lopez-Perez societal benefits are known to most of the world population. Since Wi-Fi has become an essential Adrian Garcia-Rodriguez part of the home, and a key complementary technology for both enterprise and carrier networks, Lorenzo Galati Giordano its importance is expected to continue growing beyond 2023, as the newly defined generation of more capable Wi-Fi products -Wi-Fi 6, based on the most recent Institute of Electric and Electronic Engineers (IEEE) 802.11ax specification- becomes widely available. The requirements of wireless data services, however, will continue to increase in many scenarios such as homes, enterprises and hotspots, beyond the capabilities of Wi-Fi 6. To meet such expectations, the Wi-Fi community is aiming high and has already initiated discussions on new IEEE 802.11 technical features for bands between 1 and 7.125 GHz. The creation and standardisation of the next generation of Wi- Fi technology beyond IEEE 802.11ax-referred to as Extremely High Throughput (EHT)-targets to increase peak throughput and ensure that Wi-Fi meets the requirements set by incoming applications, thereby maintaining-or even augmenting-its appeal to consumers. The scope of the proposed tutorial is to provide the research community with 1. a self-contained overview of Wi-Fi’s fundamentals, 2. a survey of the main technical features defined by the new 802.11ax standard, and 3. fresh updates on the most recent outcomes and directions related to the next generation of Wi-Fi technology beyond 802.11ax directly from the IEEE 802.11 EHT standardization meetings. EuCNC is the perfect occasion to provide a digestible summary about Wi-Fi’s current technology status and prospective, since the first 802.11ax-compatible products are just reaching the market and the specific objectives and features of EHT are currently being shaped.

15 - 18 June 2020

www.eucnc.eu ANNOUNCEMENT

Steering Committee Chairs EuCNC 2020 is the 29th edition of a successful series of a conference Luis M. Correia, IST - U. Lisbon, PT Bernard Barani, E.C., BE in telecommunications, sponsored by the IEEE Communications Technical Program Co-Chairs Society (ComSoc) and the European Association for Signal Processing Vlatko Lipovac, U. Dubrovnik, HR (EURASIP), and supported by the European Commission. The Filipe Cardoso, I.Poly. Setúbal, PT Track Co-Chairs conference focuses on various aspects of 5G communications systems PHY - Physical Layer and Fundamentals and networks, including cloud and virtualisation solutions, Marko Beko, U. Lusófona, PT Adriana Lipovac, U. Dubrovnik, HR management technologies, and vertical application areas, and looking Saul Torrico, George Washington U., USA already into Beyond 5G matters. It targets to bring together RAS – Radio Access and Softwarisation researchers from all over the world to present the latest research Guillaume Villemaud, U. Lyon, FR Athanasios Kanatas, U. Piraeus, GR results, and it is one of the main venues for demonstrating the results Prabhat K. Upadhyay, IIT Indore, IN of research projects, especially from R&D programmes co-financed by WOS – Wireless, Optical and Satellite Netw. the European Commission. Silvia Ruiz-Boque, UPC, ES Pamela Njemcevic, U. Sarajevo, BA Suresh Subramaniam, George Washington U.,USA The conference program will include: NET – Network Softwarisation Toktam Mahmoodi, King's College, UK • Keynotes Dinko Begusic, U. Split, HR • Panels Seong-Lyun Kim, Yonsei U., KR VAP – Vertical Applications and IoT • Regular oral sessions (papers from open call, to be submitted for Luis Muñoz, U. Cantabria, ES uploading to IEEE Xplore) Ralf Tönjes, U. Osnabrück, DE • Special sessions, with papers on specific topics Sumei Sun, IIR, SG OPE – Operational & Experimental Insights • Workshops, with papers and presentations on specific topics Emilio Calvanese-Strinati, CEA-LETI, FR • Poster sessions (papers from open call addressing latest results) Dario Sabella, Intel, DE • Tutorials Kei Sakaguchi, TIT, JP Panels Co-Chairs • Demos and exhibitions, with pitches. Pavlos Fournogerakis, E.C., BE Per Lehne, Telenor, NO Key dates: Special Sessions Co-Chairs Alain Sibille, IT, FR 07 Feb. 2020 – Deadline for submission of papers for regular oral Conor Brenan, Dublin City U., IE sessions Shahrokh Valaee, U. Toronto, CA 07 Feb. 2020 – Deadline for submission of proposals for workshops, Workshops Co-Chairs Janos Bito, BUTE, HU special sessions, and tutorials Mario Milicevic, U. Dubrovnik, HR 13 Mar. 2020 – Deadline for submission of extended abstracts for Anna Tzanakaki, U. Bristol, UK posters Tutorials Co-Chairs 20 Mar. 2020 – Notification of acceptance of workshops, special Vittorio Degli-Esposti, U. Bologna, IT Jose Molina, U. Cartagena, ES sessions, and tutorials Krunoslav Zubrinic, U. Dubrovnik, HR 03 Apr. 2020 – Deadline for submission of proposals for exhibitions Exhibitions Co-Chairs 10 Apr. 2020 – Notification of acceptance of papers and extended Jorge Pereira, E.C., BE abstracts Anamaria Bjelopera, U. Dubrovnik, HR IEEE ComSoc Liaison 24 Apr. 2020 – Deadline for final papers for all sessions and Hikmet Sari, NUPT, CN workshops EURASIP Liaison 24 Apr. 2020 – Deadline for authors registration Björn Ottersten, U. Luxembourg, LU/KTH, SE 08 May 2020 – Draft program available COST Liaison Ralph Stübner, COST, BE

Exhibition 66

65 70 64

63 69 68

Map rEa

a G 67 d orkin L nEtw aL 59 H 60 BEYon 61 5G 62

56 57

TO C

54 55

52 53

room

auditorium

SPAIN),

(

39 38

auditorium 1 37

ation r

aL 31 A EGist r irtu V caVE 34 S AFETERI S C 33 12 TO S ACCE

30 BUFFET 10 AREA 25 13 29 4 24 6 26 32 9 28 3 23 7 27 22 20 2 8 21 19 CE 15 14

ENTRAN 17 1 18

Et f

uf B H c n

64 Exhibition and Demos

ARCHITECTURE BEYOND 5G CELTIC COMMERCIAL 39 MATILDA 60 B5G 46 5G PERFECTA/MONALIS 21 Nokia Bell Labs 40 5G-TRANSFORMER 61 5G-RANGE 47 FRONT-VL 22 Casa Systems and 5G-CORAL 41 ONE5G 62 SEMIoTICS 48 E3 23 National Instruments 42 5G-PICTURE 63 5G-PHOS and blueS- 49 VIRTUOSE 24 Spirent Communications PACE 43 METRO-HAUL 64 EPIC 50 Health^5G 25 Ellipz Smart Solutions 44 SliceNet 65 5G-MiEdge 51 H-OPTO/FU5ION 26 Axión 66 IoRL 52 ReICOvAir 27 Rohde & Schwarz 53 RELIANCE 35 ZTE 54 WINS@HI 37 Orange 55 UNICRINF 56 INTERNET INSTITUTE Ltd. 57 CRITISEC

INSTITUTIONAL MULTIMEDIA VEHICULAR VERTICAL 04 EuCNC 2020 01 5G-Xcast 32 Cross Border Corridors 15 EuWireless & 5Genesis 14 RTVE 02 5G-MoNArch 33 5G-DRIVE 16 5G-VINNI and 5GINFIRE 17 iTEAM 03 A-WEAR EJD 34 5GCAR 18 NRG-5 28 COST 06 5G-MEDIA 19 Clear5G 29 EMPOWER-PAWR 07 5G ESSENCE 20 NGPaaS 30 5GMF 08 5GTANGO 31 5GPPP 09 5GCity 31 5GPPP SME 10 5G EVE 36 UPV 12 SaT5G 67 Nonwatio C2S3h 13 PriMO-5G 68 CASFID 69 ABREBOX 70 Tyris Software

65 BOOTH # 1 5G-Xcast (Broadcast and Multicast Communication Enablers For the Fifth Generation of Wireless Systems)

5G-Xcast is the first 5G PPP project to focus on the holistic implementation of multicast/broadcast as a key technology element in 5G systems in addition and as a complement to unicast. 5G-Xcast technologies are fundamental to progress towards a converged 5G infrastructure for fixed and mobile accesses, including terrestrial broadcast. The project takes a holistic approach to harmonize the media delivery among the three considered types of networks and to provide an optimised and seamless media user experience. Five demonstrations are developed: • “Converged, autonomous MooD in fixed/mobile networks” shows content prepared for unicast distribution being distributed over both fixed and mobile networks with dynamic switching between multicast/broadcast and unicast delivery as the audience size changes. The live and unmodified BT Sport commercial service is integrated using the 5G-Xcast content distribution framework. • “Forecaster5G: Object-based broadcasting”. Content is produced as a set of discrete media objects to be rendered by the end device. Common objects are transmitted using the Dynamic Adaptive Streaming over IP Multicast (DASM) system while personalised content is received via unicast. • “Multimedia Public Warning” uses dynamic spectrum management to send public warning multimedia alerts to the user equipment. • “Reliable Multicast Delivery in 5G Networks” shows the benefits of using multicast for delivering popular content regarding resource consumption, spectrum efficiency, QoE while highlighting the effects of using application-layer methods, such as DASH streaming and multilink delivery. • “Hybrid Broadcast Service with Multi-Link” shows the benefits of splitting and combining content from different networks via LTE and Wi-Fi interfaces, with a seamless switch between them and the ability to increase aggregated throughput via Multi-Link. BOOTH # 2 5G-MoNArch

The envisaged diversity of services, use cases, and applications to be supported by 5G requires a flexible, adaptable, and programmable mobile network architecture. 5G-PPP Phase 1 projects addressed the baseline design of such an architecture at a conceptual level. In particular, the concept of network slicing, which builds on the capabilities of SDN, network function virtualisation (NFV), access network orchestration, and analytics, allows to logically sectorise the network for dedicated services, applications, or vertical industries. Each of these sectors may have different requirements in terms of quality and performance requirements, but multiple slices share the same physical and virtualised infrastructure. The goal of 5G-MoNArch as a Phase 2 project is thus to bring this architecture design to practice through two innovative testbeds: the Hamburg Smart Sea Port and Turin Touristic City. The Smart Sea Port thereby represents an industrial environment where the focus is on highly resilient and secure communication for applications such as logistics traffic control through a connected traffic light, environmental pollution control through ship-based mobile sensors, and a CCTV installation for access gate super-vision. For the Touristic City, representing a typical use case for future (multi-)media and entertainment services, mobile broadband services including high-definition video streaming and interactive augmented reality applications will be implemented, that allow visitors of the Palazzo Madama museum in Turin a completely new experience. Both testbeds use on-site mobile network and mobile terminal installations implementing network slicing-enabled protocol stacks. BOOTH # 3 A-WEAR EJD - A network for dynamic wearable applications with privacy constraints

A-WEAR is a four year European Joint Doctorate bringing together five beneficiaries and 12 A-WEAR partner organizations from Finland, Czech republic, Italy, Romania, and Spain, with the aimof educating, supervising, and training 15 young ambitious and creative researchers to facethe future challenges in smart wearables, wireless communications & computing and enhance their career prospects in a multi-sector cross-country environment. The market of wearables is expected to grow exponentially and the future wearables are likely to be heterogeneous. They will co-operate in a decentralized manner and will be able to reach various interconnected software and applications. Motivated by the opportunities that next-generation wearable intelligence is expected to provide, the mission of A-WEAR is to cross-disciplinarily create new architectures, open-source software and frameworks for dynamic wearable ecosystems, including communications, with distributed localization and privacy constraints. A-WEAR is funded by the European Union’s Horizon 2020 throught the Marie Sklodowska-Curie Innovative Training Networks call, under the Grant Agreement no 813278.

66 Exhibition and Demos

BOOTH # 4 EuCNC 2020

EuCNC 2020 is the 29th edition of a successful series of a conference in telecommunications, sponsored by the IEEE Communications Society (ComSoc) and the European Association for Signal Processing (EURASIP), and supported by the European Commission. The conference focuses on various aspects of 5G communications systems and networks, including cloud and virtualisation solutions, management technologies, and vertical application areas, and looking already into Beyond 5G matters. It targets to bring together researchers from all over the world to present the latest research results, and it is one of the main venues for demonstrating the results of research projects, especially from R&D programmes co-financed by the European Commission.

BOOTH # 6 5G-MEDIA - Dynamic 5G Network Capabilities to Boost the Media Industry

5G-MEDIA is an Innovation Project seeking to boost applications in the Media Industry by exploiting disruptive 5G network capabilities. The objectives are: • To enhance the Quality of User Experience while optimizing the resources required from the 5G network. Apply Software and Network Virtualization principles to the design and operation of highly demanding media services. • To hide the complexity of managing the full lifecycle of media applications. Make available a DevOps Toolbox to create and deploy media applications on underlying 5G infrastructure. • To validate the outcomes in real-case scenarios crucial to the multimedia industry. Address the requirements posed by key use cases through the capabilities provided by the project. 5G-MEDIA capitalizes and extends the outcomes and insights from the 5G PPP flagship. The initiative sets out an ambitious business impact introducing the concept of Streaming- as-a- Service. Unleash capabilities to transmit high-quality video ANYWHERE, consume content ANYTIME and adapt the quality to ANY DEVICE. Leverage Open Innovation. The 5G-MEDIA platform and network services are based on open source technology and will be available to third parties. BOOTH # 7 5G ESSENCE (Embedded Network Services for 5G Experiences)

5G ESSENCE fuels the drivers and removes the barriers in the fast growing Small Cell (SC) market 5G by using Edge Cloud computing and Small Cell-as-a-Service. It provides a highly flexible/scalable platform, to support new business models. ESSENCE Three demos showcase the system: • 5G Edge network broadcasting services for a stadium: leveraging the benefits ofSC virtualisation and radio resource abstraction and optimising network embedded cloud, it is possible to ease the coverage and capacity pressure on the multimedia infrastructure and increase security (content remains local). • Enhanced Video Services at the Edge DC: An application leverages the Multi-Access Edge Computing platform hosted in the Edge DC, which provides a virtualized layer and allows the high processing of content at the network edge. It offers video transcoding capability and Context-Aware and Location-Aware mechanisms, enabling launching of new services. • Real Time Transcoding & Video Content Delivery at the Edge DC: A low-weight adaptation of our platform for the next generation of In-Flight Entertainment and Connectivity to multicast over Wi-Fi, slice the RAN and transcode/stream on-board live recorded videos to passengers’ personal devices. We target realistic scenarios, namely video transcoding of live recorded videos on-board, efficient multicast and RAN slicing.

BOOTH # 8 5GTANGO (5G Development and validation platform for global industry- specific network services and Apps)

5GTANGO puts forth the flexible programmability of 5G networks with i) a NFV-enabled Service Development Kit (SDK), ii) a Store platform with advanced validation and verification mechanisms for VNFs/Network Services qualification (including 3rd party contributions), and iii) a modular Service Platform with an innovative orchestrator in order to bridge the gap between business needs and network operational management systems.

