On 25 October 2024 , the 5G Automotive Association (5GAA) demonstrated the latest innovations in the Cellular Vehicle-to-Everything (C-V2X) technology family to help achieve “Vision Zero” for all road users. The demonstrations illustrated the potential of 5G-V2X to enable new use cases integrated across multiple automakers, service providers, and mobile network operators.
For the very first time, 5GAA demonstrated 5G-V2X Direct technology integration in Audi and BMW vehicles with the support of 5GAA members Autotalks, Bosch, Commsignia, and Fraunhofer FOKUS. This demonstration illustrated how technology can alert drivers about pedestrians and cyclists even before they can see them, leveraging sensors and a camera feed from other vehicles. The demonstrations showed the high bandwidth and low latency performance characteristics of 5G-V2X Direct using ETSI Release 2 messages.
5GAA members Bosch, Commsignia, Deutsche Telekom, Ericsson, Keysight Technologies, LG Electronics, Mercedes-Benz and Vodafone, and the Coalition for Cyclist Safety, showcased ready-to-deploy, interoperable applications to increase awareness of vulnerable road users and emergency vehicles on public roads in central Berlin. Safety awareness alerts were delivered via 4G and 5G networks with low latency thanks to Multi-Access-Edge Computing and precise positioning, as verified by Anritsu’s performance measurements. ETSI-standardised messages were shared in real time between apps from various service providers.
“In Germany and across Europe, the ecosystem is ready to leverage the tens of millions of vehicles already connected via mobile networks and is now geared for the 2nd generation technology with 5G-V2X including direct communications,” said 5GAA Chairman Christoph Voigt.
Autotalks and Bosch, together with Commsignia, demonstrated the benefits of collective perception related to vulnerable road users. Ettifos, Keysight Technologies, Rohde & Schwarz and SEA Datentechnik also exhibited 5G-V2X Direct interoperability and conformity solutions and radio performance verification.
To show that C-V2X is about both safety and efficiency, Audi, supported by Commsignia and Autotalks, demonstrated a use case for “cooperative parking” based on 5G-V2X Direct.
In line with 5GAA’s Visionary 2030 Roadmap, 5G is continuously being deployed in many car models and 5G-V2X Direct is expected to be mass-deployed in commercial vehicle models as early as 2026. This week’s event underlined the continuous commitment of major European automakers to 5G-V2X following 5GAA’s Open Statement[1] in 2023.
For more information, watch the video below.
The C-V2X technology revolutionises the mobility ecosystem and how drivers interact with the world. It is essential to redefine transportation by providing real-time, highly reliable, and actionable information flows to enable safety, mobility and environmental applications.
5GAA established C-V2X as the critical technology to achieve the level of connectivity required for V2X communication and to be a disruptive force in the automotive market.
Following extensive validation testing, off-the-shelf LTE-V2X chipsets, modules, On-Board Units (OBU) and RSU (Roadside Units) have been globally available from multiple vendors since 2018.
These devices feature LTE-V2X direct communications (PC5) and LTE-V2X mobile network communications (Uu). The latest generation of devices features 5G-V2X mobile network communications (Uu) based on 3GPP Release 15.
5GAA regularly compiles an overview of the C-V2X Devices, which we understand are already publicly available on the market (the latest issue in November 2021). This overview is based on publicly available information and does not necessarily include factory-fit telematics/V2X boxes directly under contract with automakers.
The start of in-vehicle commercial deployment (i.e. type-approved vehicles) has begun in 2020-2021. A significant testing schedule is already underway for 5G-V2X, the next generation for cellular technology-based communications solutions, with more than 20 trials and early deployments globally.
Since 2010, the Directive on Intelligent Transport Systems (ITS) regulates the framework for the deployment of these systems in the field of road transport and for interfaces with other modes of transport. In December 2021, the European Commission published a proposal to amend the ITS Directive. The proposal was reviewed by the European co-legislators at the end of 2022 and adopted in October 2023. The revised Directive aims to take account of technological developments including connected and automated mobility, on-demand mobility applications and multimodal transport.
