The 5G Automotive Association (5GAA) is a global association with over 100 member companies from the automotive and telecommunications industries. Partners who are active in the broader telecommunications and automotive ecosystem, such as universities, research bodies, associations, and public authorities also joined the ecosystem. Each of the 5GAA members bring added value to the 5GAA mission through their contributions and visionary mindset. Together, the key partners foster collaboration and exchange to path the way towards the new mobility era.

Projects

European Projects

5GCAR

The Fifth Generation Communication Automotive Research and innovation, 5GCAR, is a 5GPPP Phase 2 project. The 5GCAR research and innovation initiative addresses the stringent requirements posed on the wireless communication system by bringing the fields of telecommunication and automotive closer together and investigating the benefit of 5G for demanding automotive use cases.

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5G-DRIVE

The Horizon 2020 project 5G-DRIVE: 5G HarmoniseD Research and TrIals for serVice Evolution between EU and China (2018-2021) aims at trialling and validating 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.

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5G-EVE

5G EVE is the European 5G validation platform for extensive trials. The goal is to implement and test advanced 5G infrastructures in Europe. The 5G-EVE concept is based on further developing and interconnecting existing European sites in Greece, Spain, France, and Italy to form a unique 5G end-to-end facility.

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5G-MOBIX

The 5G-MOBIX project is co-financed by the European Commission within the framework of the Horizon 2020 programme. 5G-MOBIX will develop and test automated vehicle functionalities using 5G core technological innovations along multiple cross-border corridors and urban trial sites, under conditions of vehicular traffic, network coverage, service demand, as well as considering the inherently distinct legal, business and social local aspects.

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5G ROUTES

5G-ROUTES is a 5G-PPP Phase 3 project whose aim is to validate through robust evidence the latest 5G features and 3GPP specifications (R.16 & R.17) of Connected and Automated Mobility (CAM) under realistic conditions. In particular, it will conduct advanced large-scale field trials of most representative CAM applications to demonstrate seamless functionality across a prominent 5G cross-border corridor (Via Baltica-North), traversing Latvia, Estonia and Finland.

5G-CroCo

The Fifth Generation Cross-Border Control, 5G-CroCo, is a 5G-PPP Phase 3 Innovation Action. 5GCroCo aims to trail 5G technologies in the cross-border corridor along France, Germany and Luxembourg. In addition, 5GCroCo also intends to define new business models that can be built on top of this unprecedented connectivity and service provisioning capacity. Ultimately, 5GCroCo will impact relevant standardization bodies from the telco and automotive industries.

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5G-CARMEN

5G for Connected and Automated Road Mobility in the European Union, 5G-CARMEN, will build a 5G-enabled corridor from Bologna to Munich to conduct cross-border trials of 5G technologies in four major use cases: cooperative manoeuvring, situation awareness, video streaming, and green driving. Multi-tenancy and neutral host concepts will be leveraged to deliver a final platform capable of enabling new business models. 5G-CARMEN will complement C-V2X with LTE and C-ITS technologies, targeting interoperability and harnessing a hybrid network.

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CONCORDA

The CONCORDA project, launched in October 2017 and funded by the Connecting Europe Facility, will contribute to the preparation of European motorways for connected and automated driving and high-density truck platooning, by providing adequate connected services and technologies in terms of interferences and interoperability.

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Global5G

Global5G is a Coordination and Support Action within Europe’s 5G public and private partnership (5G PPP) that is working on both fronts through its focus on vertical industries and small cell deployments. It works closely with the private side of the 5G PPP – the 5G Infrastructure Association (5G-IA) to help boost impacts through diverse working groups and task force activities.

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5G MED

5GMED is an innovative H2020-funded project that focuses on a sustainable 5G deployment model for future mobility in the cross-border corridor between Spain and France. Aside from the implementation of four different use cases, 5GMED’s trials seek to enhance roaming transitions across MNOs and neutral hosts for both Cooperative and Connected Automated Mobility (CCAM) and Future Railway Mobile Communications Systems (FRMCS).

NordicWay

NordicWay 2 is a C-ITS pilot project that enables vehicles, infrastructure and network operators to communicate safety hazards and other information from roads in the Nordic countries between different stakeholders. The project is a collaboration between public and private partners in Finland, Norway, Sweden and Denmark and builds on the achievements of the previous NordicWay project.

