DOCSLIB.ORG

Ixia-TVS-IN-The Evolution to 5G Cellular

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Ixia-TVS-IN-The Evolution to 5G Cellular THE Evolution TO 5G Cellular Cellular Connections Keep Growing 1.1B more people and things will be connected thanks to 5G1 1G - 4G 5G Total Connections 4.7 25% 5.8 Billion + More = Billion Cellular Complexity Keeps Evolving PATH TO 5G 100% Analog Voice 1G Technology: Analog, FDMA, NMT, 1981 and AMPS circuit switching Analog Voice with Digital SMS Technology: GSM, CDMA, TDMA, 2G circuit switching for voice, and packet 1991 switching for data Digital voice, separate digital IP 3G web data, email, SMS 2003 Technology: W-CDMA and UMTS packet switching with air interface Integrated digital voice and data with 4G IP-based multi-media 2011 Technology: Packet switching IP More digital voice and data capacity 5G and special features 2020 for IoT, AR/VR, Connected Cars and Smart Cities Technology: Packet switching EVOLUTION OF KEY INDICATORS HYPER MOBILITY HYPER LOW LATENCY TIME SPENT ON MOBILE2 USER EXPERIENCE3, 4 Extremely High 5G 4 to 5 hours 4G 48 minutes 300– 1000 ms 3G 18 minutes 2G 6 minutes 100– 500 ms 1G Insignificant < 100 ms 1 ms 1G 2G 3G 4G 5G HYPERSCALE SUBSCRIBERS2, 5 By Expected 2020 5G to add 1.1B 4G Adds 750 M Total Subscribers 3G Adds 1.398 B 5.8 billion 2G Adds 1.179 B 1G 21 M 1981 5G with hyper low latency, hyperscale, and hyper mobility is ready to support IoT, connected cars, remote healthcare, smart cities, logistics, and AR/VR. Cellular Testing Makes all the Dierence 2 5G Speeds/Feeds Ixia Multi-Gig LTE with XAir2 1 3 5G-NR Wi-Fi (New Radio) Coexistence Next-Gen XAir Ixia LTE Unlicensed 5 4 Testing 5G Massive NFV Deployments IoT IxLoad Wireless VE Ixia IoT 5 keys to test the next-generation of 5G products, networks, applications, and services. READY TO TEST 5G NOW? Test 5G devices, equipment, and networks with complete confidence. Learn more at https://www.ixiacom.com/solutions/5g-wireless-test 1. The 5G era: Age of boundless connectivity and intelligent 3. LTE to 5G: Cellular and Broadband Innovation - Automation - http://www.5gamericas.org/files/6415/0282/1551/2017_5G_Americas_Ry https://www.gsmaintelligence.com/research/?file=0efdd9e7b savy_LTE_5G_Innovation__Final_for_Upload.pdf 6eb1c4ad9aa5d4c0c971e62&download 4. Performance of Mobile Networks - https://hpbn.co/mobile-networks/ 2. Internet trends 2017 report - 5. 1G subscribers - http://www.kpcb.com/internet-trends http://www.worldmapper.org/posters/worldmapper_map333_ver5.pdf Ixia-915-8131-01 © Keysight Technologies, 2017.