European administrations have designated the bands 5855-5875 MHz and 5875-5925 MHz – for use by road ITS as specified. As is common practice in Europe, the spectrum is designated on a technology neutral basis.
2021-2027: The Connected Europe Facility (CEF) proposes 5G infrastructure along connected and automated mobility corridors. This will see a fast ramp-up of 5G network deployment along main transport paths and the private sector, with support from the CEF.
In November 2020 the US Federal Communications Commission (FCC) published its 5.9 GHz ruling which points to C-V2X as technology of choice, among the following lines:
• Allows C-V2X in upper 30 MHz after an expedited waiver process
• DSRC will move to lower 10 MHz until the end of the phasing-out period (one year from the effective date of the Report & Order)
• FCC puts a spotlight on OEMs to bring V2X to the finish line
In December 2021, industry and state DOTs submitted a join request for a waiver to deploy C-V2X in upper MHz of the 5.9 GHz band; in April 2023, the FCC decided to permit initial deployments.
In August 2024, the U.S. Department of Transportation released it V2X National Deployment Plan, outlining a roadmap to accelerate the adoption of V2X technology for enhanced road safety. Developed in consultation with 5GAA and other stakeholders, the plan focuses on ensuring interoperability, encouraging investment, and prioritising privacy, and sets short-, medium-, and long-term goals to achieve widespread deployment.
In November 2024, the FCC announced final spectrum rules allowing in-vehicle and roadside units to operate Cellular-Vehicle-to-Everything (C-V2X) technology in the 5.9 GHz spectrum dedicated to ITS, and providing a two-year timeline for sunsetting the use of existing Dedicated Short Range Communications (DSRC) based technology.
China was the first country to have a national strategy for the Internet of Vehicles (IoV). To demonstrate the potential benefits of connected and intelligent highways and urban roads, more than 90 cities have already partnered with local wireless network operators to deploy RSUs and China has opened up over 5.000km of roads for intelligent V2X pilot demonstration.
In 2019, 13 OEMs announced mass production of C-V2X cars as of 2020. As of 2022, there are at least 12 C-V2X equipped vehicle models already launched in China.
The Ministry of Industry and Information Technology also established dedicates C-V2X spectrum in the 5905-5925 MHz band.
In 2024, the Chinese government launched a pilot project of “Vehicle-Road-Cloud Integration” Application for Intelligent Connected Vehicles. In Jully 2024, the final list of list of 20 cities was determined. The project will be implemented until 2026.
The South Korean Government released an updated C-ITS plan in August 2021, including a plan to deploy dual mode RSUs on a trial target area of 2,400km express highway for pre-commercial service in 2023.
In South Korea, 70 MHz is allocated as ITS spectrum in the 5.9 GHz band. In March 2022, the Ministry of Science & ICT (MSIT) released the following spectrum policy for the 5.9 GHz ITS band.
In December 2023, South Korea selected Cellular-Vehicle-to-Everything (C-V2X) direct communications as its technology of choice, complimenting C-V2X mobile network communications to offer a synergetic platform for connected mobility.
Following this decision, in June 2024, the Korean Ministry of Science & ICT (MSIT) released the final technical regulation standard
In its 2020 revisions of the Frequency Action Plan, Japan’s Ministry of Internal Affairs and Communications (MIC) developed a tangible plan toward the opening of 5.9 GHz for ITS by 2023. In 2023, the Ministry of Internal Affairs and Communications released its Frequency Reorganisation Plan, which assigns the 5.9 GHz spectrum to V2X for next-generation ITS.
This followed various studies conducted in Japan (such as the Cross-Ministerial Strategic Innovation Promotion Programme’s (SIP) study on use cases for Cooperative Driving Automation), which identified new spectrum as a requirement for automated driving.
In 2024, the Japanese government initiated a new trial for the 5.9 GHz band, focusing on an automated truck demonstration experiment on the Shin-Tomei Expressway. Building on the results of this trial, the government plans to begin standardization of 5.9 GHz V2X communication in 2026, with the goal of achieving practical implementation by 2030.