67 Three live demos are presented: • The communications demo shows all the steps needed to deploy a collaboration system for real-time communications over 5GTANGO NFV Platform. This includes the setup of multiple Network Slices over SONATA NFV Service Platform. • The immersive media demo showcases how 5G networks will enhance the experience of end users regarding media services by improving their immersiveness into multiple 360º and non-360º video streams and even the integration of their social media channels. • The smart-factory pilot focuses on three use cases related to industry, each highlighting different aspects and benefits introduced by the use of 5GTANGO. BOOTH # 9 5GCity – A Distributed Cloud & Radio Platform for 5G Neutral Hosts

The goal with 5GCity demonstrations at EuCNC2019 is to showcase how easy is to transform city infrastructures in 5G Neutral Hosts and how powerful and flexible the 5G service design and lifecycle management is with 5GCity platform. We plan to show the 1st complete release of 5GCity platform and SDK, integrated and in support of media use cases in a near real-life scenario. 5GCity will present four demos at the booth, consisting of outdoor and indoor activities around the conference center, distributed between the booth and outside the convention building, and with different media use cases running on heterogeneous slices on the shared 3-tier infrastructure managed by our platform: 5GCity will present four demos at the booth: • 5GCity SDK + Neutral Host Platform: 1. demonstrates how 5GCity SDK facilitates creation, packaging & on boarding of network services; 2. shows how the 5GCity neutral host platform enables an ICT infrastructure owner to slice and lease its infrastructure to 3rd parties (e.g. MVNO). • Video Acquisition & Production: includes acquisition of live high-quality multiple videos from the event and streaming through 5GCity platform. • Augmented Reality service: offers immersive experiences with distribution of UHD contents. The demo leverages on 5G orchestration to offer immersive experience to end-user (e.g., tourists) who can see a reconstruction of antique city buildings and towers in real-time with superimposed via holographic models. • Mobile Backpack Transmission: highlights how high bandwidth connection over a dedicated network slice can enhance live transmissions from a mobile backpack. In this case we use acquisition, processing, and streaming/broadcasting of live HD videos from a professional mobile TV camera in the outdoor demo area of the conference site for typical journalist activities; connected to a TV production and streaming service station installed in the booth. BOOTH # 10 5G EVE (5G European Validation Platform for Extensive Trials)

5G EVE is an EU 5G infrastructure project, which develops and provides an end-to-end facility for 5G trials by verticals aiming to validate 5G PPP Key Performance Indicators. These KPIs include throughput, latency, reliability, and impact on the required transport capacity. The 5G EVE facility will interconnect site facilities located in four European countries – France, Greece, Italy and Spain. The 5G EVE demo provides an overview on the four 5G EVE site facilities and their current implementation status. The demo focuses on the core technological activities of 5G EVE, which mainly include enabling verticals to validate 5G PPP KPIs. The 5G EVE demo includes the live demonstration of the following use cases: • A combined demonstration of Smart City and Smart Energy verticals empowered by an Intent Based mechanism. The first showcasing the exchange of sensor data and actions over a 5G slice, while data generated by the sensors will be processed by a cloud-based platform and the latter showcasing a small-scale representation of a distributed smart grid with ultra-fast, ultra-reliable recovery capabilities. • The Media & Entertainment demonstration allows the user to select a specific TV channel from a mobile device. For the AGV use-case, the demonstration consists of the live retransmission from the 5TONIC labs where real AGVs will be operating. In addition to the live demonstrations, two videos show the current deployment in a real Smart City environment in Turin, including sensors and other infrastructures that allow the smooth integration of applications by verticals, and of a 360° video use case based on Open Source 4G RAN and CORE OAI and NR 5G OAI.

68 Exhibition and Demos

BOOTH # 12 SaT5G (Satellite and Terrestrial network for 5G)

The envisaged demos are: • Live OTA demo where the 5G core network at University of Surrey’s 5GIC is connected to a 5G RAN and 5G UE’s, via satellite backhaul. The CPE equipment at 5GIC is connected via VPN to the EuCNC booth. The demo incorporates SDN/NFV and MEC capabilities to prove integration with a 5G core network. It implements the virtualized core network functions, the SDN/NFV/OSM management systems, and associated testbed elements. The datacentre also hosts the content delivery servers and routers used in the demonstration. The MEC-enabled platform has integrated CDN provided to demonstrate edge content delivery using caching and multicast ABR, this part of the demo is joint SaT5G and 5G-XCAST. • Demo of local access for content delivery from TNO, where UPF located at MEC node is established to backhaul (via satellite and via terrestrial) links, and dynamically adjusts them, depending on user profile and current state of links. • Video demo of 5G integration into airline passenger service applications. It showcases the NFV-ready platform managed by an OSM orchestrator to deploy satellite/terrestrial network services using emulated MEO satellite connection. • Video demo about 5G new radio (NR) over satellite links, showing modifications needed in the uplink random access process to cope with the satellite delays. BOOTH # 13 PriMO-5G (Virtual Presence in Moving Objects through 5G)

PriMO-5G is an EU-KR collaboration project aiming to demonstrate an end-to-end 5G system providing immersive video services for moving objects. The PriMO-5G project will present three demos under the thematic title of “Optimal 5G mobile network for Firefighting with UAVs”. The first demo will be exhibit the usage of 5G Core (5GC) integrated with Network Slicing and MEC to provide ultra-reliable communications for UAV management and media delivery during firefighting situations. In this demo a UAV with video camera and USB dongle is connected to LTE eNB and CMC 5GC to stream video uplink. The 5GC uses eMBMS to broadcast the video downlink from the UAV to 4 or 5 user equipment (UEs) with eMBMS middleware. The second demo will exhibit the concept of Optimal Routing and how it provides a solution that allows low latency UE-server or UE-UE communication, while keeping service and session continuity (IP address preservation). The 3GPP defined 5GC architecture provides a mechanism to have IP address preservation at mobility events. However, this implies that the IP address gets associated with a User Plane Function (UPF) that cannot be changed. This is a disadvantage for edge use cases, where low latency requires that the UPF is close to the UEs. Other solutions allow to change the UPF, but without IP address preservation. The third demo will show the possibility of near-zero latency mission involvement (in a firefighting scenario) by introducing 5G-enabled immersive video streaming. One of the enabling factors, which we will show, is the leveraging of different computing and communicating resources provided by the overall system, e.g. multi-tiered drones, MEC, and a server. BOOTH # 14 RTVE

World’s First 5G Stand-Alone Live Content Production in the RTVE regional news on Wednesday 19th of June from 2:00 to 2:30 p.m. The HD content captured by the camera will be sent via RTMP streaming to the territorial centers of RTVE Castilla La Mancha in Toledo and RTVE Comunitat Valenciana in Paterna through a dedicated 5G Stand Alone network slice. Territorial center will next distribute the video through the DTT and satellite RF channels in order to be received and watched on several screens in Palacio de Congresos including one located in RTVE stand.

69 BOOTH # 15 EuWireless & 5Genesis

The aim of EuWireless is to design viable solutions for sharing parts of the mobile network with the research community in order to design a pan-European mobile network for research. Bearing this in mind, the project studies the technical, legal and economic solutions that encourage mobile network providers to share their infrastructures with universities, research centres and small businesses. The objective of 5Genesis is to create a common architecture and set of tools to deploy five experimental platforms for automatic validation of the KPIs defined by 5G PPP, in both controlled set-ups and large-scale events. The booth will show demos of the main entry points of both projects (portals) for remote creation and use of specific slices in mobile networks. The EuWireless demo includes the deployment through GÉANT Testbeds Service of an LTE slice to test C-V2X applications. The 5Genesis demo will show how to define an experiment for testing KPIs, how the 5GENESIS coordination framework configures and controls the testbed to deploy the slices, automate the execution of the experiment, collect the measurements and finally compute the KPIs.

BOOTH # 16 5G-VINNI and 5GINFIRE, 5G Infrastructures for verticals innovation

5G-VINNI and 5GINFIRE demonstrate 5G experimentation and innovation environments for vertical applications with practical deployments and offerings of state-of-the-art experimentation tools. • 5G-VINNI testing framework consisting of a cloud-based test automation environment providing a unique solutions and experience to the customers, such as testing operators, network engineers, or vertical developers through a Testing as a Service offering. The demonstration showcases the automation capabilities for NFVI and 5G network testing in the 5G-VINNI project. • End-to-end service orchestration capabilities of 5G-VINNI that are being deployed and will be used to configure network slices across several main facility sites of 5G-VINNI. • 5GINFIRE project achievements by through concrete experiments and infrastructures implemented and integrated within the project’s experimental environment. • Set of tools for experimentation developed and integrated into the 5GINFIRE infrastructure, to enable wide experimentation in the 5G context. • Opportunity for hands-on experience for simple experiment deployments and tests over the available infrastructure using the existing experimentation tools and access portal. • Customer service centre for future customers that consider using the 5G-VINNI and/or 5GINFIRE infrastructures as well as access and use opportunities. BOOTH # 17 iTEAM

The Universitary Institute of Telecommunications and Multimedia Applications (iTEAM) isa research centre integrated in the Polytechnic City of Innovation, the new scientific park located at the Universitat Politècnica de València (UPV). The iTEAM performs its R&D activities in the field of IST. The iTEAM is integrated by 9 research groups, joining more than 140 researchers, who cover all the scientific areas related to the Telecommunication Engineering field. The Mobile Communications Group of the iTEAM Institute is the one in charge of the organization of the booth, and is recognized as the biggest university group in Spain, and one of the most prominent in Europe, dedicated to the design of mobile and wireless communication systems. iTEAM has a strong track of records of industry collaboration and participation in European research projects. Currently it is participating in five H2020 projects, being coordinator of two of them, 5G-XCAST and WAVECOMBE. In the iTEAM booth a real car tele-driving experience over a 5G standalone network is shown. In a small circuit outside the congress centre, a real car connected to 5G is managed remotely from the iTEAM booth. A subjective camera on the car is seen from the remote “cockpit”, and of course the system has very low latency. In parallel, iTEAM shows its well-known simulation platform, that is featured with autonomous cars, assess legacy and 5G wireless technologies performance, and allows the end-to-end emulation of video experience over real world scenarios. Finally, focusing on the tele-driving use case, latency can be controlled to check its impact over user experience. Do not miss the opportunity to dig into the future of connected cars and discuss with some of the most reputed experts in the iTEAM booth.

70 Exhibition and Demos

BOOTH # 18 NRG-5

The objective of the demo is to show the NRG-5 solution that it is tailored to makethe deployment, operation and management of existing and new 5G communications including energy infrastructures (in the context of the Smart Energy-as-a-Service) safer, more secure, natural and resilient from an operational and financial point of view. NRG-5 will research towards the realization of decentralized, communication demanding services such as AMI as a Service (AMIaaS), Dispatchable Demand Response as a Service (DDraaS), and Predictive Maintenance as a Service (PMaaS). All these services are realized as closed-loop applications, integrating specific logic applications with complex forwarding graphs of collaborating utility-specific VNFs. The demo will show the intermediate outcomes of the project in three showcases: 1. a Low Cost PMU using advanced wireless communication testbed offered by the Universidad de Malaga and Keysight Technologies (AMIaaS). 2. a virtual energy function capable of avoiding voltage limit violations caused by unbalance between production and consumption in micro-grid (DDraaS) and finally. 3. the image detection functionalities of the Predictive Maintenance as a service Use Case (PMaaS).

BOOTH # 19 Clear5G

Clear5G is a European project which aims to investigate and demonstrate some of the key enablers necessary to support massive mMTC and URLLC services in the Factories-of-the-Future (FoF) environments. Clear5G provides several enhancements to current available wireless technologies in order to meet the strict requirements of the FoF scenarios. These enhancements are realised in terms of extra functionalities of wireless technologies, which are designed, implemented and evaluated on the available testbeds of the project. The demonstration aims at presenting the feasibility of the Clear5G solutions and showcasing the estimated gains from their adoption in industrial environments. In the PHY layer, the demo will demonstrate how to enable massive connectivity over an increasingly congested spectrum by using SCMA. In the MAC layer, the demo will showcase the performance evaluation of MAC protocol with NOMA and OMA. In the network, the demo will showcase the project advancements in topics including: close loop controlled AGV, UE relaying in a factory environment, packet duplication and multi-connectivity, network data analytics for supporting FoF applications.

BOOTH # 20 NGPaaS (Next Generation Platform as a Service)

We showcase the capability of NGPaaS to efficiently provision in only a few minutes resilient 5G end-to-end network connectivity in a public safety scenario. 112 call is received. The control centre staff locate the emergency situation and dispatch first responders. While the responders are on route, the control centre deploys a mission-critical network slice for a small-scale deployment, primarily using radio + cloud resources on the first responders’ vehicle. The first-responders arrive on-site, and their person-to-person and person-to-local-command- centre services are immediately supported using the local 5G infrastructure. A drone is deployed to real-time stream high-def video to the local command centre monitor on the vehicle. A specific video transcoder VNF is deployed by 5G PaaS into the network slice to support the video service. In terms of technology innovations, we are demonstrating a Cloud native container-based core and RAN service components instantiated on two telco-grade Kubernetes orchestrators. The Reusable Functional Block (RFB) Description and Composition Languages Design, Deploy and Direct (RDCL 3D) tool enables the flexible and the high-speed deployments. The demonstration integrates the Dev-for-Operations developed by the project enabling the upgrade of the AMF core function to another version delivered by the vendor. In addition to the life demo, a video-based demo demonstrating a CORD-based Telco PaaS with VNFaaS capabilities, such as wholesale Layer 2 Ethernet connectivity sold to Service Providers (SPs) to connect their end customers will be shown.

71 BOOTH # 21 Nokia Bell Labs

Mobile operators have already started their 5G network deployment and next generation user terminals commercial release is planned for the upcoming months. Knowing the future network system performance and capabilities seem to be key in order to have proper planning strategies. In this OPAL5G project Nokia Bell Labs presents some field test trials for the latest release of 4G, which have lots of similarities with the forthcoming mobile broadband standard. Results for urban drive tests are presented too. We also bring some pathloss simulation based on modern channel models that matches the results obtained in the real scenarios. Error is measured to have some insights about the utility and accuracy of the pathloss models when comparison with specific scenarios is made. Now the work is focused on the new 5G network and concluding remarks are proposed. BOOTH # 22 Casa Systems

Casa Systems will demonstrate the functionality of a self-contained Cloud Edge Virtualized Network. The demonstration will use our centralized RAN controller, our Apex Small Cells and our Axyom 4G/5G Core software platform to show an end to end virtualized network function passing video. Casa System’s VNFs are optimized for a virtual compute environment and Axyom VNFs can scale both horizontally and vertically and provide security, aggregation and management of microservices that are optimized to be used across both mobile and fixed networks. For the demo architecture I have attached a diagram of a demonstration that is a facial recognition demonstration done recently at MWC. Instead of the facial recognition application there will be video data transmitted. I will verify the diagram. BOOTH # 23 National Instruments

Accelerate Innovation. Accelerate Discovery. National Instruments (NI) software defined radio (SDR) hardware and software solutions drive productivity, shorten time to results, and empower engineers, scientists, and researchers to design next-generation wireless technologies. The depth of the NI SDR offering is unrivaled as shown by the proven researcher success globally and the community of accessible IP to accelerate research efforts. Scaling from small to massive, NI SDR tools are used for a wide variety of applications including spectrum monitoring, signals intelligence, military communications, radar, and communications research such 5G research.