Load more

Recommended publications
  • NEXT GENERATION MOBILE WIRELESS NETWORKS: 5G CELLULAR INFRASTRUCTURE JULY-SEPT 2020 the Journal of Technology, Management, and Applied Engineering
    VOLUME 36, NUMBER 3 July-September 2020 Article Page 2 References Page 17 Next Generation Mobile Wireless Networks: Authors Dr. Rendong Bai 5G Cellular Infrastructure Associate Professor Dept. of Applied Engineering & Technology Eastern Kentucky University Dr. Vigs Chandra Professor and Coordinator Cyber Systems Technology Programs Dept. of Applied Engineering & Technology Eastern Kentucky University Dr. Ray Richardson Professor Dept. of Applied Engineering & Technology Eastern Kentucky University Dr. Peter Ping Liu Professor and Interim Chair School of Technology Eastern Illinois University Keywords: The Journal of Technology, Management, and Applied Engineering© is an official Mobile Networks; 5G Wireless; Internet of Things; publication of the Association of Technology, Management, and Applied Millimeter Waves; Beamforming; Small Cells; Wi-Fi 6 Engineering, Copyright 2020 ATMAE 701 Exposition Place Suite 206 SUBMITTED FOR PEER – REFEREED Raleigh, NC 27615 www. atmae.org JULY-SEPT 2020 The Journal of Technology, Management, and Applied Engineering Next Generation Mobile Wireless Networks: Dr. Rendong Bai is an Associate 5G Cellular Infrastructure Professor in the Department of Applied Engineering and Technology at Eastern Kentucky University. From 2008 to 2018, ABSTRACT he served as an Assistant/ The requirement for wireless network speed and capacity is growing dramatically. A significant amount Associate Professor at Eastern of data will be mobile and transmitted among phones and Internet of things (IoT) devices. The current Illinois University. He received 4G wireless technology provides reasonably high data rates and video streaming capabilities. However, his B.S. degree in aircraft the incremental improvements on current 4G networks will not satisfy the ever-growing demands of manufacturing engineering users and applications.
    [Show full text]
  • 1G 2G 3G LTE 4G What's Next
    What’s Next in the Cellular Evolution & How to Leverage it for New Business As you will come to see, this goal can 2006 only be accomplished by phasing out 3G and reallocating the extra bandwidth to 4G LTE. This task can only be described 2001 as daunting and challenging from not just 2018 our security perspective, but more so from theirs. 1989 Looking for more proof? First, because of demand it is necessary to upgrade all cellular networks on a regular basis. Two 2002 billion people on the planet use cellphones, according to James Katz, professor of com- munication at Rutgers University. In fact, as of 2011 there were more cellphone sub- 1999 scribers in the United States than people, ac- LTE cording to a study, underwritten by CTIA, a trade association representing the wireless 1983 1G 2G 3G 4G communications industry in the U.S., as re- ported by Bridget Kelly, author of “What Is Courtesy of Napco StarLink the Role of the Cell Phone in Communica- tion Today?” Ride the New Wave in Cellular for New RMR Society at large is becoming more mo- bile-oriented because of convenience, busi- There’s undeniably a lot of upside system control, remote video monitoring or ness and personal lifestyles. According to for savvy installing security contractors long-distance doorbells. We as an industry market research firm Statista of New York and fire/life-safety professionals whose are on the small screen to the tune of brand City, the number of smartphone users is billable offerings keep pace with the new relevance and new recurring revenue.
    [Show full text]
  • Evolutionary Steps from 1G to 4.5G
    ISSN (Online) : 2278-1021 ISSN (Print) : 2319-5940 International Journal of Advanced Research in Computer and Communication Engineering Vol. 3, Issue 4, April 2014 Evolutionary steps from 1G to 4.5G Tondare S M1, Panchal S D2, Kushnure D T3 Assistant Professor, Electronics and Telecom Dept., Sandipani Technical Campus Faculty of Engg, Latur(MS), India 1,2 Assistant Professor, Electronics and Telecom Department, VPCOE, Baramati(MS), India 3 Abstract: The journey from analog based first generation service (1G) to today’s truly broadband-ready LTE advanced networks (now accepted as 4.5G), the wireless industry is on a path that promises some great innovation in our future. Technology from manufacturers is advancing at a stunning rate and the wireless networking is tying our gadgets together with the services we demand. Manufacturers are advancing technologies at a stunning rate and also evolution in wireless technology all impossible things possible as market requirement. Keywords: Mobile Wireless Communication Networks, 1G, 2G, 3G, 4G,4.5G I. INTRODUCTION With rapid development of information and was replaced by Digital Access techniques such as TDMA communication technologies (ICT), particularly the (Time division multiple access), CDMA (code division wireless communication technology it is becoming very multiple access) having enhanced Spectrum efficiency, necessary to analyse the performance of different better data services and special feature as Roaming was generations of wireless technologies. In just the past 10 introduced. years, we have seen a great evolution of wireless services which we use every day. With the exponential evolution, B.Technology there has been equally exponential growth in use of the 2G cellular systems includes GSM, digital AMPS, code services, taking advantage of the recently available division multiple access(CDMA),personal digital bandwidth around the world.