Over recent years, India has witnessed increasing activities related to V2X. These include updated traffic management system standards introduced by the National Highways Authority of India (NHAI) and the recommendation by the Indian government to include V2X in the Bharat NCAP. Moreover, in December 2023, the Telecommunications Standards Development Society of India (TSDSI) organized a workshop titled “Autonomous Road Transportation for Indian Scenarios.” Where they explored the global perspective on Connected Vehicles and Autonomous V2X use cases, India’s vision for Connected Autonomous V2X, and the challenges, opportunities, and readiness of the country in adopting these technologies.
The Ministry of Road Transport and Highways is actively considering the use of advanced technologies such as 5G and C-V2X to reduce road accidents.
In October 2023, the Indian Government’s Telecommunication Engineering Centre (TEC) published a report endorsing C-V2X technology. In October 2024, TEC established a dedicated Task Force to drive the development and implementation of Intelligent Transportation Systems (ITS) across India.
Cellular Vehicle-to-Everything, or C-V2X, communications will make transportation not only safer and smarter but also more sustainable.
Sustainability has three dimensions: environmental, social and economic.
C-V2X ticks all three boxes:
C-V2X also enables the growth of autonomous mobility, which in turn offers even greater sustainability benefits, for example mobility-as-a-service offerings.
To learn more, watch the short video or scroll down for more details.
If you want to learn more about the timeline for the introduction of next-generation C-V2X communications technologies, including those with clear environmental benefits, please see our latest C-V2X technology Roadmap here.
Together with ESA, and the German Space Agency at DLR, 5GAA (5G Automotive Association), will host the ‘European Space-enabled Connectivity Solutions for the Car of the Future’ Workshop in Munich on November 6 and 7, 2023. The workshop is all about satellite solutions for the digital transformation of the automotive sector. Find out more here.
BRUSSELS, 3 December 2024 – The 5G Automotive Association (5GAA) has sketched out an upbeat vision for better transportation safety, efficiency and sustainability with the third edition of its Roadmap for advanced driving use cases, connectivity, and technologies.
The 24-page Roadmap III builds upon a 5GAA white paper first published in 2020 and updated in 2022. It includes both a summary of market and technological developments since the last report as well as a forecast of the market readiness and roll-out of connected mobility technologies through 2030, with a focus on cellular-vehicle-to-everything (C-V2X) technology.
Thanks to the rapid expansion of cellular networks worldwide, about 300 million vehicles, including about two-thirds of all cars sold in the world’s major automotive markets, are now “connected.” Moreover, road and other infrastructure owners and operators have continued to expand a network of roadside sensors, traffic lights and other devices that help make transportation smarter, safer—including for pedestrians, cyclists and other vulnerable road users—and more sustainable.
While most vehicles and infrastructure to-date have relied on C-V2X technology to communicate with one another via cellular networks, the Roadmap also sees a growing role for “direct” vehicle-to-vehicle and related communications as soon as two years from now. 5GAA expects 5G-V2X Direct-enabled vehicles and related services to begin to be mass-deployed between 2026 and 2029, starting in Europe.
In addition, the third edition of the Roadmap for the first time describes a timeline for new use cases enabled by non-terrestrial networks and advanced Multi-Access Edge Computing (MEC). Satellite connectivity could help guarantee ubiquitous service in rural areas and disaster situations as soon as 2027, for example.
“Connected vehicle technologies and the market have both come a long way, since 2000,” said Maxime Flament, 5GAA Chief Technology Officer. “Our latest Roadmap foresees the continuous evolution of C-V2X cellular and direct communications technologies that will help save lives, make transportation more efficient and more sustainable and accelerate the spread of autonomous vehicles,” he said.
5GAA sees the Roadmap as a guide to help vehicle manufacturers, telecommunications network operators, road and other infrastructure owners and operators, as well as governments, understand the investments, speed and spectrum requirements needed to ensure the most efficient deployment of the new technologies and services. This, in turn, can help governments achieve their stated vision of zero road fatalities more quickly and also expedite the deployment of autonomous vehicles.