BOOTH # 24 Spirent Communications

Spirent Communications is a global leader with deep expertise and decades of experience in testing, assurance, analytics and security, serving developers, service providers, and enterprise networks. We help bring clarity to increasingly complex technological and business challenges. Spirent’s customers have made a promise to their customers to deliver superior performance. Spirent assures that those promises are fulfilled. With the industry’s broadest set of 5G Test and Assurance solutions, Spirent helps service providers and application developers simplify 5G by reducing the complexity and economics of testing, verifying, and delivering 5G; accelerate 5G by expediting 5G innovation (R&D) and time-to-market of new services; and assure 5G operationally so it delivers new revenues, savings, and customer experiences. At EuCNC, Spirent will be demonstrating a digital twin - the emulation of an 5G standalone core network and the concept of network slicing. This provides researchers and developers with a development environment to create and refine new applications to utilize 5G technologies. BOOTH # 25 ELLIPZ SMART SOLUTIONS

The visible light spectrum must play a pivotal role in the 5G revolution. Optical morse code has entered the numeric age with LED light sources. Since electricity hardwire infrastructure is already installed to reach every user, and since light bulbs are everywhere in houses, offices and city streets, we domesticate this installed base to move forward with wireless data transfer. Our products and network modernization solutions offer unmatched consistency in an environment challenged by increasing radio frequency interference issues or bandwidth saturation. Using visible light to measure, detect, locate, or communicate has its virtues: it is precise, fast, and reliable. It is also cost effective and energy saving. Our wireless technical solutions allow to increase collection and transfer of information without the collateral increase in radio frequency exposure.

72 Exhibition and Demos

We believe smart should reconcile performance with versatility and sobriety. LED bulbs can provide light and transfer data at the same time. As smart cities invent their optimal infrastructure, as our smart phones accumulate functionalities to intertwine services, as the internet of things redesign technologic capabilities, wireless connectivity becomes a pivotal enabler. Visible light as communication infrastructure can accelerate and improve our technologic transformation. BOOTH # 26 AXIÓN

Axión, wholesale telecommunications operator, has 20 years of experience neutrally managing its infrastructures nationwide, offering space for different telecommunications operators and broadcasting radio and television signals. The capabilities acquired during this time by telemanagement of more than 700 centers and 7000 equipment from its own plant, allows it to provide IoT and security solutions for Smart Cities, adapted to the client’s needs, like management of video surveillance, air conditioning control, counting and monitoring the level of occupancy… Providing with unified platforms and open and portable solutions for the different connectivity technologies that are emerging in the world of IoT. In this event, Axión has prepared a demonstration of its Traxión service, assembling a solution that will perform the capacity control to the Palacio de Congresos Conference Center with a platform that will manage the data received. Traxión is an automatic system for inflow and level of occupancy control, based on non-intrusive feedback sensors via IP cameras with integrated video analytics, connected to software that manages and stores the data, generates alarms and adapts the information to the formats required for real-time transfer to an advanced administration system or multi-service platform. BOOTH # 27 Rohde&Schwarz

The customer’s quality of experience (QoE) with a mobile device is a major measure for manufacturers. Ensuring coexistence and interference-free operation of all integrated wireless standards is a challenge from the initial design to the production of mobile devices. Mobile device test and measurement solutions from Rohde & Schwarz cover every aspect of cellular mobile radio, wireless connectivity and navigation standards – from R&D to conformance and production testing. Network and service performance are critical to achieving optimal quality of experience (QoE) and quality of service (QoS). But it is regular testing and continuous optimization that are the key to ensuring customer satisfaction and securing network investments. Mobile network testing solutions from Rohde & Schwarz let you reconcile your current and future dilemmas. Our extensive and diverse product portfolio provides all the software, hardware and resources you need to deliver better services with higher quality for customers while enabling suppliers to increase the value of their networks and products. BOOTH # 28 COST - European Cooperation in Science and Technology

The European Cooperation in Science and Technology (COST) is an EU-funded programme that enables researchers and innovators to set up their interdisciplinary research networks in Europe and beyond. We provide funds for organising meetings, workshops, training schools, short scientific exchanges, conference grants and other networking and dissemination activities across a wide range of scientific topics. COST provides a unique way to jointly develop ideas and new initiatives across all science and technology fields, including social sciences and humanities. As a European intergovernmental framework, since its creation in 1971, it has been helping to bring together researchers and stakeholders from public and private institutions, NGOs, industry, SMEs, as well as policy-makers, across Europe and beyond, thereby playing a very important role in building the European Research Area (ERA). By anticipating and complementing the activities of other EU framework programmes, COST acts as a bridge to the less-supported research communities in some COST Members defined as Inclusiveness Target Countries (ITCs). It also enhances the mobility of researchers across Europe and fosters scientific excellence.

73 BOOTH # 29 EMPOWER-PAWR, Empowering transatlantic Platforms for Adavnced Wireless Platforms

EMPOWER (H2020 project) supports collaboration and accelerates joint development between EU and USA on advanced wireless experimental research, targeting the new connectivity frontiers beyond 5G. PAWR (Platforms for Advanced Wireless Research) is a US-based Beyond 5G Research consortium funded by the National Science Foundation and the PAWR Industry Consortium, which brings together 28 of the nation¹s leading companies and associations in wireless.

The booth demonstrates the relevant activities in US developed by PAWR nodes and EMPOWER activities aiming to foster cooperation on Advanced Wireless platforms. The booth disseminates the results of the different activities and liaises key persons in EU & USA to start a track record of collaborations and to discuss possible joint activities and evolution of the wireless platforms at both sides of the Atlantic towards beyond 5G technologies. The demos showcase an end to end fully programmable open source 5G system running in a large scale outdoor test platform in USA, demonstrating: • Experiment lifecycle on PAWR platforms; POWDER & COSMOS. • X2 handover using emulated UE, OAI eNodeB with O-RAN API extensions, controlled by a RAN controller running in a containerized EPC instance. • Instantiate an ONAP instance for configuring policy decisions in an intercontinental slice between US & EU platforms. BOOTH # 30 5GMF (The Fifth Generation Mobile Communications Promotion Forum)

The Fifth Generation Mobile Communications Promotion Forum (5GMF) was founded on 30 September 2014 in Japan. 5GMF has been conducting activities on research and development concerning 5G including the standardization thereof, along with liaison and coordination with related organizations, the collection of information, and the dissemination and enlightenment of these activities. Towards 5G realization by 2020 in Japan, these activities will contribute to the sound development of the 5G eco-society in Japan. 5GMF is a member of the multi-lateral MoU with 5G Forum, 5G Americas, 5G Brazil, IMT-2020 and 5G-IA that support Global 5G Event. In the booth, 5GMF would like to introduce recent activities toward 5G Realization in Japan. Especially, achievements of 5G Field Trials in Japan will be reported by using slides and videos. BOOTH # 31 5G PPP (5G PUBLIC-PRIVATE PARTNERSHIP)

The 5G Public Private Partnership (5G PPP) has been initiated by the EU Commission and industry manufacturers, telecommunications operators, service providers, SMEs and researchers. The 5G PPP will deliver solutions, architectures, technologies and standards for the ubiquitous next generation communication infrastructures of the coming decade. The objective of the exhibition booth is to increase the visibility of 5G PPP among everyone working on 5G. It will provide overview information on the PPP overall as well as summary information of individual projects in current Phases 2 and 3. This will help visitors to find out what projects are working on and how to get in touch with them.

BOOTH # 31 5G PPP SME

European SMEs players have a great added value in providing innovative concepts and solutions with an important impact in the 5G value chain and adoption of 5G by vertical industries. SMEs have the agility and flexibility required in a fast evolving technical and market landscape. They increasingly collaborate with larger industrial companies and research organisations to develop leading 5G solutions for the global market. The dynamism of SMEs is an essential feature for a competitive European society. The flexibility, eagerness and drive for innovation, that so many European SMEs possess, are essential for the development of our lives. Networld2020, the European Technology Platform that collects the efforts of all entities interested in telecommunications and associated technologies, is proud to count 350+ SMEs inside its constituency. These SMEs have made large contributions to the overall research in Europe and have shown many success examples on how to bring these innovations into commercial exploitation. Visit our booth to meet some of our SMEs: Associazione PIIU, Citypassenger, DigitalTwin Technology, EANTC, Integrasys, Internet Institute, interinnov, Lionix International, Martel Innovate, Nextworks, Nurogames, Seven Solutions, Ubitech, Vertical M2M, Visiona, West Aquila and WINGS ICT Solutions.

74 Exhibition and Demos

BOOTH # 32 EU 5G Cross Border Corridor Projects

European mobility is drastically changing: growing urbanisation, environmental aspects, and road safety are key concerns. Road infrastructure and vehicles are becoming constantly connected, automated and intelligent, delivering optimal experience to passengers, and addressing societal goals (e.g., emission and accident reduction) and economic needs (e.g., vehicles as smart-living environments). There is a need to explore connected European transnational mobility along main transport corridors. Pre-commercial deployment of 5G is required on a large-scale before market roll out in the years to come. The projects 5G-CARMEN, 5GCroCo and 5G-MOBIX contribute to the EU 5G Action Plan to set Europe as technology leader on the path towards commercial deployment of 5G. This will lead to a faster deployment phase of European highways in line with the EC’s CEF 5GCroCo programme. The three projects address the need to validate 5G technologies to enable cooperative, connected and automated mobility (CCAM) along cross border corridors in Europe. The projects will conduct 5G cross-border trials and will deploy a mixture of 5G micro- and macro- cells for ubiquitous C-V2X connectivity. The projects will use a distributed mobile edge cloud spanning from the vehicle to the centralized cloud. Multi-tenancy and neutral host concepts will be mobilized to deliver a final platform capable of enabling new business models. The projects will also assist and provide recommendations for regulators.

BOOTH # 33 5G-DRIVE - EU-China 5G Joint Trials and Research Collaboration

The Horizon 2020 project 5G-DRIVE: 5G HarmoniseD Research and TrIals for serVice Evolution between EU and China (2018-2021) will trial and validate the interoperability between EU & China 5G networks operating at 3.5 GHz bands for enhanced Mobile Broadband (eMBB) and 3.5 & 5.9 GHz bands for V2X scenarios. The 5G-DRIVE consortium is pleased to bring to EuCNC 2019 in its booth : • An animated video that tells the story of 5G-DRIVE • A video demo on V2X activities ongoing at the trial site in Espoo (Finland) • Posters summarising highlights and most interesting results from its public Deliverables on 1) eMBB development and test plan; and 2) V2X development and test plan - with QR code for downloading eversions • Video demo from University of Surrey’s 5G Innovation Centre (5GIC) on eMBB

o full 3D holograms in real-time (see and touch the holograms from all angles that mix into the real world via augmented reality (AR) glasses)

o 4K 360-degree live streaming service powered by the multi-access edge computing technology: 4K-quality live streaming without experiencing buffering, hence creating a seamless “out-of-body experience” via virtual reality (VR) goggles - seeing themselves from up above • Video demo from VTT on V2X: shows the Espoo V2X trial site environment dedicated for the intersection and Green Light Optimized Speed Advisory (GLOSA) trials. Automated “Marilyn” car is driving is connected to the traffic light with low latency ITS G5 and cellular LTE connectivity. Marilyn driving commands are adapted according to actual traffic light status. The scenario is extended to share and process the data partly remotely and partly in vehicle side in future. BOOTH # 34 5GCAR (5G Communication Automotive Research and innovation)

Some final results from the 5GCAR project will be demonstrated. Background on key performance indicators, use cases and their requirements. Learnings from the studies on V2X business and spectrum aspects. Highlight of promising V2X cellular and sidelink technology components as well as V2X architecture findings, together with pre-demonstration work and dissemination activities. To illustrate the ongoing demonstration work, a pre-demonstration video is showcased. The demo consists of some high-level posters as well as more detailed public reports (known as deliverables) on the results from the 5GCAR project. Flyers and Brochures will be provided to convey a summary of the overall project objectives and goals. The pre-demonstration video is also showcased and explained. BOOTH # 35 ZTE

ZTE has deployed a 5G network based on SA architecture in Valencia, Spain which is the first 5G SA network in Europe. Moreover, this network will be the information foundation during the whole EVENT period.ZTE and local partners will jointly demonstrate cutting-edge vertical applications based on it.

75 BOOTH # 36 UPV (Universitat Politècnica de València)

The Universitat Politècnica de València (UPV) is the only technological university in Spain to feature in all the world university rankings. The UPV offers undergraduate degrees, dual degrees, masters and more than 1,800 lifelong learning courses. In terms of science and technology, the UPV is among the universities with the highest revenue from competitive research: from R&D contracts, consulting and service delivery to technology licenses and start-ups. It is also the national leader in patent exploitation. The UPV booth at EuCNC 2019 shows the capabilities of 5G Standalone networks, with a live demonstration of remote machine control. The visitor can experience how the movements of his arms are reproduced with no apparent latency by a robot, using only a camera and the 5G connectivity provided by Orange and ZTE equipment. This demo has been set up at the VLC-5G- Campus by the Institutes Ai2 and iTEAM of the UPV. VLC-5G-CAMPUS is aimed to be the first open-air 5G Standalone test-bed, to support research projects, innovation and testing of new 5G services and equipment, as well as promoting Valencia to become a full 5G city in 2020. The test-bed is developed along the 65 hectares of the UPV campus in Valencia, and in cooperation with the Generalitat Valenciana, IDI FEDER 2018/030. BOOTH # 37 Orange

Orange, global operator that has become the second one in the Spanish market with a mobile network managing the greatest number of customers: 24.6 million of customers, 14.1 million in its 4G network, wants to lead the 5G race, exploring the new territories in order to anticipate its customers’ needs. So, Orange is testing the 5G technology with different vendors and architectures, as well as establishing strategic alliances with partners that look at 5G as an opportunity to digitalize and enlarge their businesses. Valencia is a good example, where Orange and ZTE have stepping up the pace by making the first 5G call, voice and data, with a Stand Alone 5G network. And that network is being used to show, during 2019 Global 5G Event and EuCNC, different applications of the new technology so that we can catch a glimpse ofthe disruptions it will bring to our lives. Orange, as Diamond sponsor of the events, enables its 5G Network and makes it possible to carry out different demonstrations that highlight the enormous potential of the new technology, the main ones: #handlingARobotWith5G: one of the potential applications of 5G technology to the development of Industry 4.0: will be the handling of industrial robots. We’ll be able to see a robot imitating the movements of the person who handles it without any delay thanks to the low latency of 5G. #vehicleConnected5G: It will be demonstrated how it is perfectly possible to drive a vehicle remotely using images in high resolution transmitted between the vehicle and the remote driver through the 5G network. The ultra low latency will do the rest. #LiveLasFallas5G: You will have an immersive experience by means of the transmission of 4K images in real time (live content) and their reception at the Conference Center using the Orange 5G network, which guarantees the correct viewing of contents in high resolution. Besides, you will be able to enjoy last Fallas, recorded in 8K in collaboration with Visyon and Prensa Ibérica, as an example of what 5G network will bring us. BOOTH # 38 H2020 ORCA (Orchestration and Reconfiguration Architecture)

At EuCNC 2019 we plan to showcase the potential of state-of-the-art software defined radio (SDR) platforms for fast prototyping of 5G and beyond 5G wireless solutions. The main target of the ORCA project is to enable end-to-end networking experiments involving real-time SDR dealing with very diverse QoS requirements (in terms of throughput, data volumes, latency, response time, reliability, availability, etc.) sharing the same wireless technologies, infrastructures and/or spectral bands. To this end ORCA offers open mature, real-time and versatile SDR platforms in several wireless test facilities, supporting heterogeneous technologies and advanced control mechanisms that can cope with extreme (ultra-low latency, ultra-high throughput, ultra-high reliability) and diverging (low AND high data rate, time-critical AND non-time critical) communication needs. We plan to show three demos addressing very different technologies ranging from open source Wi-Fi in unlicensed spectrum bands to LTE and mmWave technologies in licensed bands. We will show that experimentation with SDR is not more difficult than doing simulations or using commercial off-the-shelf wireless devices.