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Ensemble

ENSEMBLE wants to communicate the economic, societal and environmental impact of decisions surrounding platoon forming and dissolving. ENSEMBLE also strives to modernize the transport system by finding an optimal balance between fuel consumption, emission level, travel times and impact on highway traffic flow, resulting in reduced impacts on climate change, air pollution, noise, health and accidents.

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ARCADE

ARCADE is a Coordination and Support Action that coordinates consensus-building across stakeholders for sound and harmonised deployment of Connected, Cooperative and Automated Driving (CAD). It supports the development of a common approach to the development, testing, validation and deployment of CAD in Europe and beyond, and aims to establish a joint stakeholders forum in order to coordinate and harmonise automated road transport approaches at a European and international level.

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5G BLUEPRINT

5G Blueprint is a H2020-funded project that aims to design and validate technical architecture, business models and governance for interrupted cross-border teleoperated transport based on 5G connectivity. Its objective is to provide a blueprint for operational pan-European deployment of teleoperated transport solutions in the logistics sector, and beyond. It explores the economics of 5G in cross-border transport and the issues of responsibility and accountability within the value chain.

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STARDUST

Stardust is an H2020 Smart Cities project, which brings together exemplary models of smart, highly efficient, intelligent, and citizen-oriented cities. The project focuses on intelligent solutions for energy, mobility and ICT, to be integrated into cities together with innovative business models. One of its objectives is to create and deploy open city information platforms, that allows cities to engage actively with each other and to share information. The project’s results will serve as a blueprint for replication across Europe and abroad.

National Projects

ConVeX 

Funded by the German Ministry of Transportation and Digital Infrastructure (BMVI) in the program  “Automated and Connected Driving on Digital Test Fields in Germany”, the objective of the project ConVeX is to set up a testbed for the first field tests of 3GPP LTE Release 14 Cellular V2X (C-V2X) and validate its performance and feasibility.

The 5G Automotive Association (5GAA) is comprised of the Executive Committee, the Board, the General Assembly, and the Working Groups. Together, the different bodies ensure the successful running and operations of the association.

The evolution of driving automation technology is gradually reducing our dependence on human drivers. Tele-operated Driving (ToD) technology separates drivers or driving automation systems from the physical vehicle, effectively operating it from a remote location. ToD thus enables shared remote assistance or remote driving services from a central location, which has the benefit of reducing labour costs (fewer drivers), while improving safety and comfort for the drivers.

This 5GAA white paper describes the technical and business framework, and a visionary roadmap for ToD services. Different ToD types, which are classified according the impact on the operation level of an automated vehicle, are studied under the different environments such as automated vehicle parking areas, or public roads or even using different mobile networks. This white paper is an abstract of the following published 5GAA ToD technical reports, where interested readers can find further technical details and business considerations on ToD services.

Read the full White Paper here.

5GAA shares the latest C-V2X developments at ITS World Congress (Hamburg): “5G will have the most revolutionary impact by reducing accidents and saving millions of lives.”

HAMBURG, 13 October 2021 – 5G-powered vehicles are foreseen to hit the market this year in Europe. More and more advanced vehicle-to-everything (V2X) use cases geared towards enhanced road safety, improved traffic efficiency, greener environmental impact and more comfortable driving are being deployed worldwide on a large scale. The 5G Automotive Association (5GAA) and its members showed the latest developments during ITS World Congress in Hamburg.

5G-V2X spearheading the path to automated driving

Today, the 5G-V2X (Vehicle-to-Everything) technology already enables fully connected and automated mobility with LTE-V2X technology. Vehicles and infrastructure can exchange relevant information via LTE-V2X through direct communication mode (not requiring network coverage) or mobile network communications mode, creating a real-time connection between all road users.

Many automotive services can be supported by the current global cellular standard LTE-4G, seen as an essential foundation for further progress.  Millions of vehicles on the continent are connected via 4G-LTE already, and industry analysts estimate that over 70% of all new vehicles sold are now 4G equipped. That said, 5G-V2X will enable more advanced connected mobility services and offer a clear path to automated driving – while maintaining service-level interoperability with pre-existing LTE-V2X vehicles.

5GAA will help prepare tomorrow with the ITS Directive revision, advocating a neutral approach on technology. Given the strong momentum in China and in the United-States, Europe needs a future-proof framework to stay in a leading role globally. Indeed, advanced driving is taking shape globally. At the moment, China is the only country that has 5G Cellular-Vehicle-to-Everything (C-V2X) enabled vehicles commercially available on the market. To this date, 14 C-V2X vehicle models are commercialized. In the United States, Ford has committed to deploy C-V2X in all new vehicle models from early 2022. In Europe, 5G-powered vehicles are foreseen to hit the market still this year thanks to BMW.