You can download the full Roadmap here.
About 5GAA
The 5G Automotive Association (5GAA) is a global, cross-industry organization of more than 115 members, including leading global automakers, Tier-1 suppliers, mobile operators, semiconductor companies, and test equipment vendors. 5GAA members work together to develop end-to-end solutions for future mobility and transport services. 5GAA is committed to helping define and develop the next generation of connected mobility, automated vehicles, and intelligent transport solutions based on C-V2X. For more information about 5GAA, please visit www.5GAA.org.
For further information please contact:
5GAA Marketing & Communications – Marcom@5GAA.org
With the numerous challenges connected and automated driving are bringing, the 5G Automotive Association (5GAA) is partnering up for the future with many different players. As building safety norms and standards play a vital role in the new era of mobility, 5GAA proactively teams up with several organisations, road operators and regulatory bodies to boost the deployment of connected cars and safer roads.
Collaboration to produce Third Generation Mobile System specifications, of globally applicable Technical Specifications and Technical Reports for a 3rd Generation Mobile System
Support to cooperation between ETSI and 5GAA, 5GAA participation in key meetings and other technical processes
Cooperate in the area of multi-access edge computing, share resources, and coordinate technical, testing and deployment activities.
Support to C-V2X Conformance Testing and Certification in respective regions of operation
Support to C-V2X Conformance Testing and Certification in respective regions of operation
Collaboration in the process of testing C-V2X technology through various means, in support of identifying use and business cases for connected vehicles
Cooperation to boost deployment of connected cars and safer roads by working across industries to focus on privacy/security, common standards and target the 5.9GHz spectrum band specifically for the internet of vehicles
Progression of the development of Cellular-V2X, commitment to the promotion of a global unified C-V2X standard and E2E industry, building of a deeply integrated and innovated C-V2X ecosystem among automotive, telecommunication and more vertical industry partners
Enhancement and fostering of a closer cooperation in the area of 5G-based V2X solutions
Cooperation towards network deployment for mobility services.
Exchange of information, seeking solutions concerning the use of radio frequencies to facilitate the development of future mobility and transportation services especially for the purpose of ITS communications
Promotion and coordination as necessary of the Baltic Sea Region 5G Ecosystem Forum with the Electronic Communication Office of Latvia
Coordination of technical, testing and deployment activities in relation to connected and automated driving, standardization priorities supporting connected and automated driving, promotion on spectrum-related issues and agreement on usage modalities of certain bands
Partnership to exchange of information regarding 5G mobile communication technology related to Automotive and Road Transport, analysis of technology trends, discussion of global standardization trends, promotion of 5G and C-V2X ecosystem growth
Partnership to facilitate sharing information on 5G mobile technology in Automotive and Road Transport, analysis of technology trends, discussion of global standardization trends, promotion of 5G and C-V2X ecosystem growth
fostering of cooperation in the field of connected and autonomous driving solutions, further conducting technical research on LTE-V2X and 5G-V2X, ensuring the promotion of the applications of 5G based V2X solution
Cooperation between 5GAA and members of 5G MF with reference to the Japanese 5G ecosystem
The 5G Automotive Association (5GAA) is a global, cross-industry organisation bridging the gap between automotive, technology, and telecom industries and promoting the C-V2X technology (Cellular vehicle-to-everything), a comprehensive platform for connected vehicles, safety, and transportation.
5GAA was created in September 2016 by its eight founding members: AUDI AG, BMW Group, Daimler AG, Ericsson, Huawei, Intel, Nokia and Qualcomm Incorporated.
5GAA unites now more than 130 companies diverse both in terms of geography and expertise. These include automotive manufacturers, tier-1 suppliers, chipset/communication system providers, mobile operators and infrastructure vendors. Find the full list of members here.
5GAA’s members are committed to helping define and develop global solutions for the next generation of connected mobility and automated vehicle solutions to address the complex challenge of providing enhanced safety, sustainability, and convenience for all road users. Read more about 5GAA’s mission here.