    [Show full text]
  • DELL TECHNOLOGIES and 5G Analysis and Strategy to Capture the 5G Mobile Opportunity
    DELL TECHNOLOGIES AND 5G Analysis and strategy to capture the 5G mobile opportunity November 2019 TABLE OF CONTENTS EXECUTIVE SUMMARY ............................................................................................................................................................3 THE DELL TECHNOLOGIES 5G STRATEGY ..........................................................................................................................4 1. INTRODUCTION ....................................................................................................................................................................6 1.1 5G NEW DEMANDS ..............................................................................................................................................7 1.2 NEW TRAFFIC TYPES...........................................................................................................................................7 1.3 IOT ...........................................................................................................................................................................7 1.4 AR/VR .....................................................................................................................................................................9 1.5 MISSION-CRITICAL. ........................................................................................................................................... 10 1.6 ENHANCED MOBILE BROADBAND ...............................................................................................................
    [Show full text]
  • What Frequency Is 5G (Verizon)
    11/18/2019 What frequency is 5G? | About Verizon eless.com/) Residential (https://www.verizon.com/?lid=//global//residential) m/business/gateway/) About Verizon (/about/) Your Contact us Our Company location: (https://www.verizon.com/Support/Residential/contact- (/about/our-company) Concord, us/index.htm) NH News (/about/news) Change location 11.18.2019 Personal Tech (/about/news-story-categories/personal-tech) What frequency is 5G? (https://w(whtwtp.f:a//cwewb(howto.ttkpw.:c/i/totwemwr/.cswoh.lmainr/keserh/dsaihrnea.c?roemr.p/hshpa?reArticle? u=https://uvrzl=.thot/t3p7si:8m//DivnOzi.=toot)r/u3e7&i8uDrlO=hot&tpvsia:/=/vez.rtioz/o3n7&i8teDxOt=oW&htiatlte%=W20hfaret%qu2e0nfcreyq%u2e0nicsy%%22005iGs%%230F5% From 1G to 5G all cellular networks carry information through the electromagnetic spectrum which includes the radio spectrum https://www.verizon.com/about/our-company/5g/what-frequency-5g?fbclid=IwAR2RIHs8cmcE_pskp6pSYZuXDEVnzq_hmb12fkY_wPSNpD-Q5OUk4f… 1/5 11/18/2019 What frequency is 5G? | About Verizon From 1G to 5G, all cellular networks carry information through the electromagnetic spectrum, which includes the radio spectrum. Some frequency bands within the radio spectrum will be used for 5G, including Verizon’s 5G Ultra Wideband (UWB) network. The following information can help you learn what frequency 5G uses and how that affects the speed and efficiency of the network. What is the radio spectrum? To understand exactly how fast 5G technology is expected to be, it’s important to consider it in relation to other cellular network technologies. If you think back to high school physics, you may recall the electromagnetic spectrum. This includes all the different wavelengths/frequencies you may encounter: Gamma Rays, X-Rays, light and visible rays, microwaves, millimeter waves (mmWave), radio waves (including AM and FM radio) and more.