“When applied to the automotive field, 5G will have the most revolutionary impact by saving millions of lives and reducing accidents on roads”, 5GAA CTO Maxime Flament said. “The combination of long- range and short-range connectivity C-V2X offers, delivers the optimal setup for safety and efficiency of traffic, in addition to improving environmental footprints.” Global deployment of C-V2X technology will have a sustainable impact in the world.

In the next two to three years, 5GAA expects to see mass deployment of C-V2X use cases geared towards improving traffic efficiency and road safety around the world. Vehicle commercialization is not enough however: the whole ecosystem – cars, cloud, map, network, positioning but also the road – needs to be C-V2X friendly. Therefore, 5GAA offers a platform to foster collaboration between top tier automotive, technology and telecommunications companies for them to develop end-to-end connectivity solutions for future mobility and transportation services.

Cover more digital roads via enhanced digital mobility services

At ITS World Congress, the world’s largest and most prominent event focused on smart mobility and the digitalisation of transportation, 5GAA experts and member spokespersons shared their views on how to accelerate deployment of the latest technology innovations and how to ensure future-proof investments. They shared the needs of road operators for their digital infrastructure and of automakers (OEMs) for digital mobility services, and zoomed in on digital roads in urban areas and cooperation models enabling deployment and use of 5G infrastructures for connected and automated mobility.

Furthermore, key members of the 5GAA shared their latest technology developments with a focus on Vulnerable Road Users (VRUs), among which:

• A system that warns of accidents between and help protect connected vehicles and cyclists – or other vulnerable road users such as pedelec, scooter riders and pedestrians developed by Continental and Deutsche Telekom. The solution calculates the paths taken by cars and bicycles. If they are likely to cross at the same time, the system warns both road users via mobile communications in real-time. Initial road tests have been successful.
• A Location-as-a-Service algorithm that improves the positioning of road users, in which vehicles exchange data via simulated communication (5G) by Fraunhofer Institute FOKUS. The aim is to warn drivers of a collision with a cyclist, an e-scooter rider of road damage, or to guide a blind person to the right government office or the bus door – for which highly accurate localization is always of fundamental importance.
• A demonstration of a connected e-bike, where Qualcomm (alongside company Spoke) is showcasing a new hardware solution designed to enable vehicles to identify VRUs using C-V2X.

And more. Request the full list of demonstrations on demand at 5GAA@teamlewis.com

Download the press release here.

The international collaboration of tech leaders and public sector on a live connected car trial will pilot new roaming technology for traffic safety on 2 December 2021.

2 DECEMBER 2021, Turin (ITALY) – On 2 December, the City of Turin (Italy) will host a live trial of new driver and pedestrian safety technology allowing near-real-time notification of roadway hazards through 5G-Edge networks. This trial is one of a series conducted internationally by a historic public-private collaboration over the next few years, organized by the 5G Automotive Association (5GAA) and eight member companies representing leading technology companies from around the globe.

“This collaboration between the 5G Automotive Association and its member companies is the perfect example of how we can secure safety on roads and build the future of connected mobility,” said Maxime Flament, CTO of 5GAA. “This time, demonstrated use-cases take place in Europe through 5G and Edge networks—I look forward to seeing more in the future in the United States and other continents.”

The promise of 5G and Edge technology has long been anticipated to deliver new connected services that will revolutionize daily life, with the estimated new economic opportunity stretching into the trillions USD over the next 10-years_1. The global connected car market size alone is projected to reach USD 191.83 billion by 2028.

5G transmission speeds and so-called “Edge” servers—locally installed, high-powered computers capable of running Artificial Intelligence programs—open the door to smart city technologies like near real-time traffic management and innumerable other business applications. The connected car concept uses this high-speed and Edge computing technology to communicate with car sensors and pedestrian smartphones, via a user-authorized mobile app—about traffic hazards, like accidents and road construction—to Pedestrian and in-vehicle driver safety and efficient navigation.