Since its creation, 5GAA has helped transform C-V2X technology from a standard into a market reality and has established 5G as the reference for future automotive connectivity. The association is now regarded as the global lead organisation on automotive connectivity. (link to the 5th anniversary report)
Major publications, reports and white papers include:
5GAA is working on the basis of 5 association pillars: as the first and overarching pillar, 5GAA aims to bring value to its members. Four main pillars help to achieve this overarching pillar: (1) enable deployment by lifting barrier and accelerating time-to-market, (2) contribute to standardisation via pre-standardisation efforts of automotive connectivity, (3) advocate policymakers by addressing regional opportunities and threats, and (4) leverage innovative solutions within the larger connected automotive community.
The association is contribution-driven and only exists through collaborations and communications between its members.
Between 2019 and 2021, 5GAA’s work focused on eight priority areas: security and privacy, road infrastructure, Vulnerable road users, positioning, interoperability, cellular network, and flexible architecture and technology evolution. All of the priority areas are contributing to the association’s vision: “connected mobility for people, vehicles, and transport infrastructure”. You can find more information on 5GAA’s work here.
The association includes an Executive Committee, a Board, and a General Assembly. The Board, composed of eighteen members elected every year by the General Assembly, supervises and advises the Executive Committee in all respects, in particular with regard to strategic guidance. The Executive Committee is the legal representative body of the association and is responsible for its day-to-day management. You can know more about the 5GAA’s leadership and Board at this link.
In order to address society’s transport needs, 5GAA has seven working groups focused on:
5GAA Working Groups are overseeing the work done in the work programme made of a large number of Work Items. Work Items are time-limited targeted activities which may report to more than one Working Group depending on their tasks. Outputs from Work Items can take many different shapes: Technical Report, Technical Specifications, White Papers, measurements, prototypes and/or demonstrations.
5GAA believe true ecosystem cooperation must be achieved around sustainable business models. An ecosystem that would gather the whole value-chain of connected mobility, seamlessly interacting with partners and standardisation bodies.
5GAA collaborates with different actors active in many fields: Standardisation bodies, Testing, Conformance and Interoperability organisations, Promotion Groups and Think Tanks, and regional organisations. 5GAA is also part of several European and national projects related to 5G networks and connected mobility. You can discover more on 5GAA’s partnerships here.
Friends of 5GAA is a group subscribing to a global newsletter addressing issues of interest and concerns to organisations that are not members but would like to keep up-to-date on 5GAA’s activities: typically road operators, ministries, public bodies, etc. They can also engage with the 5GAA members to identify synergies and business opportunities to accelerate and streamline the deployment of connected automotive.
Cellular-V2X (C-V2X), as initially defined as LTE V2X in 3GPP Release 14, is a technology that allows vehicles to communicate with each other and the wider transport ecosystem.
It includes Vehicle-to-Vehicle (V2V), Vehicle-to-(Roadway) Infrastructure (V2I) and Vehicle-to-Pedestrian (V2P) direct communication without necessarily relying on network involvement for scheduling. This is complemented by the connectivity to the mobile network (V2N) using LTE.
C-V2X has a clear evolution path to 5G (also called 5G New Radio (NR)) for both modes of operation mentioned above. C-V2X direct communication has an evolution path to 5G-NR based C-V2X, and LTE- network communication has its evolution patch to 5G-NR network communication.
5GAA supports the idea that 5G will be the ultimate platform to enable C-ITS and the provision of V2X. 5G will be able to better carry mission-critical communications for safer driving, and further support enhanced V2X communications and connected mobility solutions.
V2X includes:
C-V2X technology combines two complementary modes of communication:
Direct & short-range connectivity for safety applications without requiring network coverage or subscription. This operates in designated ITS spectrum bands (e.g. ITS 5.9 GHz) also known as “LTE-PC5”. C-V2X direct communication gives vehicles the ability to communicate with each other (V2V), to pedestrians (V2P), to roadway infrastructure (V2I), enabling safer, more autonomous vehicles of the future;
Connectivity via regular cellular networks for non-safety applications like navigation and infotainment in the car. This operates in the traditional mobile broadband licensed spectrum – also known as “LTE-Uu”. C-V2X network communication allows vehicles to communicate with the network (V2N).