    [Show full text]
  • 1G, 2G, 3G, 4G, 5G
    1G, 2G, 3G, 4G, 5G By: Simon Johansen G? • G Generation • Generation of wireless phone technology 1G • Frequency: 150MHz / • From 1980 to 1990 900MHz • Bad voice quality • Bandwidth: Analog • Poor battery, cellphones telecommunication • Big cellphones (30KHz) • Characteristic: First • Better than nothing, at wireless communication least its wireless and • Technology: Analog mobile cellular • Capacity (data rate): 2kbps 2G • Frequency: 1.8GHz • From 1991 to 2000 (900MHz), digital • Allows txt msg service telecommunication • Signal must be strong or • Bandwidth: 900MHz else weak digital signal (25MHz) • Characteristic: Digital • 2.5G • Technology: Digital – 2G cellular technology with cellular, GSM GPRS • Capacity (data rate): – E-Mails 64kbps – Web browsing – Camera phones • Why better than 1G? 3G • Frequency: 1.6 – 2.0 • From 2000 to 2010 GHz • Called smartphones • Bandwidth: 100MHz • Video calls • Characteristic: Digital • Fast communication broadband, increased • Mobil TV speed • 3G phones rather • Technology: CDMA, expensive UMTS, EDGE • Capacity (data rate): 144kbps – 2Mbps • Why better than 2G? 4G • Frequency: 2 – 8 GHz • From 2010 to today (2020?) • Bandwidth: 100MHz • MAGIC • Characteristic: High – Mobile multimedia speed, all IP – Anytime, anywhere • Technology: LTE, WiFi – Global mobile support • Capacity (data rate): – Integrated wireless 100Mbps – 1Gbps solutions – Customized personal service • Why better than 3G? • Good QoS + high security • Bigger battery usage 5G • https://5g.co.uk/guides • From X (2020?) to Y /5g-frequencies-in-the-
    [Show full text]
  • Wireless Networks: Vision, Research Activities, Challenges and Potential Solutions
    S S symmetry Review Sixth Generation (6G) Wireless Networks: Vision, Research Activities, Challenges and Potential Solutions Mohammed H. Alsharif 1 , Anabi Hilary Kelechi 2, Mahmoud A. Albreem 3, Shehzad Ashraf Chaudhry 4 , M. Sultan Zia 5 and Sunghwan Kim 6,* 1 Department of Electrical Engineering, College of Electronics and Information Engineering, Sejong University, 209 Neungdong-ro, Gwangjin-gu, Seoul 05006, Korea; [email protected] 2 Department of Electrical Engineering and Information Engineering, College of Engineering, Covenant University, Canaanland, Ota P.M.B 1023, Ogun State, Nigeria; [email protected] 3 Department of Electronics and Communications Engineering, A’Sharqiyah University, Ibra 400, Oman; [email protected] 4 Department of Computer Engineering, Faculty of Engineering and Architecture, Istanbul Gelisim University, Avcılar, 34310 Istanbul,˙ Turkey; [email protected] 5 Department of Computer Science and IT, University of Lahore, Gujrat Campus 50180, Pakistan; [email protected] 6 School of Electrical Engineering, University of Ulsan, Ulsan 44610, Korea * Correspondence: [email protected]; Tel.: +82-52-259-1401 Received: 28 March 2020; Accepted: 21 April 2020; Published: 24 April 2020 Abstract: The standardization activities of the fifth generation communications are clearly over and deployment has commenced globally. To sustain the competitive edge of wireless networks, industrial and academia synergy have begun to conceptualize the next generation of wireless communication systems (namely, sixth generation, (6G)) aimed at laying the foundation for the stratification of the communication needs of the 2030s. In support of this vision, this study highlights the most promising lines of research from the recent literature in common directions for the 6G project.