“The connected car concept is an important validation of the combined value of Edge, of 5G and IOT,” said Paolo Campoli, Head of Global Service Provider sector at Cisco, “We are so excited to take part in this event that creates a platform for innovation in 5G IOT. The integration of 5G mobility, applications and data processing at the Edge requires expertise from very different domains—expertise that Cisco and Partners can bring. It includes elements of automation, intelligent infrastructure and workloads control, cybersecurity protection and end-to-end application observability. The live trial in Turin is a great opportunity to show how the intersection of Edge, 5G and IOT based on Standards creates a platform to connect Service Providers and Industries.”

This live international trial attempts to solve one of the more technical challenges of making the connected car concept a daily reality. The 5G networks underpinning the concept are managed by communication service providers (CoSPs) according to geography, each with different edge solutions that must be able to communicate without interruption of the V2X applications as drivers cross borders. Roaming services—the ability to make a call regardless of the network—is one early success of multi-mobile network operators (MNO). Demonstrating the connected car concept can work in a roaming scenario is the core objective of the live trial and represents the first of any such attempt in Europe.

“Telecom operators will have to play a major role by enabling applications and services for the connected car ecosystem,” says Shamik Mishra, CTO Connectivity, Capgemini Engineering. He further adds: “Capgemini is excited to bring its innovative federated MEC (Multi-Access Edge Computing) platform and applications to this 5GAA trial to demonstrate the true value of intelligent industry, leveraging data in the vehicles and edge-cloud. The trials serve as a stepping-stone for realizing the potential for automakers to provide services to their connected cars from the network”. The trial will demonstrate how the car manufacturers, MNOs and technology providers come together to help overcome the challenge of when a vehicle moves from one network boundary to another or Inter-MNO handover of MEC service.

The Turin live trial addresses three objectives:

• Objective 1: Multi-MNO scenario: How can a vehicle, which has radio access to MNO A, use a MEC application, which is operated by MNO B -> Interworking between MNO‘s (by NOT losing the benefits of low latency)
• Objective 2: Global operational Availability: How can an OEM as the MEC application developer be sure, especially on a global basis, that a MEC application works in the same way if it’s operated by MNO A, or if it’s operated by MNO B
• Objective 3: Multi-MNO with roaming scenario: Where the two operators can seamlessly transfer the V2X service from one operator to the other as the car OEM moves from one geo to the other in a roaming scenario. Typically, when an in-vehicle driver does a cross-border travel that involves two operators.

One of the key benefits of the trial is the value demonstrated by bringing in a large ecosystem to help develop not only the technology but also build the business case and model that will help drive the market adoption for 5G and C-V2X to help into the digital transformation of smart cities of the future. To succeed in this endeavor, it will need a village and investment from both public and private sectors to help adopt this new technology to provide a quality of life for all citizens.

The city of Turin is delighted to facilitate the 5GAA Multi Operator MEC Trial with its Smart Road infrastructure and the technical support of 5T. We see – Chiara Foglietta, Deputy Mayor for Mobility, Ecological and Digital transition, Innovation says – C-V2X services as fundamental to develop a sustainable and safe mobility for all the citizens, whatever transport means they use. In the future, Turin wants to continue the collaboration with 5GAA and offer its Smart Road infrastructure for further scale in the live traffic within Torino City Lab and the new project “ Turin House of emerging Technologies – CTE NEXT”

“As TIM, we are honored to be hosting in Turin such a challenging trial by leveraging our Innovation Lab competencies and our pre-commercial instances of Edge Cloud,” says Daniele Franceschini TIM VP Innovation, Standard and Portfolio. “The federation model implemented with our partners enables a ‘continuum’ between Edge Cloud instances allowing players from the automotive industry and beyond to benefit from a seamless cloud experience across country boundaries.”

“Greater connectivity speeds, improved hardware and expanded software expertise have opened new opportunities for Stellantis with safety systems being one of the many areas we focus on,” said Mamatha Chamarthi, Head of Software Business and Product Management. “Through smart and strategic partnerships such as 5GAA, we will capitalize on next-generation systems and prove out the technology.”

The demonstration brings new learnings for various players across the value chain and creates a testbed for trying out new 5G connected car services at the Edge in subsequent phases. The Turin Live Trial will run throughout the day on 2 December 2021.

BACKGROUND

In this live trial, Telecom Italia (TIM), Telefonica, BT/EE will demonstrate the NSA 5G networking capabilities and the Edge Cloud solution to deliver connected car use cases at the Edge of their networks for their customers. TIM makes its Innovation Lab facilities available and its commercial 5G network with pre-commercial Edge Cloud specific features such as Local Break Out, that together with the federation of edge platforms in TIM, BT/EE and Telefonica make the use cases available for roaming users from BT/EE and Telefonica.

