LuxTurrim5G Tekes Consortium Project Building key enablers for a Digital Smart City Smart 5G small cell street pole infrastructure for digital service ecosystem in future urban city environments Juha Salmelin, Nokia; Ilkka Ritakallio, Teleste Anssi Savisalo, Sitowise & Markku Heino, Spinverse 100 Lasissa! Smart city and environment, Helsinki, 12.12.2017
LuxTurrim5G Building key enablers for a Digital Smart City LuxTurrim5G is developing and demonstrating fast 5G network based on smart light poles with integrated antennas, base stations, sensors, screens and other devices. This joint project opens new digital services and business opportunities for a real smart city. Key Challenges Smart cities need digital service infrastructure to improve safety, energy efficiency, air quality, effectivity of transportation and quality of living However, the capacity of mobile networks will be far too insufficient due to the increased number of users and new digital services built and planned The problem can only be solved by using small cell 5G radio frequency technology & higher frequencies; this requires dense networks of antennas setting new requirements for the network infrastructure Project Goals and Results Develop & pilot key technical solutions and concept for smart light pole based 5G infrastructure, and business & service innovations Create an open access ecosystem for digital services Pilot services on navigation, information sharing & advertisement, weather monitoring and smart lighting Key Project Characteristics Highly multi-disciplinary joint R&D project developing composite and antenna materials, smart light pole design, miniaturized 5G base stations and integrated sensors The project creates novel digital services, business models and ecosystem 2.5 year project started 2017 including 9 companies and 3 research institutes, with project volume of 15 M (1st phase) from Tekes and the companies
Smart cities require fast communication networks NEED Our society and cities face great challenges, e.g. to improve safety, energy efficiency, air quality, effectivity of transportation and quality of living Smart cities need a new service infrastructure and a digital ecosystem enabling Development of relevant smart city services High data capacity for citizens New service and business opportunities for companies Opportunities for new micro-operators in the systems One common flexible total cost optimized high capacity 5G network
PROBLEM: Capacity of mobile networks Capacity of mobile networks far too insufficient due to the increased number of users and new digital services built and planned The problem can only be solved by using small cell 5G radio frequency technology & higher frequencies This requires dense networks of antennas setting new requirements for the network infrastructure Highways with 5G lamp post chain Smart city Highways with 5G lamp post chain Rural roads with 5G macro coverage SOLUTION: LuxTurrim5G LuxTurrim5G project develops & pilots smart light pole based 5G network infra for smart cities Smart light poles with integrated 5G technology, different sensors, active screens, cameras etc. From proof of concepts towards business Ecosystem for piloting new technical solutions, digital services & business models Smart city
LuxTurrim5G - Solution LuxTurrim5G develops and pilots concrete technology enablers and service concepts for open Smart City Digital Ecosystem Indoor/Outdoor connections Signal propagation through construction materials - RF permeable windows: Lammin Windows Operators Business models for: - Existing ones - New ones? Smart city services Examples: - Video surveillance, screens: Teleste - Air quality, weather: Vaisala - Location, navigation: Indagon - Lighting: C2 Smart Light -. 5G network High capacity, low latency Small cells -> many sites 5G network: Nokia Bell Labs Light pole: Exel Composites Radom materials: Premix City Infrastructure Light pole infra, power, data transport Infra planning: Sitowise Infra owner: Espoo, Public partners contributing in each research area: VTT, Aalto, TUT
LuxTurrim5G Smart 5G Light Pole + Outdoor Info Displays Composite pole Integrated air quality and weather sensors 360 degree smart camera 5G mmw base station with backhaul Positioning systems Infotainment displays Smart lighting etc.
Test Network Phase 1 5G test network at Nokia HQ Campus First two smart 5G light poles Infotainment display Baseline 5G infrastructure with connection to 5G core emulator Smart City 3D planning and modelling tool First pilot services and demos Nokia Headquarter campus, Espoo Test Network Phase 2 5G test network at Nokia HQ Campus 10 smart 5G light poles with 70GHz mmw base station 4,5GHz support base station mmw Mesh BackHaul 5G core (emulator) (Take5 / 5GTNF) open access ecosystem platform for digital services Advanced digital smart city services on top of 5G: positioning, image processing, information sharing, air/weather monitoring and smart lighting Kera Railway station Possible extension: Autonomous self-driving bus network to Kera Railway Station City of Espoo: Modern city infrastructure with integrated 5G ecosystem
LuxTurrim5G: Smart City Digital Ecosystem Creation Total budget 15M for 28 months (first phase) Indoors Construction materials - RF permeable windows: Lammin Ikkunat Operators Business models for: - Existing ones - New ones? Smart city services Examples: - Video surveillance, screens: Teleste - Air quality: Vaisala - Location: Indagon - Lighting: C2 Smart Light -. Nokia Bell Labs: - 5G small cells - Wireless backhaul - 5G Test network - Whole consortium coordinator 5G network High capacity, low latency Small cells -> many sites 5G network: Nokia Bell Labs Light pole: Exel Composites Radom, materials: Premix City Infrastructure Light pole, power, data transport Infra planning: Sitowise Infra owner: Espoo, Public partners contributing in each research area: VTT, Aalto, TUT
LuxTurrim5G confidential
LuxTurrim5G Building key enablers for a Digital Smart City - already today Contact: Markku Heino markku.heino@spinverse.com MEET US IN THE EXHIBITION! Read more: News article in English Press release (in Finnish) here Article in Tekniikka & Talous (in Finnish) here (pdf version here)