76 Exhibition and Demos

BOOTH # 39 MATILDA – Enabling vertical industries to take advantage of 5G technologies

The vision of MATILDA is to design and implement a holistic 5G end-to-end services operational framework tackling the lifecycle of design, development and orchestration of 5G-ready applications and 5G network services over programmable infrastructure. It aims to devise and realize a radical shift in the development of software for 5G-ready cloud-native applications as well as cloud-native virtual network functions and network services, through the adoption of a unified programmability model, the definition of proper abstractions and the creation of an open development environment that may be used by application as well as network functions developers. Intelligent and unified orchestration and network slice management mechanisms are applied for the automated placement of the 5G-ready applications and the creation and maintenance of the required application-aware network slices. MATILDA demonstration will showcase the use of Vertical Application Orchestrator (VAO), OSS and OSM/NFV capabilities supported by the MATILDA framework to build and run two distinctive industrial vertical applications, from Media (5GPACE) and Public Safety (5G PPDR) domain. BOOTH # 40 5G-TRANSFORMER and 5G-CORAL

This exhibition shows demos from 2 projects that are collaborating in multi-domain, multi-provider orchestration of services and resources in cloud, edge and fog environments: • 5G-TRANSFORMER aims to transform today’s mobile transport network into an SDN/NFV- based Mobile Transport and Computing Platform (MTP), which brings the “Network Slicing” paradigm into mobile transport networks by provisioning and managing MTP slices tailored to the specific needs of vertical industries. • 5G-CORAL leverages on the pervasiveness of edge and fog computing in the RAN to create a unique opportunity for access convergence. An integrated and virtualised networking and computing solution where virtualised functions, context-aware services, and user and third-party applications are blended together will offer enhanced connectivity and better quality of experience. 5G-TRANSFORMER platform will show several Proofs of Concept (PoCs) based on vertical- oriented use cases: • Automotive: to deploy and manage the EVS (road safety application) application on edge cloud. • Entertainment: provision of a high definition content distribution service with very low latency and service creation time. Virtual appliances are dynamically deployed, allowing the streaming service provider to deploy different components in edge clouds close to the user. • MNO/MVNO to prove the deployment of 3 network slices: echographer (URLLC), video (eMBB) and IoT devices (mMTC). 5G-CORAL proves next generation of 5G Extreme Edge concepts, composed of different tiers of Fog, MEC and Cloud, focusing results on SMEs: • An infrastructure to deploy Point of Service applications. • Publish/subscribe mechanisms applied to the vehicular scenario, for the fast distribution of emergency information. Finally, a InterDigital will demonstrate (joint 5G-CORAL/5G-TRANSFORMER PoC) Remote robotic control and actuation based on adaptive 360⁰ video technology involving simultaneously two 5G slices (eMBB and URLLC) over an automated and distributed edge. BOOTH # 41 ONE5G

ONE5G is a European project which aims at providing technical investigations and recommendations beyond 3GPP Release 15, moving “5G” to “5G advanced” by: a) delivering advanced link enhancements including efficient multi-service access schemes, advanced massive MIMO enablers and link management; b) researching and proposing highly generic performance optimization schemes for 5G for both the network operator and the E2E user-experienced performance and; c) by proposing reasonable technical solutions both for high revenue areas and for more economically challenging deployments (e.g. in scarcely populated remote areas). ONE5G has a set of prototyping activities (Proof-of-Concepts) covering: a) both dense and scarcely populated areas; b) a set of relevant verticals (e.g. smart city, factory of the future, automotive and agricultural applications); c) the main 5G service categories (eMBB, URLLC and mMTC) and; d) a selected set of technological components being proposed and investigated by the partners. Part of the PoCs being developed in the project will be demonstrated in this booth. The demo will showcase the project advancements in topics including: a) wirelessly controlled production lines in industrial environments; b) service aggregation of eMBB (5G NR RAT) and mMTC (NB-IoT) traffic in both megacity and undeserved areas; c) machine learning based adaptive nonlinear receive filtering of NOMA in megacity areas; d) ad-hoc deployment of vertical services on edge cloud in underserved areas; and e) video feeds from real trials of cloud robot and tele-operated driving scenarios. The demonstration aims at showing the feasibility and the superiority of the different ONE5G components and demonstrating the relevance of technical components for the different verticals

77 BOOTH # 42 5G-PICTURE (5G Programmable Infrastructure Converging disaggregated neTwork and compUte REsources)

The objective of this exhibition is to demonstrate some of the technologies the project 5G-PICTURE develops to support the different vertical use cases considered in the project (Stadium, Smart City and Railway). Wireless, optical and packet network solutions will be showcased, delving into the concepts of hardware programmability and network softwarisation to facilitate the Dis- Aggregated RAN (DA-RAN) approach. The following demos will be showcased: • We will show the integration the dynamic packet switching & optical transport node (TSON) concept developed within 5G-PICTURE and the optical disaggregation approach fostered by METRO-HAUL, into a dynamic transport network, whose configuration is fully automated by an SDN control-plane. The demo is completely based on devices developed within the two projects and leverage on open source software for devices and network control. (joint 5G-PICTURE and METRO-HAUL demo) • We will show the implementation of flexible functional splits as VNFs orchestrated and automatically deployed by the 5G-PICTURE OS and the impact of heterogeneous wireless (Wi-Fi and millimetre wave) transport. • We will demonstrate a Point-to-Multipoint deployment of millimetre wave nodes making use of beam steering capabilities (Smart City demo). • We will demonstrate how connectivity services involving virtual access points and forwarding through a multi-hop wireless backhaul can be dynamically set up. (Stadium demo) • We will demonstrate an FPGA-based time sensitive networking implementation with P4 programmability for converging fronthaul traffic and enabling synchronization in timing accurate networks. • We will show two complex network functions, i.e. load balancing and handover management, implemented in hardware using FlowBlaze, just by writing an XL program. (Rail Demo) • We will demonstrate Pishahang: an NFV orchestration framework that supports multi- version services by chaining network functions across OpenStack and Kubernetes domains. BOOTH # 43 METRO-HAUL

METRO-HAUL has designed and built smart optical metro infrastructure able to support traffic originating from heterogeneous 5G access networks, addressing the anticipated capacity increase and its specific characteristics, e.g., mobility, low latency, and low jitter. This infrastructure will also support a wide variety of services and use cases with particular emphasis on services from various industries vertical to the ICT. Our goals are being achieved by architecting new access-facing and core-facing nodes, complete with storage and compute facilities, interconnected by novel, spectrally efficient, and adaptive optical transmission networks. Advanced concepts, such as hardware disaggregation and virtualisation, will assist in hitting challenging cost targets while enabling automation and programmability – all supported by a purpose-designed SDN-based control plane which interfaces with client applications, intelligently catering for the varied range of 5G KPIs. METRO-HAUL has coordinated the disparate elements of transmission, switching, networking, compute, and storage, orchestrating dynamic solutions for multiple 5G applications. BOOTH # 44 SliceNet (End-to-End Cognitive Network Slicing and Slice Management Framework in Virtualised Multi-Domain, Multi-Tenant 5G Networks)

SliceNet meets the requirements from the management and control planes of network slicing across multiple administrative domains, facilitating 5G adoption by vertical industries, and managing the QoE for slice services. SliceNet will showcase cognitive network slicing management capabilities in various vertical use cases: • The Smart Grid demo features ML model creation through TensorFlow framework and using a Dense Neural Network (DNN) algorithm, ML model deployment, and ML model execution for RAN slice failure prediction in an execution environment. • The Smart City demo integrates work from SliceNet and MATILDA projects to show inter- slice resources conflict mitigation, by onboarding an application in a Marketplace, deploying 2 slices and providing an ML model to monitor slice-level metrics, predict service-level degradation, and locate its source. • The eHealth demo shows eMBB slice composition and onboarding and how MEC with hardware acceleration can assist in collection, processing and streaming of patient data through an ML-based MEC App, as well as support of dynamic SDN mobility management, and a novel plug & play execution environment for network slices customisation.

78 Exhibition and Demos

BOOTH # 45 MUSCLES

With the increase in number of devices and data, burdens are increasing on mobile networks, especially with the limited spectrum available. Even with 5G, optimization of resource utilization will continue to be a major challenge, to maximize resource utilization; hence, optimize users experience. The MUSCLES project specifically targets this challenge, by developing an optimization solution for resource utilization, in current LTE and forward compatible with future 5G networks, built on the concept of self-organizing networks (SONs) and densification using small cells. The project aims at specifically decreasing the high operational costs (OPEX) related to network management and optimization. Three demos will showcase the achievements of MUSCLES: i) An intelligent SON optimization tool that can dynamically and proactively manage and utilize spectral resources effectively. ii) A design tool to automate and facilitate the design of FWA networks, based on hybrid fiber-wireless architecture, where the wireless portion is typically implemented using mm-wave frequencies. iii) Finally, the project shows a virtual TV solution, able to deliver feed in any existing adaptive streaming format. BOOTH # 46 5G-PERFECTA | MONALIS

The main objective of 5G-PERFECTA is to develop a 5G performance compliance testing assurance solution that calculates KPI (Key Performance Indicators) to show the real behavior of 5G network and services. The technological challenge is to develop the technology to assure the 5G service quality based on data processing. For this purpose, a series of innovation activities are proposed to establish a reference architecture for supervising 5G networks by means of monitoring devices that allow measuring 5G performance indicators in order to evaluate the real performance of 5G networks. Besides, In MONALIS project, we have developed techniques and tools for QoE (Quality of Experience) evaluation of the overall customer satisfaction in large-scale media distribution architectures, as well as measurement platforms making data available from all levels around MONALIS integrated ecosystem, which has been brought to the European market in terms of different components. BOOTH # 47 FRONT-VL (From Empowerment to Viable Living)

FRONT-VL will focus on smart and efficient technical solutions to increase possibilities for the elderly to live at home without being dependent on children or in-home care. By enabling elderly people to live at home – either independently or assisted – for as long as possible, a good quality of life can be maintained while at the same time drastically reducing care costs. Based on four use cases I) Rehabilitation, II) Fall Prevention, III) Mental Health and IV) Palliative Care, end- user services will be defined and developed to support the end-user with ICT relevant to all stakeholders. This supports the analysis and interpretation of data of individuals and also on a big scale. The use of state-of-the-art machine learning and big data analysis methodologies, together with a profound IoT based data acquisition, will allow the development of sophisticated predictive health related services. FRONT-VL will ensure highest standards of privacy and data ownership of the individual. The consortium behind FRONT-VL is composed of organizations with long experience inthe relevant competence areas needed to realize highly effective end-to-end products which benefit the growing market and societal needs in this area for the coming decades. BOOTH # 48 E3

E3 allow Everybody’s (rural & urban areas, patients & professionals) access to E-health services Everywhere (low-cost high-quality video conference reusing in-home infrastructures) main achievements: • 1st Brain anatomy course coupled to an awake live surgery allowed 250 future surgeons get access to better training by attending simultaneously to this live experience vs 3-5 in an operating room • 1st 3D Telesurgery transmission of both ENT (Ears, Nose & Throat) & Heart Surgery • 1st Simultaneous 2D & 3D Robotic & Endoscopic Surgeries • 2D endoscopic surgery & robotic simulation • +30.000 viewers from 91 countries attended the 4th European Laryngological Live Surgery Broadcast session • HEVC proposed medical test video sequences ACCEPTED for the MPEG video test set for the development of Video Coding Standards. o Medical Usage Acceptability of Video compression thresholds based on subjective tests

79 o Reduced the minimum bandwidth connection needed to 0,5-1Mbps allowing low bandwidth connected areas to use E3 Videoconferencing services o Summarize & index the visual information allowing Professionals to have a quick summary of the recorded sessions as well as to navigate and discover information inside a video • Awarded “eVIA INNOVA Bronze Award” 2015 BOOTH # 49 VIRTUOSE (Virtualized Video Services)

The main goal of VIRTUOSE project is to develop video services utilizing virtualization techniques. With the use of virtualization techniques, we can develop services, which are scalable and secure, and can easily be deployed to different computing platforms. This enables the partners to leverage their services in new markets, and offer cost-efficient solutions. The VIRTUOSE project focuses on four use cases / work areas, which have been recognized to benefit the most from virtualization technologies: cloud gaming, multiparty video communications, video transcoding & distribution, and video analytics. All of these virtualized video services share common problems and require a common knowledge base to solve them. BOOTH # 50 Health^5G

The aim of Health^5G project is to identify and support novel use cases where the application of next-generation mobile technology capabilities, such as low latency, reliability, performance and flexibility, will lead to novel features improving the quality of eHealth services. At the end of the project, high-impact and industry-driven use cases will be selected for demonstrating the future possibilities enabled by 5G. So far, we have identified three potential eHealth scenarios: healthcare at home, hospital environment and emergency situations. Health^5G envisions a health monitoring system enabled by 5G-based heterogeneous networks by having various integrated wireless radio and cloud technologies, protocol designs, standards and semantics. In order to support the overall vision, the project will 1) develop the 5G network and service enablers required for meeting the connectivity and processing requirements of the target applications, 2) integrate the networking solutions and applications as well as tackling any interoperability issues and 3) validate the solutions in real 5G test networks and end-user environments. BOOTH # 51 H-OPTO/FU5ION

The aim of FU5ION is to develop a combined access and in-home network architecture that FU5ION supports fifth generation services. FU5ION focuses on customer service requirements through specification of cost efficient architecture and protocols to support the widespread roll-out of services backhauled over the fixed network. H-OPTO aims at establishing best practices and create new knowledge about optical networks, H- PT with focus on cost reduction and quality. Up to today research efforts on optics have gone towards increasing the bitrates and developing new optical components. Less research has gone in the direction of optical access networks and the costs of their deployment, operation and maintenance. The rate of fibre deployment is very sensitive to these costs. In addition, the uncertainty associated with the cost of deploying a large scale optical fibre network and even more so, the costs associated with operating and maintaining such a network is prohibitive when it comes to making investment decisions. BOOTH # 52 ReICOvAir (Reliable Industrial Communication Over the Air)

Replacing wired connections with radios and providing reliable over the air connections for advanced manufacturing and processing systems is a key requirement of Industry 4.0. With such connections, more flexibility in the deployment of machinery can be attained allowing data connections for formerly unreachable spots with an overall reduction of installation costs. Presently, systems targeting these needs are being development by the wireless industry. Prior to its use in industries, accurate testing is essential to prove the capabilities of these systems. In this context, the Celtic-Plus project ReICOvair aims at developing testing solutions suitable for industrial communications. Using measurements from the industrial floor, ReICOvair’s solutions model the propagation and interference conditions in industries accurately thereby enabling the necessary conditions for validation of industrial wireless systems.