The three companies are hosting Capgemini’s ENSCONCE MEC platform, built upon the Intel Smart Edge Open toolkit, the Intel® Distribution of OpenVINO toolkit, and Intel hardware to enable connected car use cases at the Edge on 2^nd Gen Intel Xeon Scalable processor equipped Cisco Servers. Intel Smart Edge Open (formerly known as OpenNESS) is a royalty-free edge computing software toolkit for building optimized and performant edge platforms.

“The international live trial of building and provisioning Connected Car edge services in a multi-operator scenario is a transformative 5G and Edge use case,” said Renu Navale, Vice President and General Manager of Smart Edge Platforms Division at Intel. “This trial demonstrates the possibilities that 5G connectivity and edge computing can bring to connected car solutions, when the broad ecosystem collaborates and uses Intel technologies such as Xeon processors, Smart Edge Open and OpenVINO.”

Capgemini’s ENSCONCE MEC Platform provides multi-tenancy and multi-MNO MEC federation capabilities. The visual compute applications for pedestrian detection and tracking supported by Capgemini’s Orbital Car Situational Awareness V2X platform. To realize the Active and Passive Vulnerable Road User (VRU) use cases, Cisco provides the Edge infrastructure based on CISCO UCS Servers (the Unified Computing Systems that combines computing, network and management in a cohesive architecture) hosting the ESCONCE platform, used to demonstrate Virtual-RSU and host V2X applications that are based on the Intel Xeon Scalable Processors and Intel HDDL-R Visual Accelerators. Harman International and Capgemini provide the Virtual-RSU and RSE solutions respectively to realize various V2X use cases with location-aware and AI inferencing technologies. Harman also offers V2X Application Server and a 5G enabled TCU that integrates seamlessly with Stellantis/FCA car and hosts V2X applications.

“It is key that operators and industry partners collaborate to explore the technical feasibility and benefits to unlock the new business opportunities and services to our customers. In this project, we are jointly evaluating the potential to federate edge cloud compute capabilities across multiple geographies to support low latency use cases, including key connected car use cases being delivered as 5G edge services in a multi-MNO, multi-OEM environment,” said Sunil Joshi, Senior Manager, Global Roaming Products at BT/EE.

“Telecom operators will have a key role in supporting V2X services and this trial demonstrates the value of leveraging mobile architecture, federating edge platforms and allowing local break out in visited network. Such an approach as defined in the GSMA Operator Platform Group allows customers and developers to deploy their applications across multiple operator domains, and our end users to have the best latency and customer experience when accessing their services,” said Juan Carlos Garcia,  Senior Vice-President of technology innovation and ecosystems, Telefonica.

“At Harman, we are focused on building connectivity solutions at the intersection of 5G, V2X and Edge Computing that will build more equity on the road for all users,” said Mahsa Nakhjiri, Director, Product Management. “While these technologies can unlock many new use cases and experiences, the most important element of any solution in this space is safety.  As programs such as this one fueled by the collaboration of industry leaders and organizations like 5GAA bring a new degree of safety to users, they will also lead to a higher level of confidence in autonomous vehicles.”

Download the event visual here

Watch the video of the event here

Source: Harbor Research_1.

Europe needs a harmonized, future-proof regulatory approach that stimulates innovation and recognizes the industrial timeline and evolutionary path of technologies, conducive of European competitiveness and fostering the development of innovative business models. Innovation through C-V2X technology and sustainability-related opportunities for connected mobility were at the heart of the “5G: Connected Mobility in the Digital Age” conference hosted by the 5G Automotive Association (5GAA).   

BRUSSELS (BELGIUM), 29 September 2021 – The 5G Automotive Association (5GAA) organized a conference bringing together EU representatives, public authorities, and the connected automotive ecosystem to the heart of Europe at its latest event, 5G: Connected Mobility in the Digital Age. Main objective? Discuss the ongoing challenges and opportunities brought about by the digitalization of road transport on the continent.  

From the latest state-of-play and capabilities of Cellular-Vehicle-to-Everything (C-V2X) to the EU regulatory framework and the importance of the 5G roll-out, the 5GAA-branded conference emphasized the ongoing momentum of the technology in Europe as it supports more and more advanced use cases to ensure safer roads and achieve lower emissions globally.  

