Case Helsinki Airport Expansion: the Benefits of Using Open Infrabim Workflow and Technologies BIM World Munchen 2019 - 26.11.2019

Case Helsinki Airport Expansion: The Benefits of Using Open InfraBIM Workflow and Technologies BIM World Munchen 2019 - 26.11.2019

Ilkka Tieaho, Infrakit Ltd Jarkko Männistö, Sitowise Ltd Petteri Palviainen, Novatron Ltd Lauri Hartikainen, Pointscene Ltd

4 EXPERTISE • Digital twins and map services • Visualizations and visualization strategies • BIM, GIS, City information models • Information management • Digital engineering • City planning and architecture • Point clouds and photogrammetric models • VR, AR, XR • Interaction and communication

PROJECTS • Raide-Jokeri light rail • Grown Bridges tram line JARKKO MÄNNISTÖ • Port of Oulu • Helsinki Airport BIM MANAGER • Science Park, Turku • Travel center, Tampere AURA, SERVICE MANAGER • Tammela District, Tampere • Verkkosaari District, Helsinki ARCHITECT • Central-Pasila, Helsinki SITOWISE 2013 - • Lahti Bypass 5 We are Building a Sustainable and Smart Living Environment.

Infrastructure Building Design and Consultancy Design and Consultancy Services Services Our expertise covers the entire Building and infrastructure life cycle Project Smart City Management Services Background

✓ 2003-2004: Ground Investigations and Surveying, Espoo City ✓ 2005-2006: Junior Project Engineer, (Infra projects), Ramboll ✓ 2006-2013: Junior Designer and Designer (Infra), Sitowise ✓ 2013-2016: Development Manager (BIM), Sitowise ✓ 2016-2019: Head Of Development (BIM), Sitowise ✓ 2019: Vice President, BIM Services, Infrakit

✓ +10 years: Responsible for Implementation and development of BIM-workflows in Design and Construction 20+ projects such as Helsinki Airport, Helsinki Pisara Rail, Tampere Travel Center, Eskola-Ylivieska, VT7 HaVa, Raide-Jokeri Light Rail

✓ +5 years: Project lead in 30+ BIM development and education Ilkka Tieaho projects with clients such as: Finavia, Tampere, Espoo, Helsinki, Vantaa, Kreate, Metropolia, Aalto, Turun AMK, FTA VP, BIM Services Design Construction

Other systems

Open BIM

CAD systems Model checker

Initial data Maintenance Outline of the presentation

▪ InfraBIM Development in Finland ▪ Helsinki Airport expansion project in a nutshell ▪ Open InfraBIM-workflow in Design ▪ Open InfraBIM-workflow in Infra Construction ▪ OpenBIM Data management ▪ OpenBIM in Communication and Collaboration: VR-model ▪ Helsinki Airport: Outcome & Conslusions ▪ Future with OpenBIM: Digital Twin and Simulations ▪ Future with OpenBIM: Pointscene Technologies and Cases

Image: PES Architects InfraBIM Development in Finland ▪ The built environment consist of ”different” entities ▪ To utilize the generated information in all different purposes and phases: Geographic • How to produce and manage data? Information Buildings • Clear processes, open standards, requirements and guidelines System / GIS ➢ Successful projects in practice InfraBIM development ▪ Finnish BIM is based on ”The Holy trinity” in Finland • Finnish way of implementing digitalization in infra design and construction • Common language and guidelines can be found: https://buildingsmart.fi/en/infrabim- en/

Common 1. Common InfraBIM Requirements InfraBIM ‒ What and how to model in different phases Requirements 2. Classification System ‒ ’The language’ InfraBIM Terminology 3. Data exchange is based on InfraBIM Inframodel ‒ Open formats: Inframodel3 (LandXML), IFC, GML Classification Data System Exchange The Helsinki Airport expansion project in a nutshell

Need and demand for the expansion ▪ To strengthen Helsinki Airport's position as the significant air traffic hub between Europe and Asia. ▪ To increase the annual capacity from today’s 20 Mio passengers to 30 Mio passengers in the future. The project is executed in co-operation with ▪ Owner: FINAVIA CORP. ▪ Infra and geo design: SITOWISE ▪ Infra construction: DESTIA ▪ Architectural design: PESARK ▪ Building Structural design: SWECO ▪ Building services engineering: GRANLUND ▪ Total investment with the airport expansion are ▪ Building geo design: SIPTI ~ 900 Mio. € ▪ Building construction: LEMMINKÄINEN ▪ Renewal of apron infra: Area is 90 football fields

Image: PES Architects OpenBIM workflow in Design Meeting ▪ Building and Infra (BIM) in the same software – basic combination model ▪ Design Quality Assurance ▪ Used in Design & Work Planning meetings