80 Exhibition and Demos

BOOTH # 53 RELIANCE (REsiLIent ANd scalable sliCing over multiplE domains)

RELIANCE extends the 5G network architecture with new functionalities needed for multi- service and multi-domain management, with the related abstractions, interfaces, and mechanisms to support needed resilience, security, and scalability. In particular, RELIANCE aims to conduct research activities on the concept of federated network slicing to compose end-to-end services that span across different technical and administrative domains. The architectural work of the project is driven by the diverse needs and requirements stemming from vertical industries (e.g., automotive, industry 4.0, enhanced multimedia broadband, train control & management, and public protection & disaster relief). The RELIANCE framework will be implemented and validated on selected use-cases through proof-of-concepts, aiming at demonstrating the envisioned benefits of the RELIANCE framework. BOOTH # 54 WINS@HI

WINS@HI project proposes an innovative solution meant to improve safety, operation management, and manufacturing environments and evaluate work accident risks more accurately. For this purpose, different kinds of Internet-of-Things (IoT) sensors, such as wearable devices, that capture maximum amount of data from work environment and vital parameters of work safety are exploited and integrated in the project’s pilots. The WINS@HI solution focus on waste management industry and underground transportation as the main application fields. The solution is tested, validated and demonstrated in two pilot locations. Several types of sensors are deployed, and data collected are processed with the aim to mitigate the human health risks. Therefore, we demonstrate that WINS@HI solution is suitable to cover different working environments and is designed to reduce human health risks: • Acute risk – require immediate action, needs sensors capable of identifying specific threshold values and a system capable of offering solutions (waste management pilot); • Chronic risks – need actions to mitigate long term exposure to air pollution (underground transportation pilot). BOOTH # 55 UNICRINF (UNIversal CRItical INFrastructures)

UNICRINF is a project that seeks to support the emergency services in the first moments immediately after a natural disaster or emergency has happened. Chaos and loss of communications are very common in these situations. With this in mind, the main objective of this project is to build an emergency agnostic network (VANET or MANET), which uses available mobile devices as nodes in the disaster area. These nodes can be mobile phones, or cars equipped with Internet access. Also backbone communications will be checked and solved if apply. Thus, communication with the victims and between the emergency services will be possible. The booth will be used by great part of partners (pending confirmation its participation) and the idea is use Posters, videos, triptychs and ppt presentation with live explanation. Additionally, a live demo (Tuesday 18th June, Valencia’s Port) will be done as following (tentative). Some gadgets will be show: NB-IoT Semapore, check point operator, antenna, etc. BOOTH # 56 INTERNET INSTITUTE LTD.

“The world of high quality communications.” INTERNET INSTITUTE Ltd. (ININ) is an innovation intensive SME, specialized in 5G performance and quality metrics development and validation, 5G testing, benchmarking and end-to-end validation, and quality monitoring and SLA assurance for orchestrated 5G infrastructures and services. Also, we are experienced in design, deployment and operation of reliable and resilient 5G infrastructures for public safety and critical communications sectors. We address telco, corporate and vertical industrial sectors with our quality MONitoring (gMON) portfolio for performance monitoring and SLA assurance, benchmarking and end- to-end validation of communication infrastructures and services. In addition, we specialise in on-site critical communications, smart sensing and intervention monitoring services with our intervention MONitoring (iMON) and remote MONitoring (rMON) portfolios, customised for critical communications, public safety and critical infrastructures. In addition, we’ve recently launched PPDR One (5gsafety.net), a one-of-a-kind 5G and NFV ready experimentation facility that facilitates hands-on experimenting with stationary and portable 5G deployments for public safety and critical communications sectors.

81 BOOTH # 57 CRITISEC

The core idea of CRITISEC is to develop novel security products, services and standards for edge networks in critical infrastructures, where the edge networks are a heterogeneous set of networks connected to the edge of a core production network. These services will make it possible to connect edge networks to control systems in a secure and robust way, and to secure the edge network itself when it is the critical infrastructure that requires protection (e.g. the 5G network). IETF standardization (ACE and OSCORE protocols): • CRITISEC partners are contributing to international standardization of security protocols at the Internet Engineering Task Force (IETF). • Focus on security mechanisms for embedded devices that are typically used in critical infrastructure, providing secure communication and access control in these environments. HALI- Improving Cybersecurity with Traffic Signal Pre-emption • Open product for authorities and companies • The vehicle with Galileo/GPS positioning request preemption before upcoming crossroad • Using mostly existing hardware, only improved software • Scalable for large geographical areas • Secured connection between vehicles, server and traffic lights BOOTH # 59 H2020 TERRANOVA

The H2020 project TERRANOVA envisions to extend the fibre-optic systems’ Quality of Experience to wireless links by exploiting frequencies above 275 GHz. The hardware and algorithmic innovations from TERRANOVA are used within the project to implement two proof-of-concept demonstrators, namely a High-Capacity and a Beamforming demonstrator. At EUCNC, TERRANOVA shows the world’s first real-time 100 Gb/s THz wireless communication link using a single 300 GHz carrier. The THz link will be embedded in a 100 Gb/s fibre-based backhaul link of a state-of-the-art Next Generation Optical Access Network (XGS-PON), thus demonstrating the “Wireless fibre extender” application scenario, which is considered a key application for TERRANOVA. This scenario is especially interesting, when it is intended to provide reliable data communication with very high data throughputs for distances up to 1 km on adverse geographies, such as lakes, rivers and dams, or even on environments, where civil work construction is not allowed due to physical and/or regulatory constraints. Currently, rural users suffer low-connectivity problems, but in the future they will have an opportunity to enjoy high data rates. The TERRANOVA wireless fibre extender has low-complexity setup, high flexibility and low total cost of ownership when compared to the fibre deployment, which makes it appropriate for this type of applications. BOOTH # 60 ICT Beyond 5G Cluster (B5G)

The “ICT Beyond 5G Cluster” is a joint effort from the projects funded in EU H2020 call ICT-09- 2017 “Networking research beyond 5G” to share information among themselves and collaborate in the dissemination of their results. The cluster members are: • H2020 DREAM – D-band Radio solution Enabling up to 100 Gbps reconfigurable Approach for Meshed beyond 5G networks (http://www.h2020-dream.eu/) • H2020 EPIC – Enabling Practical Wireless Tb/s Communications with Next Generation Channel Coding (https://epic-h2020.eu) • H2020 TERAPOD – Terahertz based Ultra High Bandwidth Wireless Access Networks (http:// terapod-project.eu/) • H2020 TERRANOVA – Terabit/s Wireless Connectivity by TeraHertz innovative technologies to deliver Optical Network Quality of Experience in Systems beyond 5G (https://ict-terranova.eu) • H2020 ULTRAWAVE – Ultra Capacity Wireless Layer beyond 100 GHz based on Millimeter- wave Travelling Wave Tubes (http://ultrawave2020.eu) • H2020 WORTECS – Wireless Optical/Radio TErabit CommunicationS (https://wortecs. eurestools.eu) • THOR – TeraHertz end-to-end wireless systems supporting ultra high data Rate applications (https://thorproject.eu). Funded in a different call, THOR is a joint EU-Japan project incorporated to the cluster due to the close alignment of the topics.

82 Exhibition and Demos

BOOTH # 61 5G-RANGE (Remote area Access Network for 5th Generation)

Nowadays, the main research efforts on 5G networks aim for improving the data rate, reduce latency and increase the number of connections. Besides these efforts, one important scenario is not being intensively researched, which is the coverage in remote and rural areas. The main goal of the 5G-RANGE project is to conceive and implement a 5G operation mode that can provide reliable Internet access in remote areas, with significant social and economic impacts. 5G-RANGE will provide the telecommunications infrastructure to allow those living in low populate areas to have reliable Internet access. This solution will also support the agribusiness automation, allowing for using IoT for improving farms productions in the so-called smart farms. Other applications, such as road coverage and high-speed train connections, will benefit from the wide coverage provided by 5G-RANGE. The 5G-RANGE PHY must overcome several challenges. Cognitive radio techniques shall be employed to reduce operational costs. Hence, the waveform must have low out-of-band emissions and spectrum flexibility to support dynamic frequency allocation. The waveform also must achieve high spectrum efficiency under a double-dispersive channel with long delay profile. Finally, state-of-the-art channel codes and MIMO schemes must be used to provide robustness for large cell coverage. The main aim of this demonstration is to show the preliminary results achieved by the 5G-RANGE Project in terms of the PHY for Remote Area Applications. The transceiver is entirely implemented in hardware and is able to operate in real-time at high data rates. We will demonstrate that the conceived PHY layer is able to achieve very low out-of-band emissions, which allows spectrum agility by just turning off subcarriers in undesired spectrum bands. The system robustness is assured by a flexible Polar Code, which can be configured to operate at different code rates and by a MIMO diversity scheme to enhance robustness. BOOTH # 62 SEMIoTICS

The SEMIoTICS platform delivers an NFV Infrastructure for Industrial Applications with the following layers: • A Virtualized Backend Layer with a local cloud, based on OpenStack and OSM. These will host VNFs related to smart actuation, monitoring, and data analytics. An OpenHab service will also visualize sensor values and alerts. • Virtualized IoT Gateway Layer based on an Odroid C2 minicomputer, that can host Field layer VFNs • Field layer BLE sensors (temperature, humidity, vibration and light intensity) and actuators (smart lights). We will demo the following scenarios: • A Server Environment Monitoring System, where SEMIoTICS local embedded intelligence will help detect anomalous conditions. Alerts will indicate abnormally high vibrations at an Odroid MC1 mini Rack due to cooling fan failures, or critical environmental conditions that could indicate HVAC failures. • vEPC and backend slices as services, SEMIoTICS’ backend infrastructure is leveraged for orchestrating the core network components of LTE (vEPC) employing a Day-0 VNF configuration approach using Cloud-Init. Such deployment will help upload metrics from wind turbines via LTE to a monitoring application hosted in a backend slice. Administrators then will be able to check the blades’ rotation speed and/or alerts via a GUI provided by Grafana. BOOTH # 63 5G-PHOS and blueSPACE

This exhibition shows a joint demo from two projects, blueSPACE and 5G-PHOS, in the area of infrastructure for 5G networks that join forces here to showcase the hardware required to develop efficient A-RoF optical fronthaul networks. At the booth, blueSPACE and 5G-PHOS describe their progress and advances towards the hardware required in the end-to-end communication, including highly performance optical transmission technologies, mm-wave antennas with directional beams and BaseBand units for A-RoF communications. The hardware is presented in a live demo on the

end-to-end technologies required to implement high-capacity and high-density fronthaul links for 5G mm-wave networks. The projects demonstrate the downlink communication of up to 400MHz OFDM mm-wave signals, i.e., waveforms compatible with the specs foreseen by 3GPP, transmitted through a pair of 60GHz directional antennas with 10o beam width and a multi-core fiber using analog radio-over-fiber transport techniques, aiming to show a viable path towards unprecedented end-to-end user capacities for next generation 5G fiber-wireless networks. The demonstration showcases analog fronthaul as a key candidate to serve future mm-wave 5G communications and proves the feasibility of analog transport of large bandwidth radio signals for mm-wave 5G NR with fully centralized signal generation and processing, combining the blueSPACE analog radio- over-fiber BBU with the mm-wave radio technology of 5G PHOS. The demo takes place at the joint booth of the two projects between Monday, June 17th 2019, 14:00 and Thursday, June 20th 2019, 18:00.

83 BOOTH # 64 H2020 EPIC

The EPIC consortium will demonstrate its substantial progress in tackling the ultra-high throughput FEC challenge. The main target of the demo is to exhibit practical ultra-high throughput FEC solutions in FPGA platforms, whereby demonstrating feasibility of the developed FEC solutions for wireless Tb/s data-rates. FPGA implementation is widely accepted as a credible approach for the verification and validation of the complex algorithms and architectures in FEC and other digital design blocks. Therefore, EPIC’s FPGA demonstrations will serve and be presented as an important framework to be leveraged in the ASIC design for the consumer-grade implementation of these technologies. It is believed that the outcome of the demo will be an important contribution for practical wireless Tb/s and broader THz technologies, therefore adding momentum into the design and development of these fields. The EPIC consortium is going to perform; i- 100 Gb/s end-to-end FPGA demonstration of length-1024 polar codes, ii- LDPC-CC Window decoder with length-102400 on Xilinx VCU128 Evaluation Kit and Virtex UltraScale+ FPGA platforms, respectively. The outputs of the demo are real-time throughput and latency measurements of polar and LDPC encoders/decoders and communication performance plots. BOOTH # 65 5G-MiEdge (Millimeter-wave Edge cloud as an enabler for 5G ecosystem)

“5G-MiEdge: Millimeter-wave Edge cloud as an enabler for 5G ecosystem” The 5G-MiEdge project aims to exploit the benefits of combining mmWave technology, Multi- Access Edge Computing, Liquid RAN control-plane and a user/application centric orchestration. With this demonstration we highlight the promising fusion of these technologies. It consists of one controller, three backhaul nodes and one UE. The nodes are connected in a redundant mmWave mesh network and offer application access to the UE via mmWave and sub 6 GHz. In addition to this basic functionality, we show failover mechanisms in case of link-failure caused e.g. by blockage and demonstrate a reliable user experience. BOOTH # 66 IoRL: Internet of Radio Light

Wireless networks in buildings suffer from congestion, interference, security and safety concerns, restricted propagation and poor in-door location accuracy. The Internet of Radio-Light (IoRL) project develops a safer, more secure, customizable and intelligent building network that reliably delivers increased throughput (>10G bps within a building) from access points pervasively located within buildings with latencies of <1ms, whilst minimizing interference and harmful EM exposure and providing location accuracy of < 10cm. It thereby solves problem of broadband wireless access in buildings and promotes establishment of global standard in ITU. Building landlords will be incentivized to find funding to realize this solution for their properties to increase their value resulting in a stimulated market for broadband networking products in buildings, benefiting society and stimulating the world Gross Domestic Product. IoRL project has developed a proof of concept portable demonstrator, which acts as the basis for standardization of a global solution exploiting the broadband capacities of VLC, mmWave, the flexibility of NFV/SDN technologies and the accessibility of the existing electric light access points. It shows how an industrial redesigned radio-light solution can be integrated into existing electric light consumer products to become a universal Electromagnetic access point in rooms within buildings. The objective of the demonstration is to present the principle of operation of the main concepts of the IoRL architecture to vertical industries in particular to Building Design Consultants and Electro- Mechanical designers in civil engineering companies , Electric Lighting Systems Manufacturers, road, rail and air transport industries, manufacturing and warehouse industries, healthcare industries, Consumer Electronics and Computer Communication Network Manufacturers and Software Services Industry. BOOTH # 67 Nonwatio C2S3h

The integration of “C2S3H – CiberSeguridad VLC” in “NONWATIO Technology Solutions” is much more than a sum: it’s a multiplication. In the current situation in which no company or public body, independently of their size,is free of cyber attacks, data losses or any other information damage, we multiply the capacity of their systems to face, actively and proactively, these threats, by offering the advantages ofa Management Centralized Console and support 24/7. Our clients get the best protection and vigilance of their systems because we incorporate exclusive technologies like AppGuard and LinkGuard, so that the devices “IoT” of our clients will be hidden and highly protected. “NW CYBER” is the service which differences the “before and after” in the cyber security services, the tranquility of entrusting it to expert hands.