In China, cars enabled with Cellular-Vehicle-to-Everything (C-V2X) technology are already available. To this date, 14 C-V2X vehicles have been commercialised so far. In the United States, Ford has committed to deploy C-V2X in all new vehicle models from early 2022. Finally, in Europe, BMW and Samsung are set to offer 5G/CV2X in their iNEXT vehicle this year, in 2021.
In 2020, 5GAA released a Visionary 2030 Roadmap outlining the vehicle-to-everything (V2X) use cases to improve traffic efficiency and road safety around the world expected in the next decade. Close to 200 million ‘connected vehicles’ are already on the roads worldwide, and a growing number of vehicles with the ability to exchange traffic and road condition information over cellular networks. Further progress in the coming years will pivot around 5G-V2X use cases for more efficient and safe driving. From 2025 onwards, 5GAA expects the mass rollout of more advanced automated driving and safety use cases supported by vehicle connectivity. Additional automated driving functionalities are anticipated from 2026.
5G for automotive has the potential to have the most revolutionary impact by saving millions of lives by reducing road accidents. Furthermore, it will have a positive impact by producing more efficient journeys, minimising travel times, traffic jams and improving environmental footprints. Unlike other competitive technologies, C-V2X leverages both cost-effective direct short-range communications and long-range cellular connectivity. This allows more cost-effective use of an integrated connectivity platform to address the broadest range of safety features.
The cost-efficiency of C-V2X is determined mainly by the three following reasons:
C-V2X integration with existing cellular modem: C-V2X can deliver both short-range safety V2X applications and long-range network communications via the one modem, which accelerates time to market and market penetration, contributing to enhanced safety and reducing cost;
For pedestrians, C-V2X will also find its way into consumer-electronics smartphones both for use by pedestrians, cyclists and unequipped vehicles due to its low power consumption and its possible integration with 4G/LTE chipsets;
Benefit from the economy of scale as it can leverage synergies between transportation and other verticals which are moving towards 5G (e.g. e-health, smart cities, industry 4.0, smart farming, etc.)
C-V2X will improve safety on roads by tremendously facilitating the flow of information between vehicles, pedestrians, and road infrastructure. This will enable connected vehicles to anticipate and avoid dangerous situations, reducing collisions and potentially saving lives.
More connected mobility with C-V2X can help address the constantly growing need for mobility while achieving lower emissions with a 5-20% estimated emission reduction potential. Connected mobility will increase transport efficiency and driving patterns, thus reducing congestion, fuel consumption and emissions. Moreover, it will allow the creation of new ways around traffic flow management and better, more localised environmental control (e.g., dynamic geofencing). 5GAA and its members are convinced the global deployment of C-V2X technology will have a sustainable impact worldwide. However, connected vehicles must reach a critical mass to impact emissions reduction significantly. Read here to have more information about the environmental benefits of C-V2X.
The 5G Automotive Association (5GAA) is a global association with over 120 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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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 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.
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.
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.
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.
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.
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.
BERLIN, 25 October 2024 – The 5G Automotive Association (5GAA) this week demonstrated the latest innovations in the Cellular Vehicle-to-Everything (C-V2X) technology family to help achieve “Vision Zero” for all road users. The demonstrations illustrated the potential of 5G-V2X to enable new use cases integrated across multiple automakers, service providers, and mobile network operators.
For the very first time, 5GAA demonstrated 5G-V2X Direct technology integration in Audi and BMW vehicles with the support of 5GAA members Autotalks, Bosch, Commsignia, and Fraunhofer FOKUS. This demonstration illustrated how technology can alert drivers about pedestrians and cyclists even before they can see them, leveraging sensors and a camera feed from other vehicles. The demonstrations showed the high bandwidth and low latency performance characteristics of 5G-V2X Direct using ETSI Release 2 messages.