    [Show full text]
  • 1G, 2G, 3G, 4G, 5G
    INTERNATIONAL JOURNAL FOR RESEARCH IN EMERGING SCIENCE AND TECHNOLOGY E-ISSN: 2349-7610 Overview on Generations of Network: 1G, 2G, 3G, 4G, 5G Vignesh. C. R Dept of MCA, Adhiyamaan College of Engineering, M.G.R Nagar (Hosur), Hosur-635 109 [email protected] ABSTRACT Evolution is the essence of impact left behind by every being, every technology. We have well seen the advancements in the field of Computer Network i.e. from a simple Telegraph invented in 18th Century to 5G Communication on the verge of being implemented in South Korea. Needs of human beings never ceases to terminate, but they surely do result in invention of new technologies to pacify them. In this paper, we provide an overview on Generations of Networks along with a brief introspection on 5G technology that will provide access to wide range of telecommunication services in accordance with service demands in multiuser environment. 1. INTRODUCTION 2. EVOLUTION OF MOBILE We can say that wireless phone standards have a life of their TECHNOLOGIES own since they are spoken of reverently in terms of 2.1. First Generation (From now on, referenced as 1G) generations. The ancient stone-age sounding 1G, or analog cellular, then like 80‟s rock came 2G, or digital cellular; 3G 1G cellular networks were invented in the 1980s. wireless, 4G, 5G and so on. The last decade stood witness to The key idea behind 1G was that the geographical area is remarkable burgeoning in the wireless industry, both in terms divided into cells (typically 10-25km), each served by a of mobile technology and its subscribers.
    [Show full text]
  • The Emerging Need for Fronthaul Compression.Pdf
    The Emerging Need for Fronthaul Compression David Brubaker, Strategic Marketing Manager, Altera, Now Part of Intel Wei Qian, FAE Manager, Altera, Now Part of Intel Melissa Sussmann, Solutions Marketing Manager, Altera, Now Part of Intel Yoshifumi Takafuji, Field Application Engineer (FAE), Altera, Now Part of Intel Mohammad Akhter, Architecture Director, IDT Trevor Hiatt, Product Manager, IDT WP-01265-1.0 White Paper The Common Public Radio Interface (CPRI) standard has shown a significant increase in bandwidth requirements as carrier aggregation and multiple-input multiple-output (MIMO) features of LTE-A are deployed. With maximum line rates at 24 Gbps and an increase in bandwidth requirements, compression techniques become a necessary part of CPRI core moving into the 4.5G and 5G era. This paper reviews the increase in requirements since 2006 (3G era) to 2016 (4.5G era). Even a maximum of 24 Gbps line rate will not have enough capacity in the near future to service the maximum downlink speeds defined by 3GPP R12 and techniques like compression are necessary today. In the case of LTE-A CPRI, compression will enable the fronthaul network to support LTE-A with minimal impact on the optics and fiber network. This white paper then reviews two viable compression technology offerings from Altera and IDT. Introduction First and second generation (1G and 2G) wireless Base Transceiver Station (BTS) systems had all functions such as radio frequency (RF), baseband, and power supply in a cabinet. Usually these systems require building space equipped with uninterruptible power supplies and cooling and network backhaul access, which restrict locations and made deployment of a cell-site expensive because each site require full infrastructure.
    [Show full text]
  • Guide to European Cellular Technology & Trends
    Guide to European Cellular Technology & Trends Table of Contents 3 Introduction 4 Key Cellular Technologies and Trends 8 LTE and LPWAN Use Cases 9 Future Predictions 11 Recommendations and Key Considerations for IoT Provider Selection Guide to European Cellular Technology 3 & Trends According to Gartner, Internet of Things (IoT) services spending was estimated at $284.8 billion in 20171. A recent study by Vodafone claims that nearly one third (29%) of global organisations, across industries, have adopted IoT2. ABI Research predicts there will be 3.68 billion IoT connections by 2019. The point is, IoT is making a massive impact on the world as we know it. From enabling the creation of new products and services, to introducing unprecedented levels of automation, to driving the Fourth Industrial Revolution, the IoT is truly transforming business practices and business models across industries. Simply put, without connectivity the IoT would not be possible. It is powered by a broad range of network technologies that facilitate the transfer of data among devices and systems, and IoT application developers must select the option(s) that works best for their unique requirements. The options include Wide Area Networks (WAN), Local Area Networks (LAN), and Personal Area Networks (PAN) and vary greatly based on categories such as bandwidth, mobility support, and throughput – as well as many others. Among Wide Area Networks (WAN), which account for the majority of business-oriented IoT applications, cellular connectivity is the most widely selected network technology with an estimated 540 million cellular IoT connections active in 20174. Even when drilling down to the world of cellular networks, it is made up of numerous technologies (i.e.