84 Exhibition and Demos

BOOTH # 68 CASFID

CASFID Group is a global tech-service provider specialized in the events sector. It focuses its activities in the use of RFID technologies applied to diverse scopes. The goal of this is to provide security, to optimize process and to improve the anttendant’s experience. CASFID offers its technological know-how to event promoters and planners so they can create a unique experience for their audience to enjoy. The technology of CASFID Group is put to work through different business divisions depending on the target client. The brands that makeup CASFID Group are the following: IDASFEST (music festivals, concerts and other leisure events), IDCongress (professional events and MICE sector), IDSports (sports events, venues and clubs), IDCars (automotive sector) and Enterticket (global ticketing). BOOTH # 69 ABREBOX

Abrebox revolutionizes the area of the automatic door openers, eliminating the traditional telephones of the houses and replacing them with an intelligent Video Intercom System that links the street panel of each property with the smartphones and tablets of their owners, tenants and authorized, using IOT-based wireless technology and contributing to the users: 1. Increased security: Allows you to simulate presence at home 24 hours a day, takes automatic photographs of all visitors and records all the entry movements that occur in the property. 2. Increase in comfort: Allows responding and opening to visitors from anywhere through smartphones and tablets, opening doors without the need for keys and granting temporary opening permits for vacation rentals. 3. Savings: Abrebox is installed in an average of 2 hours, regardless of the number of users, allowing a cost savings of between 50 and 80% compared to a traditional system. BOOTH # 70 tyris software

Tyris Software is a technological company expert in customized solutions of Machine Learning, Artificial Intelligence, Big Data and Business Intelligence. It is composed on three strategic lines. – Technological laboratory, where highly innovative custom projects are developed on mobile platforms, web and Smart tv. – Machine Learning for industry, where Artificial Intelligence techniques are applied to optimize industrial projects. – Business Intelligence specialized in dashboards powered through a layer of intelligence on business data. Our solutions are customized using the latest technologies on the market. We make tailor-made developments accompanying and guiding our clients to successfully achieve their goals. Our methodology of continuous evolution is being applied in projects for industry, business, logistics, retail, … with clients such as LaligaSports, Michelin, Sacyr, Coca-Cola or Universitat Politècnica de València. Tyris software has been recognized with different awards nationally (UPV, Ayuntamiento de Valencia, Sacyr) and internationally (Startups Europe Awards).

85 Steering Steering Committee Chairs Committee

Luis M. Correia Bernard Barani (Chair) (Vice-Chair) IST – Univ. Lisbon, PT European Commission, BE Steering Committee Members

Didier Bourse Narcis Cardona Filipe Cardoso Panagiotis Demestichas Pavlos Fournogerakis Nokia, FR iTEAM – Univ. Politècnica ESTSetúbal – Polytech. Univ. Pireaus, GR European Commission, de València, ES Inst. of Setúbal, PT BE

Matti Latva-aho Vlatko Lipovac Ingrid Moerman Mihael Mohorčič Kostas Pentikousis Univ. Oulu, FI Univ. Dubrovnik, HR IMEC - Ghent Univ., BE Inst. Jozef Stefan, SI Travelping, DE

Björn Ottersten Jorge Pereira Manuel Ricardo Hikmet Sari Ralph Stuebner Univ. Luxembourg, LU/ European Commission, Univ. Porto / INESCTEC, Sequans, FR COST Office, BE KTH, SE BE PT

Riccardo Trivisonno Hugo Tullberg Mojca Volk Lena Wosinska Huawei, DE Ericsson, SE Univ. Ljubljana, SL KTH, SE

86 TPC Chair Technical Programme Committee

Narcis Cardona iTEAM – Univ. Politècnica de València, ES Track Co-Chairs Physical Layer and Fundamentals (PHY) Radio Access and Softwarisation (RAS)

David López-Pérez Laurent Clavier Takahiro Aoyagi Konstantinos Katzis Luzango Mfupe Muhammad Nokia Bell Labs, IE Univ. Lille, FR European Univ. CSIR, ZA Zeeshan Shakir Cyprus, CY Univ. West of Scotland, UK

Wireless, Optical and Satellite Networks (WOS) Network Softwarisation (NET)

Salvador Sales António Grilo Nader S. Alagha Hamed Ahmadi Zaheer Khan Jeongchang Kim iTEAM – Univ. IST – Univ. of Lisbon, ESTEC, NL Univ. College Dublin, CWC Oulu, FI Korea Maritime and Politècnica de PT UK Ocean Univ., KR València, ES

Vertical Applications and Internet of Things (VAP) Operational & Experimental Insights (OPE)

Carlos Palau Kamran Sayrafian Gordana Gardasevic Benoit Derat Andrés Navarro Mansoor Hanif Univ. Politècnica de NIST, USA Univ. Banja Luka, BIH Rohde & Schwarz, DE Univ. ICESI, CO OFCOM, UK València, ES

87 Panel Co-Chairs Special Sessions Co-Chairs

Pavlos Fournogerakis José Monserrat Javier Gozalvez David Gómez-Barquero Chiara Buratti European Commission, iTEAM – Univ. Politècnica Univ. Miguel Hernández, iTEAM – Univ. Politècnica Univ. of Bologna, IT BE de València, ES ES de València, ES

Workshops Co-Chairs Tutorials Co-Chairs Publicity Chair

Ramón Agüero Bosco Fernandes Claude Oestges Thomas Kuerner Baldomero Coll Univ. of Cantabria, ES COMCON, DE U.C.Louvain, BE Univ. Braunschweig, DE Univ. Miguel Hernández, ES

Financial Exhibition Co-Chairs Chair

Jorge Pereira UWE Herzog Conchi García David García Teresa Pardo European Commission, Eurescom, DE iTEAM – Univ. Politècnica iTEAM – Univ. Politècnica iTEAM – Univ. Politècnica BE de València, ES de València, ES de València, ES

Publication Co-Chairs Communication Chair

Irene Alepuz Daniel Calabuig Alicia Abad iTEAM – Univ. Politècnica iTEAM – Univ. Politècnica iTEAM – Univ. Politècnica de València, ES de València, ES de València, ES

88 IEEE/ComSoc Liaison EUROSIP Liaison URSI Liaison

Hikmet Sari Björn Ottersten Sana Salous Sequans, FR Univ. Luxembourg, LU/ Durham Univ., UK KTH, SE

COST Liaison

Ralph Stuebner COST Office, BE

Local Arrangements Chair

Viajes El Corte Inglés M.I.C.E.

89 Technical Programme Committee members

PHY - Physical Layer and Fundamentals • Jakub Kolar, Czech Technical University in Prague, Czech Republic • Adrian Garcia-Rodriguez, Nokia Bell Labs, Ireland • Jan Sykora, Czech Technical University in Prague, • Alban Goupil, Université de Reims Champagne- Czech Republic Ardenne, France • Albert Lysko, Council for Industrial and Scientific • Janne Lehtomäki, University of Oulu, Finland Research, South Africa • János Bitó, Budapest University of Technology and • Alexandru-Sabin Bana, Aalborg University, Economics, Hungary Denmark • Jay Chaudhary, Technische Universität Dresden, • Alister Burr, University of York, United Kingdom Germany (Great Britain) • Jean-Yves Baudais, CNRS, France • Amir H Jafari, Samsung Research America, USA • Jiayi Zhang, Beijing Jiaotong University, P.R. China • Ana Martinez, Technische Universität Dresden, • Joonas Kokkoniemi, University of Oulu, Finland Germany • Jose-Maria Molina-Garcia-Pardo, Universidad • Andrea Bonfante, Nokia Bell Labs Ireland, Ireland Politécnica de Cartagena, Spain • Anish Shastri, International Institute of Information • Jozef Lukac, Czech Technical University in Prague, Technology-Hyderabad, India Czech Republic • Anne Savard, IMT Lille Douai - IRCICA, France • Junqing Zhang, University of Liverpool, United • Ari Pouttu, Centre for Wireless Communications Kingdom (Great Britain) University of Oulu, Finland • Kentaro Saito, Tokyo Institute of Technology, Japan • Athanasios Kanatas, University of Piraeus, Greece • Konstantin Samouylov, Peoples’ Friendship • Bengi Aygun, Ford Werke GmbH, Germany • Benoit Denis, CEA-Leti Minatec, France University of Russia, Russia • Carlos Morais de Lima, Universirty of Oulu, Finland • Konstantinos Maliatsos, University of Piraeus, • Chao Zhang, Tongji University, P.R. China Greece • Charly Poulliat, INP - ENSEEIHT Toulouse, France • Kun Yang, Super Radio AS, Norway • Christian Schneider, Ilmenau University of • Lam Thanh TU, CNRS, France Technology, Germany • Laurent Clavier, Institut Mines-Telecom, Telecom • Claire Goursaud, INSA-Lyon, France Lille, France • Claudio Paoloni, Lancaster University, United • Leonardo Cardoso, Université de Lyon, France Kingdom (Great Britain) • Longfei Yan, Shanghai Jiao Tong University, P.R. • Custodio Peixeiro, IST-University of Lisbon, Portugal China • Daisuke Anzai, Nagoya Institute of Technology, • Luca De Nardis, Sapienza University of Rome, Italy Japan • Luca Rugini, University of Perugia, Italy • Danping He, Beijing Jiaotong University, P.R. China • Markus Berg, University of Oulu, Finland • David Gomez-Barquero, Universitat Politecnica de • Markus Hofer, AIT Austrian Institute of Technology, Valencia, Spain Austria • David Löschenbrand, AIT Austrian Institute of • Martin Schlüter, Dresden University of Technology, Technology GmbH, Austria • Dmitry Kozlov, Nokia Bell Labs, Ireland Germany • Dragana Bajić, University of Novi Sad, Serbia • Maurício Dias, Centro Federal de Educação Tecnológica • Edgar Eduardo Benitez Olivo, São Paulo State Celso Suckow da Fonseca (CEFET/RJ), Brazil University (UNESP), Brazil • Mihály Varga, National Instruments Romania, • Elena Lukashova, Eurecom, France Romania • Enrico Buracchini, Telecom Italia Lab, Italy • Milica Pejanovic-Djurisic, University of • Ernestina Cianca, University of Rome Tor Vergata, Italy Montenegro, Montenegro • Francesco La Marca, Nokia Bell Labs, Ireland • Minseok Kim, Niigata University, Japan • Frederic Guilloud, IMT Atlantique, France • Mladen Botsov, BMW Group Research and • George Alexandropoulos, University of Athens, Technology, Germany Greece • Mohamed Shehata, INSA Rennes, France • Gianluca Fontanesi, University College Dublin, • Najeeb Ul Hassan, Huawei Duesseldorf Ireland Technologies GmbH, Germany • Gilberto Berardinelli, Aalborg University, Denmark • Nandana Rajatheva, University of Oulu, Finland • Govindasamy Ananthi, Thiagarajar College of • Naveed Iqbal, Huawei Technologies, Germany Engineering, India • Neelakantan Nurani Krishnan, WINLAB, Rutgers • Guillaume Villemaud, Université de Lyon, INRIA, INSA-Lyon, CITI, France University, USA • Hideki Ochiai, Yokohama National University, Japan • Nicola Piovesan, Centre Tecnològic de • Himal Suraweera, University of Peradeniya, Sri Telecomunicacions de Catalunya (CTTC), Spain Lanka • Nikola Zogović, University of Belgrade, Serbia • Hirley Alves, University of Oulu, Finland • Pekka Kyösti, Keysight Technologies, Finland • Hugo Tullberg, Ericsson, Sweden • Petr Hron, Czech Technical University in Prague, • Irfan Muhammad, University of Oulu, Finland Czech Republic

90 Technical Programme Committee members

• Qiang Li, South China University of Technology, P.R. • George Karetsos, Technology Education Institute of China Thessaly, Greece • Rebal Jurdi, University of Texas at Austin, USA • Hans van den Berg, TNO, The Netherlands • Robin Gerzaguet, Univ Rennes, CNRS, IRISA, France • Heikki Karvonen, University of Oulu, Centre for • Ronald Boehnke, Huawei European Research Wireless Communications, Finland Center, Germany • Hua Wang, Keysight Technologies, Denmark • Seong Ki Yoo, Queen’s University Belfast, United • Ilenia Tinnirello, University of Palermo, Italy Kingdom (Great Britain) • John Vardakas, IQUADRAT Informatica S. L. • Siming Zhang, China Mobile Research Institute, P.R. Barcelona, Spain China • Jordi Pérez-Romero, Universitat Politècnica de • Takahiro Aoyagi, Tokyo Institute of Technology, Catalunya (UPC), Spain Japan • Jorge Torres Gomez, Carlos III University of Madrid, • Takaya Yamazato, Nagoya University, Japan Spain • Thomas Zemen, AIT Austrian Institute of Technology • Juan Carlos Estrada-Jimenez, University Carlos III GmbH, Austria in Madrid, Spain • Tobias Kadur, Technische Universitat Dresden, • Konstantin Samouylov, Peoples’ Friendship Germany University of Russia, Russia • Tom Hößler, TU Dresden, Germany • Konstantinos Katzis, European University Cyprus, • Troels Sørensen, Aalborg University, Denmark Cyprus • Vasile Bota, Technical University of Cluj Napoca, • Konstantinos Samdanis, Nokia Bell Labs, Germany Romania • Lanfranco Zanzi, NEC Laboratories Europe GmbH, • Venceslav Kafedziski, SS. Cyril and Methodius Germany University, Macedonia, the former Yugoslav Republic of • Liljana Gavrilovska, Ss Cyril and Methodius • Victor Quintero, Universidad del Cauca, Colombia University - Skopje, Macedonia, the former Yugoslav • Ulm University, Germany Werner Teich, Republic of • Wim Kotterman, Technische Universität Ilmenau, • Luzango Mfupe, Council for Scientific and Industrial Germany Research (CSIR), South Africa • Xiaohang Song, Technische Universität Dresden, • Maria Julia Fernandez-Getino Garcia, University Germany Carlos III of Madrid, Spain • Xuesong Cai, Aalborg University, Denmark • Muhammad Naseer-Ul-Islam, Nokia Bell Labs, • Yi Chen, Shanghai Jiaotong University, P.R. China Germany • Youssef Nasser, American University of Beirut, USA • Paolo Bellavista, University of Bologna, Italy • Zhuangzhuang Cui, Beijing Jiaotong University, P.R. • Paulo Pinto, Universidade Nova de Lisboa, Portugal China • Ramon Ferrús, Universitat Politècnica de Catalunya, • Ziyan Yin, Nanjing University of Science and Spain Technology, P.R. China • Reeshen Reddy, CSIR, South Africa • Shahriar Ahmed, University of the West of Scotland, RAS - Radio Access and Softwarisation United Kingdom (Great Britain) • Adrian Kliks, Poznan University of Technology, • Steven Latré, University of Antwerp - imec, Belgium Poland • Valentin Rakovic, Ss. Cyril and Methodius University • Alexandros Kaloxylos, University of Peloponnese, in Skopje, Macedonia, the former Yugoslav Republic of Greece • Valeriy Naumov, Service Innovation Research • Alexandros-Apostolos Boulogeorgos, University of Institute, Finland Piraeus, Greece • Vladimir Atanasovski, Ss Cyril and Methodius • AmirHossien Mohajerzadeh, Ferdowsi University of University in Skopje, Macedonia, the former Yugoslav Mashhad, Iran Republic of • Apostolos Kousaridas, Huawei Technologies, • Xavier Gelabert, Huawei Technologies Sweden AB, Germany Sweden • Behnam Rouzbehani, Instituto Superior Técnico, • Yuliya Gaidamaka, RUDN University, Russia Portugal • Bin Han, Technische Universität Kaiserslautern, WOS – Wireless, Optical and Satellite Networks Germany • Borislava Gajic, Nokia Bell Labs, Germany • Alberto Mengali, European Space Agency, The • David Grace, University of York, United Kingdom Netherlands (Great Britain) • Alessandro Guidotti, University of Bologna, Italy • Didier Bourse, Nokia, France • Anas Bin Muslim, University of Applied Sciences • Eduard Sopin, RUDN University, Russia Osnabrück, Germany • Enrique Chirivella-Perez, University of the West of • Andreas Kunz, Lenovo, Germany Scotland, United Kingdom (Great Britain) • Angeles Vazquez-Castro, Universidad Autónoma de • Fabrizio Granelli, University of Trento, Italy Barcelona, Spain • Fahad Qasmi, University of OULU, Finland • Anna Tzanakaki, University of Bristol, United • Faouzi Bader, CentraleSupélec, France Kingdom (Great Britain)