▪ Few examples: ▪ Supported excavation and sheet piling ▪ Pile foundation and drainage system ▪ Water supply line and blasting ▪ Demands – IFC and IM3 ▪ Design Using Open data exchange formats ▪ Softwares –> Open API’s ▪ TeklaBIM Sight, Trimble Connect, Solibri, Infrakit… ▪ Benefits ▪ Proactive co-operation ▪ Less errors and conflicts ▪ The most technical and economic design solution OpenBIM workflow in Designer’s quality assurance ▪ Key: Same data – different software – similar view ▪ Different parties in different phases ▪ Designer’s tools in desktop ▪ Design software ▪ Worksite software ▪ Infra construction machinery software - simulator

▪ ”Correct data flow” demands ▪ Use of open data formats throughout the process ▪ From design to construction and machines

▪ Benefits ▪ As-planned model (end- product) is compatible with construction machinery ▪ ”Do it correctly once” ▪ Saving time and money Data Management Challenges on Work Site Data Management Challenges at Work Site

Common data Common data

Common data Common data Common data OpenBIM-platform & Data management Designer ▪ Real Time View Surveyor ▪ BIM Coordinator ▪ Real Time View ▪ 3D-Win Model tool OpenBIM Cloud ▪ Design Model → ▪ BIM Coordinator Common Data Base As-Planned Model ▪ Surveying ▪ Combination Model Data Management ▪ Machine Control Model ▪ Desing Changes Data Sharing ▪ Surveying Model ▪ As-Built Model Collaboration ▪ As-Built Data

Work Machinery ▪ Machine Control Model Project Owner Site Foreman ▪ As-Built Surveying ▪ Real Time View ▪ Real Time View ▪ Machine Work Time ▪ Design Approvement ▪ Work Planning ▪ Efficiency ▪ Quality Control ▪ Quantity Management ▪ Preparedness Tracking ▪ Preparedness Tracking ▪ Transparency process ▪ Quality Control InfraBIM-based Construction – Work Site Actions

▪ Quality control at work site • InfraBIM quality documents from designer • As-Planned models • As-Built data by surveyors • As-Built data by machine control • Machine control accuracy check • Documentation ▪ Data management • BIM Coordinator • Common data naming ‒ Prearranged file names • Common Classification system ‒ Surface coding ‒ Feature coding • Common folder structure • Common rules for data handling OpenBIM-workflow in Infra Construction ▪ Quality control at work site ▪ Model checking ▪ Infrakit data management ▪ All data exist at Infrakit BIM Cloud ▪ Data sharing ▪ As-built approvement ▪ Documentation ▪ All data used by machine control ▪ Data sharing <-> ▪ 70 folders (including subfolders) ▪ 1150 files ▪ 110 background/warning maps ▪ As-Built model ▪ Digital quality assurance ▪ Finished product of construction ▪ Base for Maintenance model BIM in Communication and collaboration – The VR Model ▪ SAME DATA as used in Design and Construction phases ▪ REFINED DATA in to a Virtual model -tool to ▪ Communicate and Collaborate ▪ Used in: ▪ Project management ▪ One visual dashboard to all data. ▪ Support in decision- making. ▪ 4D/5D: Time and Costs ▪ User involved-process: ▪ Airport and maintenance staff, Stakeholders, Authorities… ▪ Better end product and more satisfied customer BIM in Communication and collaboration – The VR Model

▪ SAME DATA as used in Design and Construction phases ▪ REFINED DATA in to a Virtual model -tool to ▪ Communicate and Collaborate ▪ Used in: ▪ Project management ▪ One visual dashboard to all data. ▪ Support in decision- making. ▪ 4D/5D: Time and Costs ▪ User involved-process: ▪ Airport and maintenance staff, Stakeholders, Authorities… ▪ Better end product and more satisfied customer BIM in Communication and collaboration – The VR Model ▪ SAME DATA as used in Design and Construction phases ▪ REFINED DATA in to a Virtual model -tool to ▪ Communicate and Collaborate ▪ Used in: ▪ Project management ▪ One visual dashboard to all data. ▪ Support in decision- making. ▪ 4D/5D: Time and Costs ▪ User involved-process: ▪ Airport and maintenance staff, Stakeholders, Authorities… ▪ Better end product and more satisfied customer Outcome and Conlusions The Implementation of InfraBIM in project • Challenges turned in to a possibilities with seamless cooperation • Learning the ”Best Practises” by doing OpenBIM-technologies & Robust Data things in concrete management • Listen& Learn + Share information and • BIM was LEAN: Not ”storing the data” but be open to suggestions ”sharing the data” • The benefit of doing things once & correct • Substantial and definite correlation to • Better: Quality, Safety • Less: Costs, Time Project delivery is what counts?!? • Well On time and well under the budget • Clear success story Outcome and Conlusions