    [Show full text]
  • Nutrition Facts: 5Og Portions in Addition to Being Delicious, Our Breads Are an Excellent Choice for Anyone Seeking Good Nutrition
    Nutrition Facts: 5og portions In addition to being delicious, our breads are an excellent choice for anyone seeking good nutrition. Our ingredients are basic, whole, and unprocessed, and we are famous for our freshly ground whole grain flours, made every day in our store! These contain the natural bran and vitamin-E rich wheat germ for a difference you can smell, taste, and see. For comparison’s sake, the nutrition facts on this page are for portions mostly weighing 50-56 grams. These facts will allow you to compare nutrition facts of each bread side-by-side. However, please keep in mind that some of the slices of our pre-sliced loaves weigh approximately 62 grams. Monkey (96g) 310 7g 3g 10mg 470mg 56g 4g 26g 2g Cheddar Garlic (56g) 150 4g 0g 15mg 390mg 24g 6g 4g 1g Popeye (56 g) 140 1.5g .5g 5mg 430mg 27g 5g 4g 2g Asiago Pesto (56 g) 160 6g 1.5g 5mg 490mg 23g 4g 3g 1g Beer Bread (50 g) 112 .5g 0g 0mg 253mg 24g 4g 3.5g 4g Organic Bellingham Rye (50 g) 111 .5g 0g 0mg 366mg 24g 4g 2g 4g Challah Braid (56 g) 140 1g 0g 10g 260mg 28g 5g 5g 3g Cinnamon Raisin (50 g) 112 .5g 0g 0mg 261mg 26g 4g 8g 3g Cinnamon Raisin Swirl (56 g) 140 1g 0g 5mg 310mg 30g 4g 9g 3g Cinn. Raisin Walnut (50 g) 132 2g 0g 0mg 285mg 27g 4g 8g 3g Cinnamon Chip (50 g) 166 3g 1.5g 3mg 289mg 32g 3g 12g 1g Cranberry Orange (56 g) 140 .5g 0g 0mg 290mg 31g 4g 12g 3g Dakota Seed Bread (50 g) 143 4g 0g 0mg 272mg 24g 5g 5g 4g Garlic Cheese Loaf (50 g) 148 5.5g 4g 19mg 157mg 18g 7g 3g 1g Great Harvest White (50 g) 132 0g 0g 0mg 389mg 29g 3g 4g 1g High Country Crunch (50 g) 134
    [Show full text]
  • Features and Limitations of Mobile Generations
    International Journal of Engineering and Management Research, Vol. 2, Issue-1, January-2012 ISSN No.: 2250-0758 Pages: 57-61 www.ijemr.net Features and Limitations of Mobile Generations Taranpreet Kaur Assistant Professor, Department of Computer Science, Mata Gujri College, Sri Fatehgarh Sahib, INDIA ABSTRACT Mobile communication is the transfer of information over a distance without the use of enhanced electrical conductors/ wires. The distances involved may be short or long In the past few decades, mobile wireless technologies have experience 4 or 5 generations of technology revolution and evolution. Currently 5G term is not officially used. At present, 3G mobile phone systems are sustaining IP connections worldwide for all real and non- real time operations. Subsequently, the platform of 4G is formerly deliberated and it is sure that 4G comprises heterogeneous standards under a same umbrella, as in 3G but there is one exception of IEEE 802.XX wireless network connection which is present in this network from the initial progress phase. It is an emerging technology in all the fields of mobile communication such as internet access, location In 1947, researchers in AT&T and Bell labs based services, video conferencing system, mobile financial conceived the idea of cellular phones. AT&T requested services, mobile entertainment services etc. The users can the FCC (Federal Communication Commission) to use these applications at anytime and anywhere through mobile communication. The aim of this survey is to allocate a large number of radio spectrum frequencies so compare the challenges and issues that are involved in each that wide spread mobile telephone service would become generation and explained how the improvements have been feasible.
    [Show full text]