91 • Antonio Teixeira, DETI, University of Aveiro, • Ray Sheriff, University of Bolton, United Kingdom Portugal (Great Britain) • António Grilo, INESC/INOV, Portugal • Rogerio Dionisio, Instituto Politecnico de Castelo • Arsim Kelmendi, Jozef Stefan Institute, Slovenia Branco, Portugal • Avi Zadok, Faculty of Engineering, Bar-Ilan • Salvador Sales, Universidad Politecnica de Valencia, University, Israel Spain • Beatriz Ortega, ITEAM Research Institute, Spain • Sarmad Ghafoor, University of Applied Science • Carlos Fernandez-Pousa, Universidad Miguel Osnabrueck, Germany Hernandez de Elche, Spain • Stavros Iezekiel, University of Cyprus, Cyprus • Carlos Giraldo-Rodríguez, Gradiant, Spain • Stephan Bernhart, TU Graz, Austria • Carmen Mas Machuca, Technical University of • Thomas Plank, Graz University of Technology, Munich, Germany Austria • Christian-Alexander Bunge, Hochschule für • Tomaso De Cola, German Aerospace Center (DLR), Telekommunikation Leipzig, Germany Germany • Daniel Kraus, Pro2Future GmbH, Austria • Valentin Polo, DAS Photonics & Universidad de • David Larrabeiti, Universidad Carlos III de Madrid, Valencia, Spain Spain • Yoram Haddad, Jerusalem College of Technology, • Diego Perez-Galacho, Universitat Politecnica de Israel Valencia, Spain • Engin Zeydan, CTTC, Spain NET- Network Softwarisation • Federico Tonini, Università di Bologna, Italy • Geert Morthier, Ghent University, Belgium • Adamantia Stamou, National Technical University of • Giovanni Giambene, University of Siena, Italy Athens, Greece • Guy Saadon, Jerusalem College of Technology, Israel • Adrian Kliks, Poznan University of Technology, • Harald Haas, The University of Edinburgh, United Poland Kingdom (Great Britain) • Ahmad Rostami, Robert Bosch GmbH, Germany • Jaroslaw Turkiewicz, Orange, Spain • Akhil Gupta, Lovely Professional University, India • Javier Gozalvez, Universidad Miguel Hernandez de • Albert Banchs, Universidad Carlos III de Madrid, Spain Elche, Spain • Ali Rafiei, University of Technology Sydney, Australia • Javier Vales-Alonso, Universidad Politécnica de • Amir H Jafari, Samsung Research America, USA Cartagena, Spain • Angelos Rouskas, University of Piraeus, Greece • Jernej Hribar, Trinity College Dublin, Ireland • Anna Brunstrom, Karlstad University, Sweden • Joan Bas, Centre Tecnològic de Telecomunicacions • Antonella Molinaro, University Mediterranea of de Catalunya (CTTC), Spain Reggio Calabria, Italy • Josep Fabrega, Centre Tecnologic de • Antonio Manzalini, Telecom Italia, Italy Telecomunicacions de Catalunya, Spain • Artan Mazrekaj, University of Prishtina, Kosovo • Laurent Reynaud, Orange Labs, France • Artur Hecker, Huawei, Germany • Ljupco Jorguseski, TNO, The Netherlands • Avishek Nag, University College Dublin, Ireland • Lu Zhang, KTH Royal Institute of Technology, • Babak Hossein Khalaj, Sharif University of Sweden Technology, Iran • Lucas Speckbacher, TU Graz, Austria • Bang Chul Jung, Chungnam National University, Korea • Luis Bernardo, FCT, Universidade Nova de Lisboa, • Bengi Karacali, IBM Research, USA Instituto de Telecomunicações, Portugal • Carlos Natalino, Chalmers University of Technology, • Maria Guta, European Space Research and Sweden Technology Centre, European Space Agency, The • Chau Yuen, Singapore University of Technology and Netherlands Design, Singapore • Mário Alves, Politécnico do Porto, Portugal • Cheng Chen, Intel Corporation, USA • Màrius Caus, Centre Tecnològic de • Christian Esteve Rothenberg, University of Telecomunicacions de Catalunya (CTTC), Spain Campinas - UNICAMP, Brazil • Miguel Rodelgo Lacruz, Centro Universitario de • Cicek Cavdar, KTH Royal Institute of Technology, Defensa, Spain Sweden • Miguel Vázquez, Centre Tecnològic de les • Cormac Sreenan, University College Cork, Ireland Telecommunicacions de Catalunya (CTTC/CERCA), Spain • Davide Adami, CNIT Pisa Research Unit, University • Nader Alagha, European Space Agency, The of Pisa, Italy Netherlands • Diego Lugones, NOKIA Bell Labs, Ireland • Narcis Cardona, The Polytechnic University of • Dimitri Papadimitriou, University of Antwerp, Valencia, Spain Belgium • Mrs. Nele Noels, Ghent University, Belgium • Dimitrios Dechouniotis, National Technical • Nicola Andriolli, Scuola Superiore Sant’Anna, Italy University of Athens, Greece • Paolo Casari, IMDEA Networks Institute, Spain • Eirini Eleni Tsiropoulou, University of New Mexico, • Paulo Pereira, INESC-ID, Portugal USA • Pekka Pirinen, University of Oulu, Finland • Fabio D’Andreagiovanni, CNRS, Sorbonne • Ralf Tönjes, University of Applied Sciences University - UTC, France Osnabrück, Germany • Franco Davoli, University of Genoa, Italy • Raul Muñoz, Centre Tecnològic de Telecomunicacions • George Polyzos, Athens University of Economics and de Catalunya (CTTC/CERCA), Spain Business, Greece

92 Technical Programme Committee members

• Georgios Kambourakis, University of the Aegean, • Rebal Jurdi, University of Texas at Austin, USA Greece • Roberto Bruschi, CNIT, Italy • Guangyuan Piao, Nokia Bell Labs, Ireland • Roberto Rojas-Cessa, New Jersey Institute of • Hamed Ahmadi, University of Essex, United Technology, USA Kingdom (Great Britain) • Roman Novak, Jozef Stefan Institute, Slovenia • Hamideh Bour, UTS, Australia • Seok-Ki Ahn, Electronics and Telecommunications • Hao Ge, Northwestern University, USA Research Institute, Korea • Haresh Dagale, IISc, India • Shuo Li, RMIT University, Australia • Ishan Vaishnavi, Huawei, Germany • Supyae Sone, University of Oulu, Finland • JaeHong Yim, Korea Maritime and Ocean • Wint Yi Poe, Huawei Technologies - European University, Korea Research Center, Germany • Jane Frances Pajo, University of Genoa, Italy • Xu Wang, Northwestern University, USA • Jens Pedersen, Aalborg University, Denmark • Yannick Carlinet, Orange Labs, France • Jeongchang Kim, Korea Maritime and Ocean • Zaheer Khan, University of Oulu, Finland University, Korea • Zunera Javed, University of Oulu, Finland • Jin-Ho Chung, Ulsan National Institute of Science and Technology, Korea • Joao Santos, Trinity College Dublin, Ireland VAP - Vertical Applications and Internet of Things • Jonathan van de Belt, Trinity College Dublin, Ireland • Aljo Mujčić, University of Tuzla, Bosnia and Herzegovina • Jordi Pérez-Romero, Universitat Politècnica de • Ana Robnik, Iskratel, Slovenia Catalunya (UPC), Spain • Ana Paula da Silva, Universidade Federal de Minas • Jose Soler, Technical University of Denmark, Denmark Gerais, Brazil • Kazuo Hashimoto, Waseda University, Japan • Anastasios Zafeiropoulos, UBITECH, Greece • Klaus Wehrle, RWTH Aachen University, Germany • Andrej Košir, University of Ljubljana, Slovenia • Konstantinos Papadakis-Vlachopapadopoulos, • Angelos Rouskas, University of Piraeus, Greece National Technical University of Athens, Greece • Apostolos Kousaridas, Huawei Technologies, Germany • Liam Murphy, University College Dublin, Ireland • Behnam Rouzbehani, Instituto Superior Técnico, • Madhusanka Liyanage, University of Oulu, Finland Portugal • Mrs. Maja Curic, Huawei Technologies Duesseldorf • Carl Debono, University of Malta, Malta GmbH, Germany • Carlos Palau, Universitat Politecnica Valencia, Spain • University of Brasília, Brazil Marcelo Carvalho, • Daniele Miorandi, U-Hopper, Italy • Marco Di Girolamo, Hewlett Packard Enterprise, Italy • Dejan Vukobratović, University of Novi Sad, Serbia • Maria Cuevas, BT Group Chief Technology Office, • Dimitrios Vergados, Western Macedonia University United Kingdom (Great Britain) of Applied Sciences, Greece • Marja Matinmikko-Blue, University of Oulu, Centre • Domen Mongus, University of Maribor, Slovenia for Wireless Communications, Finland • Ferdinanda Ponci, RWTH Aachen University, Germany • Martin Reed, University of Essex, United Kingdom • Gordana Gardasevic, University of Banja Luka, Bosnia (Great Britain) and Herzegovina • Matteo Gerola, FBK, Trento, Italy • Hamid Mahboubi, University of California, Berkeley, • Matteo Repetto, CNIT, Italy USA • Matthieu De Mari, Singapore University of • Nokia Bell Labs, Denmark Technology and Design, France István Kovács, • University of Zagreb, Croatia • Michael Pauls, TU Berlin, Germany Ivana Podnar Zarko, • Mika Ylianttila, University of Oulu, Finland • Jara Suárez de Puga, Universitat Politècnica de • Mohammad Hossein Anisi, University of Essex, València, Spain United Kingdom (Great Britain) • Jerzy Konorski, Gdansk University of Technology, • Muhammad Amjad, University of Essex, United Poland Kingdom (Great Britain) • Johannes Riedl, Siemens AG, Germany • Nalin Jayaweera, University of Oulu, Finland • Jorge Bernal Bernabe, University of Murcia, Spain • Narcis Cardona, The Polytechnic University of • Kai Lin, Dalian University of Technology, P.R. China Valencia, Spain • Karina Gomez, RMIT University, Australia • Nicola di Pietro, CEA LETI, France • Klaus David, University of Kassel, Germany • Nikolaos Thomos, University of Essex, United • Konstantinos Katzis, European University Cyprus, Kingdom (Great Britain) Cyprus • Nima Afraz, CONNECT Center, Trinity College • Krzysztof Cwalina, Gdansk University of Dublin, Ireland Technology, Poland • Oriol Sallent, Universitat Politècnica de Catalunya, • Luca Caviglione, National Research Council (CNR), Italy Spain • Luís da Silva Cruz, Instituto de Telecomunicacoes / • Osama Abboud, Huawei Technologies Dusseldorf University of Coimbra, Portugal GmbH, Germany • Maja Matijasevic, University of Zagreb, Croatia • Panagiotis Papadimitriou, University of Macedonia, • Marco Zennaro, ICTP - The Abdus Salam Greece International Centre for Theoretical Physics, Italy • Pasika Ranaweera, University of Ruhuna, Sri Lanka • Marja Matinmikko-Blue, University of Oulu, Centre • Ramona Trestian, Middlesex University, United for Wireless Communications, Finland Kingdom (Great Britain) • Matti Hämäläinen, University of Oulu, Finland • Rastin Pries, Nokia Bell Labs, Germany • Mladen Veletić, Oslo University Hospital, Norway

93 • Mona Ghassemian, King’s College London, United • Edgardo Montes de Oca, Montimage, France Kingdom (Great Britain) • Francesco Gringoli, University of Brescia, Italy • Mozhdeh Farhadi, University of Rennes, Italy • Frederic Le Mouel, INRIA / INSA Lyon, France • Muhammad Rizwan Asghar, The University of • Gabriela Soares, Multivision, Portugal Auckland, New Zealand • Gonzalo Llano, Universidad Icesi, Colombia • Narcis Cardona, The Polytechnic University of • Harri Saarnisaari, University of Oulu, Finland Valencia, Spain • Javier Gozalvez, Universidad Miguel Hernandez de • Noelia Correia, University of Algarve, Portugal Elche, Spain • Osama Abboud, Huawei Technologies Dusseldorf • Jorge Gomez, Universidad del Magdalena, Colombia GmbH, Germany • José Luis Hernandez Ramos, European Commission • Panagiotis Papadimitriou, University of Macedonia, - Joint Research Centre (JRC), Belgium Greece • Josep Mangues-Bafalluy, Centre Tecnològic de • Prof. Paolo Bellavista, University of Bologna, Italy Telecomunicacions de Catalunya (CTTC), Spain • Pasquale Pace, University of Calabria, Italy • Juan Antonio Martinez Navarro, Odin Solutons S. • Pawel Kulakowski, AGH University of Science and L., Spain Technology, Poland • Laura Belli, University of Parma, Italy • Prodromos Makris, Institute of Communication and • Leonardo Betancur, Universidad Pontificia Computer Systems (ICCS/NTUA), Greece Bolivariana, Colombia • Rafael Marin-Perez, OdinS, Spain • Lúcio Ferreira, Lusiada University of Lisbon, Portugal • Ramon Sanchez-Iborra, University of Murcia, Spain • Luis Bernardo, FCT, Universidade Nova de Lisboa, • Rui Aguiar, University of Aveiro, Portugal Instituto de Telecomunicações, Portugal • Serban Obreja, University Politehnica of Bucharest, • Luis Muñoz, University of Cantabria, Spain Romania • Lyndon Fawcett, Lancaster University, United • Sherali Zeadally, University of Kentucky, USA Kingdom (Great Britain) • Slawomir Ambroziak, Gdansk University of • Mário Alves, Politécnico do Porto, Portugal Technology, Poland • Màrius Caus, Centre Tecnològic de • Stefano Ferretti, University of Bologna, Italy Telecomunicacions de Catalunya (CTTC), Spain • Stefano Giordano, University of Pisa, Italy • Martin Lerch, TU Wien, Austria • Susana Sargento, Instituto de Telecomunicações, • Michele Magno, ETH Zurich, Switzerland Universidade de Aveiro, Portugal • Miquel Payaró, CTTC, Spain • Urban Burnik, University of Ljubljana, Slovenia • Narcis Cardona, The Polytechnic University of • Vladimir Marbukh, National Institute of Standards Valencia, Spain and Technology, USA • Nikolaos Bartzoudis, CTTC, Spain • Oscar Mauricio Caicedo Rendon, University of OPE - Operational & Experimental Insights Cauca, Colombia • Paolo Mollo, CSP - Innovazione nelle ICT, Italy • Alberto Perotti, Huawei Technologies Sweden AB, • Parishad Karimi, WINLAB, Rutgers University, USA Sweden • Patrik Arlos, Blekinge Institute of Technology, • Alvaro Pachon, Universidad Icesi, Colombia Sweden • Ana Maria Cardenas Soto, Universidad de • Pierluigi Gallo, University of Palermo, Italy Antioquia, Colombia • Rafael Asorey-Cacheda, Technical University of • Andreas Georgakopoulos, WINGS ICT Solutions, Cartagena, Spain Greece • Raouf Abozariba, Lancaster University, United • Andres Navarro, Universidad Icesi, Colombia Kingdom (Great Britain) • Anna Guerra, University of Bologna, Italy • Ricard Vilalta, CTTC/CERCA, Spain • Benoit Derat, Rohde & Schwarz, Spain • Rina Azoulay, Jerusalem College of Technology, • Carlos Arce, Universidad Icesi, Colombia Israel • Carolynn Bernier, CEA/Leti - Minatec, France • Salvador Sales, Universidad Politecnica de Valencia, • Cássio Rego, Federal University of Minas Gerais, Spain Brazil • Shuangyi Yan, University of Bristol, United Kingdom • Claudio Casetti, Politecnico di Torino, Italy (Great Britain) • Daniel Fernandes, ISCTE Lisbon University Institute & • Stratos Keranidis, University of Thessaly and IT - Instituto de Telecomunicações, Portugal CERTH, Greece • David Gomez-Barquero, Universitat Politecnica de • Thanasis Korakis, University of Thessaly, Greece Valencia, Spain • Tim Wauters, Ghent University - imec, Belgium • Diego Tami, Federal University of Minas Gerais, • Xenofon Foukas, Microsoft Research, United Brazil Kingdom (Great Britain)