Digitalization is… 1. from the People 2. to the People 3. about the People

Common processes and technologies just Make it- ”the new and better way of working”- Possible [Esittäjän2.12.2019 nimi] Future with OpenBIM: Digital Twin and simulations 23 • Preliminary 5G network planning [Esittäjän2.12.2019 nimi] Future with OpenBIM: Digital Twin and simulations 24 • Preliminary 5G network planning • Outdoor lighting simulation [Esittäjän2.12.2019 nimi] Future with OpenBIM: Digital Twin and simulations 25 • Preliminary 5G network planning • Outdoor lighting simulation • Security solutions simulation [Esittäjän2.12.2019 nimi] Future with OpenBIM: Digital Twin and simulations 26 • Preliminary 5G network planning • Outdoor lighting simulation • Security solutions simulation • IoT sensor data: case air quality Improving situational awareness in construction sites with connected reality data

Lauri Hartikainen Co-founder & CEO [email protected] +358 50 543 5444 10+ years experience from technical and commercial roles working in digitalization of built environment.

Lauri holds a Master's degree in Geomatics from Helsinki University of Technology specializing in photogrammetry & multimedia technologies.

A drone, laser scanning & customer experience enthousiast with a vast knowledge on geospatial data collection, analysis & interpretation, and geographic information systems. LAURI HARTIKAINEN CO-FOUNDER & CEO Co-founder of Pointscene.com, a cloud solution improving situational awareness in construction sites with connected reality maps. Documentation Adapting to changes

Situational awareness

Analysis

Drone mapping Laser scanning

Cloud data 360° storages imagery COMMUNICATION WORK ORDERING AND PLANNING

RISK ASSESSMENT AND PREPARATION VOLUME CALCULATIONS AND MATERIAL LOGISTICS

SUPERVISION QUALITY CONTROL ONBOARDING QUALITY ASSURANCE

PROGRESS MONITORING AND DOCUMENTATION TRANSPARENCY TRUSTED BY KEHÄ I - RING ROAD / KEILANIEMI

INFRA: DESIGN & BUILD CONTRACT TUNNEL: PROJECT MANAGEMENT CONTRACT VALUE: Total 100 MEur PROJECT OWNER: City of Espoo PRIME CONTRACTOR: SRV Infra DESIGN: Sweco + City of Espoo designers STAKEHOLDERS: Transport agency, regional ELY centers, city TUNNEL, URBAN HIGHWAY AND HOUSING / COMMERCIAL ESTATES

CONSISTING OF:

1,5KM HIGHWAY 4KM ROADS AND UTILITIES 4KM BICYCLE ROADS AND WALKWAYS 440M CONCRETE TUNNEL 3 INTERCHANGES 7 BRIDGES 15 RETAINING WALLS 1,5KM NOISE BARRIERS CHALLENGES:

COMPLEX TECHNICAL SYSTEMS

MOVING OF UTILITY NETWORK IN MULTIPLE PHASES

COMPLEX TRAFFIC ARRANGEMENTS

COOPERATION WITH OTHER PROJECTS IN THE AREA

WORK JOINTS TOWARDS

CHALLENGE: Managing the project in an active “highway” location (35 000 vehicles / day), its construction site logistics, temporary traffic arrangements, as built documentation and validation.

SOLUTION: Monthly drone mapping and accurate photogrammetric 3D modeling for the whole site (captured by Tietoa Finland Oy). Data management and access in online 2D/3D/360° environments provided by Pointscene and Tietoa. CASE KEILANIEMI

MAIN BENEFITS: Real-time understanding on site status and its progress. Validating information and getting up-to-date measures for design. Faster re-routing plans. Volumetric analysis. Updating initial designs with accurate status maps.

ADDITIONAL: Improved work area reservations for equipment and tasks. Data suitable for ramp and support wall design. Improved data reach © Images SRV Infra © Images SRV Infra

BENEFITS GAINED

REDUCED NEED FOR FIELD VISITS

IMPROVED COMMUNICATION BETWEEN STAKEHOLDERS

IMPROVED PLANNING OF ACTIONS AND SCHEDULES

LESS SURVEY WORK ORDERS

IMPROVED AND FASTER DESIGN OF RE-ROUTING

STREAMLINED WORK IN PROJECT AREA JOINTS

EFFICIENT PUBLIC RELATIONS / EXTERNAL COMMUNICATION

DOCUMENTATION AND HISTORY PRESERVATION

Lauri 36-46

THANK YOU! #BIMplify

Lauri Hartikainen, CEO [email protected] +358 50 543 5444 THANK YOU! QUESTIONS?