“When applied to the automotive field, 5G will have the most revolutionary impact by saving millions of lives and reducing accidents on European roads”, 5GAA CTO Maxime Flament said. “The combination of long-range and short-range connectivity C-V2X offers, delivers the optimal setup for safety and efficiency of traffic, in addition to improving environmental footprints. We believe the European Union can achieve its Green Deal climate targets for 2050, if only it boosts the digitalization of its roads – landing a rapid and efficient deployment of 5G along road networks.” 

Starting today with LTE-V2X technology, 5G-V2X is paving the way for fully connected and automated mobility. Vehicles and infrastructure can exchange relevant information via LTE-V2X through direct communication mode (not requiring network coverage) or mobile network communications mode, creating a real-time connection between all road users. Many automotive services can be supported by the current global cellular standard LTE-4G, seen as an essential foundation for further progress. As a combination of LTE-V2X and 5G NR, 5G-V2X will enable more advanced connected mobility services and offer a clear path to automated driving – while maintaining service-level interoperability with pre-existing LTE-V2X vehicles. It is thus of utmost importance that the revised Intelligent Transport Systems framework encompasses this tech evolution for Connected and Automated Mobility (CAM) for Europe.  

Connected vehicles must reach a critical mass to impact emissions reduction significantly. The Association reiterated that establishing an innovative and investment-friendly regulatory framework that remains technology-neutral will boost Europe’s competitiveness and the number of connected vehicles on the road. As such, a seamless interaction among all stakeholders involved will be pivotal for road operators and public authorities across Europe to meet their policy objectives and enable a smooth service experience across all value-chains – to ensure a smooth 5G roll-out and robust ecosystem cooperation in the global evolving transport ecosystem. 

“Our Sustainable and Smart Mobility Strategy sets out milestones for the transformation of our transport system – and Cooperative, Connected, and Automated Mobility will play a key role: by 2030, we expect automation to be deployed at a large scale” stated Commissioner Vălean. “Automation will be a driver to help make 100 European cities climate-neutral by the same date.  And we have another important milestone to reach: by 2050, the fatalities for all modes of transport in the EU should be close to zero. Automated mobility is expected to contribute immensely here. My expectations are high, but so is the potential!” 

Indeed, the Association had the pleasure to have European Commissioner for Transport Adina-Ioana Vălean open the conference and address the attendees. The event welcomed high-level representatives such as Daniel Mes, Cabinet of Executive Vice-President for the European Green Deal Frans Timmermans, Charlotte Nørlund-Matthiessen, Cabinet of Commissioner for Transport Adina-Ioana Vălean, Member of European Parliament Henna Virkkunen, Peter Stuckmann, DG CONNECT Head of Unit Future Connectivity Systems, the European Cyclists’ Federation (Jill Warren, Chief Executive Office), Spain’s Directorate-General for Traffic (Ana Isabel Blanco Bergareche, Associated Deputy Director), the City of Turin (Nicola Farronato, Head of Innovation) and the Swedish Transport Administration (Hamid Zarghampour, Chief Strategist Connected and Automated Transports). It also witnessed a strong ecosystem presence, with speakers from 5GAA members BMW, Stellantis, Volvo Cars, Ford, HERE Technologies, Telefonica, TIM and Huawei. 

The 5G Automotive Association (5GAA) is glad to announce its participation to the Global Certification Forum (GCF) webinar “C-V2X Certification and the Roadmap to Connected Mobility” on 6^th October 2021, at 4 pm CEST.

The event will bring together industry experts from vehicle manufacturers, equipment vendors, test houses and certification authorities to discuss why certification is key to the effective rollout of C-V2X systems and how it can be implemented successfully now.

Maxime Flament, 5GAA Chief Technology Officer, will hold a session to disclose the current standard landscape and the global market opportunities for connected vehicles. Moreover, he will join a panel discussion on the GCF’s C-V2X certification programme and how it will benefit several actors of the connectivity ecosystem.

High-speed wireless communications between vehicles and infrastructures, especially cellular vehicle-to-everything (C-V2X) communications, are crucial for the development of autonomous vehicles. Proven interoperability between C-V2X devices is essential to ensure the safety and reliability of such systems.