94 Local Organizing Committee

• Narcís Cardona Marcet • Gerardo Martínez Pinzón • José F. Monserrat del Río • Heung-Mook Kim • David Gómez Barquero • Irene Alepuz Benaches • Alejandro Fornés Leal • Jhoan Samuel Romero Peña • Alicia María Abad García • Josue Flores De Valgas Torres • Álvaro Ibáñez Latorre • Manuel Fuentes Muela • Andrea Ramos Pillasagua • Marc Nieto Aliques • Baldomero Coll Perales • Maritza Elizabeth Palacios Morocho • Carlos Salvador Barjau Estevan • Martina Barbi • Concepción García Pardo • Pavel Wladimir Torres Maldonado • Danaisy Prado Álvarez • Sandra Roger Varea • Daniel Calabuig Soler • Santiago Franco Orozco • David García Roger • Saúl Adrián Inca Sanchez • David Martín-Sacristán Gandía • Sergio Castelló Palacios • eduardo Garro Crevillen • Sofía Pérez Simbor • Ganesh Raj Ranganathan • Teresa Pardo Gómez

95 Sponsors & Patrons

Supported by

EuCNC 2019 has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 761434 (EuConNeCts3 Project)

Diamond Patron

Gold Patron

ZTE Corporation is a global leader in telecommunications and information technology. Founded in 1985 and listed on both the Hong Kong and Shenzhen Stock Exchanges, the company has been committed to providing integrated end-to-end innovations to deliver excellence and value to consumers, carriers, businesses and public sector customers from over 160 countries around the world to enable increased connectivity and productivity. ZTE believes in technology innovation as a core value of the company, investing more than 10% of annual revenue in R&D. The company has established state-of-the-art global R&D centres in USA, Sweden, China and so forth. ZTE has filed applications for more than 73,000 patents, with over 35,000 granted. Since 2010, ZTE has been ranked among the world’s Top-5 for patent applications under the Patent Cooperation Treaty (PCT) each year, according to the World Intellectual Property Organization. As a member of the UN Global Compact, ZTE is committed to a vision of balanced, sustainable development in the social, environmental and economic arenas. Promoting freedom of communication around the world, the company has incorporated innovation, technological convergence and the concept of “going green” into the product life cycle. This includes R&D, production, logistics and customer service. The company is also committed to maximizing energy efficiency and minimizing carbon emissions. Looking forward, the company will be committed to becoming a pioneer in telecommunications industry, taking the lead in standardization, technical perspective and commercialization, and driving innovations in telecommunications and ICT globally as the business and technology needs of the industry continue to evolve. Currently, ZTE has deployed a 5G network based on SA architecture in Valencia, Spain which is the first 5G SA network in Europe. Moreover, this network will be the information foundation during the whole EVENT period.ZTE and local partners will jointly demonstrate cutting-edge vertical applications based on it.

96 AF_LEO_Orange_Pagina_210X297+3_RED_INGLES_M_ES.pdf 1 3/6/19 11:12

The Orange Network brings together more than 20 million people in Spain.

And when people connect, everything is possible.

The Network that brings us together 97 Gold Patron

We stand on the cusp of a new era, the likes of which we’ve never seen before. A new age of lightning-fast mobile communications where everyone and everything is connected. Where smarter devices and intelligent analysis of massive data flows will light up the cloud, powe- ring change and a new world of opportunity. 5G has arrived and it will change the way we think. It is different from its predecessors. 5G represents an explosion in data capacity and computing possibility thanks to its scope to bring about ubiquitous connectivity across the globe. By the end of 2020, when 5G rolls out in earnest, it is estimated that 6.5 billion people will be using mobile networks for data communications and 100 billion ‘things’ – such as vehicles, industrial machines, meters, medical devices and home appliances – will be connected to the network over 5G. Huawei recognised as the world’s 5G leader Huawei is the world leader in 5G. And it’s not just Huawei that says that. The European Com- mission recognises Huawei as the standard-setter in 5G and the top 5G equipment vendor in the world. This market leadership has not come about by chance. Huawei has spent a decade of research in 5G, spending over 500 million euros in the past four years alone to ensure we are indeed the No.1 5G standard setter. Huawei’s end-to-end products and solutions The first 5G services, using enhanced Mobile Broadband (eMBB), are already with us and were demonstrated at the 2019 Mobile World Congress in Barcelona. Over live networks in Barcelona city centre, Vodafone used Huawei’s 5G end-to-end (E2E) products and solutions to provide live coverage over 80 MHz C-Band spectrum, with downlink rates of up to 1.7 Gbps. Huawei also demonstrated super-fast video file download and play on its new foldable 5G smartphone. 5G is now ON. Huawei’s leading 5G end-to-end capabilities, and innovative products and solutions, are attracting customers worldwide. We are committed to helping carriers deploy 5G networks easily, rapidly, and cost-effectively. And we are ready to work with all stakeholders to drive the robust development of the 5G industry. Silver Patron

Be ahead in 5G. Be ready for the future.

Discover the Rohde & Schwarz test solutions at www.rohde-schwarz.com/5G Sponsors & Patrons

Bronze Patron

Ericsson is a world leader in the rapidly changing environment of communications technology – by providing hardware, software, and services to enable the full value of connectivity. About 40% of the world’s mobile traffic carried through our networks. For more than 140 years, our ideas, technology and people have changed the world: real turning points that have transfor- med lives, industries and society as a whole. From 5G standardization to today’s commercialization, Ericsson has been a key player in making 5G networks a commercial reality. With pioneering research and early collaborations with academia and other industries, Ericsson have developed and contributed to a standard that meets the needs of different industries and the society. 5G evolution will pave the way for highly intelligent haptic IoT technologies at hyperscale, leveraging new forms of vehicle-to-infrastructure, vehicle-to-vehicle, vehicle-to-pedestrian, and person-to-person connectivity. The era of 5G will be shaped by many evolutionary leaps within the standard, before we can even begin to look to the next generation. For more information, please visit www.ericsson.com/en/future-technologies Bronze Patron

We create the technology to connect the world. We develop and deliver the industry’s only end-to-end portfolio of network equipment, software, services and licensing that is available globally. Our customers include communications service providers whose combined networks support 6.1 billion subscriptions, as well as enterprises in the private and public sector that use our network portfolio to increase productivity and enrich lives. Through our research teams, including the world-renowned Nokia Bell Labs, we are leading the worldwide adoption of end-to-end 5G. 5G is going to change everything - every industry, every business, and every consumer experience. It will power massive broadband applications and it will create unprecedented opportunities. Nokia is leading 5G innovation. We’re pushing forward faster than anyone because we want Nokia customers to deliver the 5G experience first.To date, we have over 100 5G engagements with customer all over the world. https://networks.nokia.com/5g/5g-in-action Mobile App Patron

Who we are Kenmei Technologies was founded by telecoms and software experts, focused on providing data intelligence with machine-based decisioning, automating network operations and customer assurance, to help operators to deal with the incoming increase of network complexity. Our products ADELE stands for Autonomous Decisions and Learning. It is a network intelligence solution available in both SaaS and on premises big data deployment modes, that provides automation in classification, segmentation and resolution of network issues at different operational levels. Our services Data science and analytics With big data and other new technologies being a reality almost everywhere, there is a huge universe of possibilities to access and combine information. Combining this information may be crucial to understand what is happening in the network, to introduce new services for the end users and to automate as much as possible manual tasks. Professional Services allow Kenmei Technologies to provide an agile, fast response to operators’ needs, bringing added-value network engineering. Our Network Management services aim to assist our customers to overcome the ever-growing network complexity, preparing the ground for the introduction of the 5G where a next level of automation will be mandatory. Welcome Reception Patron

Technical Sponsors Organiser

Special Issue Enabling Technologies for Networks beyond 5G Enabling Technologies for Networks beyond 5G

EURASIP Journal on Wireless Communications and Networking will publish a Special Issue with papers submitted to EURASIPthe Thematic Journal Series on Wirelesson “Systems Communications and Networks and for Networking 5G Implementation” will publish a Special Issue with papers submitted to theThis Thematic Special Issue Series originates on “Systems from and the Networksinternational for 5Gconference Implementation” EuCNC 201 9 (European Conference on Networks and ThisCommunications), Special Issue originates which will from be held the in international June 2019, inconference Valencia, SpainEuCNC. T201hrough9 (European this Special Conference Issue, the on state Networks-of-the and-art Communications),will be presented whichand the will newbe held challenges in June 2019will , bein Valencia,highlighted, Spain regarding. Through the this latest Special advances Issue, the on state system-of-the radio-art interfaces and network architectures, including cloud and virtualisation solutions, management technologies, and will be presented and the new challenges will be highlighted, regarding the latest advances on system radio vertical application areas, among others, suitable for various 5G+ industries. Therefore, the motivation for this interfaces and network architectures, including cloud and virtualisation solutions, management technologies, and Special Issue is to present the latest and finest results on the evolution of 5G research and prototyping activities, verticalcoming, applicationbut not exclusively areas, among (since EuCNCothers, is suitable a conference for various open to5G the+ industries whole research. Therefore, community), the motivation from projects for thisco- Specialfinanced Issue by theis to Europeanpresent the Commission latest and finestwithin results its R&D on programmes.the evolution of Authors 5G research are invitedand prototyping to submit activities, original comingmanuscripts, but noton topics exclusively including, (since but EuCNC not limited is a conference to: open to the whole research community), from projects co- financed• 5G by ap theplication European areas andCommission services within its R&D programmes. Authors are invited to submit original manuscripts• Access on architectures topics including, and but technologies not limited beyond to: 5G • Advances in massive MIMO • 5G application areas and services • Air interfaces for 5G and beyond • Access architectures and technologies beyond 5G • Data aware networks and overlays (P2P, CDN, ICN, etc.) • • AdvancesFog, edge inand massive cloud computingMIMO in 5G • AirModular interfaces and reconfigurablefor 5G and beyond MAC • DataNetwork aware management networks and in 5G overlays+ (P2P, CDN, ICN, etc.) • Fog,New edgenetwork and protocolscloud computing and architectures in 5G • ModularVirtual radio and accessreconfigurable and network MAC slicing • NetworkSecurity, managementtrust and privacy in 5G in+ 5G • NewMillimetre network Wave protocols Communications and architectures for 5G+ • Spectrum management and sharing methods • Virtual radio access and network slicing The •authors Security, of the trust best and papers privacy of the in 5G EuCNC 2019 conference will be invited to submit an extended version of their paper,• withMillimetre at least Wave 1/3 of Communications additional original for material, 5G+ and the common part to be rewritten from the EuCNC paper. Submission• Spectrum instructions: management and sharing methods TheBefore authors submitting of the yourbest manuscript,papers of the please EuCNC ensure 2019 youconference have carefully will be readinvited the to Instructions submit an extended for Authors version in of their EURASIP Journal on Wireless Communications and Networking. The complete manuscript should be paper, with at least 1/3 of additional original material, and the common part to be rewritten from the EuCNC paper. submitted through the EURASIP Journal on Wireless Communications and Networking submission system. ToSubmission ensure that instructions: you submit to the correct Thematic Series please select the appropriate section in the dropdown menu upon submission. In addition, indicate within your cover letter that you wish your manuscript to Before submitting your manuscript, please ensure you have carefully read the Instructions for Authors in be considered as part of the Thematic Series on "Systems and Networks for 5G Implementation". All submissionsEURASIP Journal will undergoon Wireless peer Communications review and accepted and Networking articles will. Thebe published complete in manuscript the journal should as a collection be in a submittedsingle issue. through the EURASIP Journal on Wireless Communications and Networking submission system. To ensure that you submit to the correct Thematic Series please select the appropriate section in the dropdown menuManuscript upon submission.submission due:In addition, 16th October indicate 2019 within your cover letter that you wish your manuscript to beGuest considered Editors: as Narcís part ofCardona the Thematic (iTEAM, Serie Universitats on "Systems Politècnica and Networksde València, for Spain)5G Implementation". [email protected] All ; Luis Correia submissions(IST/INESC-ID, will University undergo ofpeer Lisbon, review Portugal) and accepted [email protected] articles will be published in; the Daniel journal Calabuig as a collection (iTEAM, Universitat in a singlePolitècnica issue. de València, Spain) [email protected]

Manuscript submission due: 16th October 2019 Submissions will also benefit from the usual advantages of open access publication: Guest• Rapid Editors: publication: Narcís Online Cardona submission, (iTEAM, Universitatelectronic peer Politècnica review deand València, production Spain) make [email protected] the process of publishing; Luis Correia (IST/INESCyour article-ID, simple University and efficient. of Lisbon, Portugal) [email protected]; Daniel Calabuig (iTEAM, Universitat Politècnica• High visibility de València, and intern Spain)ational [email protected] readership in your field: Open access publication ensures high visibility and maximum exposure for your work - anyone with online access can read your article. Submissions• No space constraints: will also benefit Publishing from the online usual means advantages unlimited of openspace access for figures, publication: and extensi ve data footage. • Authors retain copyright, licensing the article under a Creative Commons license: articles can be freely • Rapid publication: Online submission, electronic peer review and production make the process of publishing redistributed and reused as long as the article is correctly attributed. For editorial enquiries please contact the guest editors.

Valencia (SPAIN) VALENCIA 18-21 JUNE CONFERENCE 2019 CENTRE

European conference on Networks and Communications

Organised by

Patrons

Diamond

Gold Silver

Bronze Mobile App Welcome Reception