Since 2019, 5GAA and GCF have been collaborating to investigate the principles and framework for a certification programme – designed specifically for C-V2X technologies. A few months ago, the two partners went one step further by signing a new agreement on a programme that will support the drive for interoperability, reliability, and safety of emerging cellular vehicle-to-everything (C-V2X) systems. A programme that will enable manufacturers to certify their C-V2X capable products – including onboard units (OBU) and roadside units (RSU) – for C-V2X PC5 Mode 4 functionality, thus providing a trusted foundation for C-V2X applications globally.

Join the webinar to discover more about the progress to the full interoperability, reliability and safety of emerging C-V2X systems.

More information and agenda of the event here.

Registration here.

This White Paper describes the new challenges in the treatment of functional safety arising from the introduction of connected and distributed functions, which are typical for cellular vehicle-to-everything (C-V2X) applications. A dedicated 5GAA technical working group performed a detailed analysis to determine, propose, and evaluate possibilities for mobile network operators, vendors, and any further identified stakeholders to provide vehicle original equipment manufacturers (OEMs) what they need to treat safety in new use cases enabled by C-V2X technologies.

Read the full White Paper  here.

The 5G Automotive Association (5GAA) – with the engagement of EU representatives and stakeholders of the C-2VX ecosystem – has discussed the latest developments, opportunities, and challenges presented by connected mobility and 5G-V2X technology at the Mobile World Congress Barcelona 2021.

BARCELONA, 28 June 2021 – The 5G Automotive Association (5GAA) presented the latest global deployments of ‘Cellular Vehicle to everything’ (C-2VX) and 5G technologies at GSMA’s Mobile World Congress Barcelona 2021. The conference offered an overview on the broad-scale improvements that connected mobility can bring to the global automotive system, highlighting the benefits the technology brings in Europe and beyond. 

The association disclosed the last global updates of 5G-V2X technology which will enable real-time connection between vehicles and their surroundings – starting today with LTE-V2X technology. 5G-powered vehicles are expected to hit the European market this year, as 5GAA members are leading C-V2X deployment through network based, direct communications on the continent. Technological progress supports more advanced use cases and the combination of long-range and short-range connectivity will grant the optimal setup for safety and efficiency of traffic.

“In the next two to three years, our association expects to see mass deployment of vehicle-to everything (V2X) use cases geared towards improving traffic efficiency and road safety around the world”, said 5GAA Director-General Johannes Springer. From 2024 onwards, 5GAA further anticipates the large-scale introduction of advanced safety and automated driving use cases supported by C-V2X. 5GAA supports the ecosystem by identifying these required use cases and services which are expected to be enabled by 5G-V2X in the coming decade. This enables European stakeholders to engage and collaborate in order to scale up V2X services and deliver societal benefits.

5GAA also underlined the strong need for a harmonised regulatory approach that will stimulate innovative business models and grant European competitiveness. The association favours a technology-neutral regulatory framework that will be focused on service delivery and will foster market-led innovation. Only an enabling and future-proof regulatory environment, conducive to C-V2X rapid deployment by OEMs and road authorities, will improve road safety and reach climate-neutrality.

The association highlighted 5G-powered vehicles are already commercialized in China. However, there are some relevant improvements in C-V2X implementation and 5G accessibility on roads in Europe. Many cities and road operators are starting to offer internet interfaces with real-time traffic information such as red light space, slippery roads and even wrong-way-drivers warning.

For one, Dieter Hötzer – Vice President Automated Driving Systems at Bosch – illustrated the Wrong Way Driver Solution developed by the 5GAA member company, as a clear example of technology that greatly impacts road safety. The software needs a GPS signal transferred to a cloud system that alerts drivers going the wrong way and warns other vehicles in the danger zone, sending out almost instant push notifications.

5G provides a revolutionary impact on the automotive system bringing several benefits and it is the result of a steady technology evolution. While it improves traffic efficiency minimising travel times and traffic jams, it also increases road safety by reducing road fatalities.

“Ensuring rapid and efficient deployment of 5G along broad networks is critically important to the future of mobility and will result in numerous safety benefits” concluded Springer.

This STiCAD work item seeks to determine, propose and evaluate possibilities for telecommunication operators, vendors, and any further identified stakeholders to provide what is necessary in order to enable the car OEM to better treat safety for systems that exist beyond a single-vehicle. To achieve this, it was decided to find representative safety requirements for two selected use cases that cover the V2X scenarios of direct communication and network-based information delivery.

Read the full technical report