5GAA members Bosch, Commsignia, Deutsche Telekom, Ericsson, Keysight Technologies, LG Electronics, Mercedes-Benz and Vodafone, and the Coalition for Cyclist Safety, showcased ready-to-deploy, interoperable applications to increase awareness of vulnerable road users and emergency vehicles on public roads in central Berlin. Safety awareness alerts were delivered via 4G and 5G networks with low latency thanks to Multi-Access-Edge Computing and precise positioning, as verified by Anritsu’sperformance measurements. ETSI-standardised messages were shared in real time between apps from various service providers.
“In Germany and across Europe, the ecosystem is ready to leverage the tens of millions of vehicles already connected via mobile networks and is now geared for the 2nd generation technology with 5G-V2X including direct communications,” said 5GAA Chairman Christoph Voigt.
Autotalks and Bosch, together with Commsignia, demonstrated the benefits of collective perception related to vulnerable road users. Ettifos, Keysight Technologies, Rohde & Schwarz and SEA Datentechnik also exhibited 5G-V2X Direct interoperability and conformity solutions and radio performance verification.
To show that C-V2X is about both safety and efficiency, Audi, supported by Commsignia and Autotalks, demonstrated a use case for “cooperative parking” based on 5G-V2X Direct.
In line with 5GAA’s Visionary 2030 Roadmap, 5G is continuously being deployed in many car models and 5G-V2X Direct is expected to be mass-deployed in commercial vehicle models as early as 2026. This week’s event underlined the continuous commitment of major European automakers to 5G-V2X following 5GAA’s Open Statement[1] in 2023.
About the 5GAA
The 5G Automotive Association (5GAA) is a global, cross-industry organization of more than 120 members, including leading global automakers, Tier-1 suppliers, mobile operators, semiconductor companies, and test equipment vendors. 5GAA members work together to develop end-to-end solutions for future mobility and transport services. 5GAA is committed to helping define and develop the next generation of connected mobility, automated vehicles, and intelligent transport solutions based on C-V2X. For more information about 5GAA, please visit www.5GAA.org.
For further information
Please see our brochure about the Berlin demonstrations here:https://5gaa.org/content/uploads/2024/10/5gaa-berlin-demos-brochure.pdf
Media contact: marcom@5GAA.org
[1] https://5gaa.org/content/uploads/2024/10/5gaa-open-letter-september-2023.pdf
The 5G Automotive Association (5GAA) will host a technology demonstration event in Berlin on 24 October, showcasing the potential of Cellular Vehicle-to-Everything (C-V2X) technology to redefine mobility across Europe. The event will take place with 5GAA members, leaders from the automotive, telecommunications and technology sectors; it will feature over 10 indoor and outdoor demonstrations that address both critical safety and advanced applications.
C-V2X leverages cellular networks to connect vehicles with each other, infrastructure, and pedestrians, aiming to enhance safety and convenience on the roads. This technology has gained momentum globally, with favourable legislative frameworks in Europe, the U.S. and beyond, and commitment from automakers. This signifies a robust ecosystem that is ready to leverage a huge amount of already existing connected vehicles and deploying further C-V2X solutions at scale.
In countries like Germany, traffic accidents remain a significant concern, with the country alone recording 2.5 million incidents in 2023 and pedestrian safety a growing issue. It is also estimated that up to 40% of traffic in German urban centres stems from drivers searching for parking. C-V2X is positioned to address these challenges.
The Berlin demo event will build upon the 5GAA demonstrations held last year in Detroit, which revolved around vulnerable road user protection. This year, the focus will shift to showcasing similar and new use cases in a European environment, utilising existing European mobile infrastructure.
The event will be preceded by the 5GAA conference titled “Scaling Up Connected Mobility: What’s Next for Germany and Europe?” This combined event offers a unique platform for attendees to engage with industry leaders and stakeholders.
Registration and Media Inquiries:
For further information and registration, please contact secretariat@5gaa.org.
Journalists interested in attending can reach out to marcom@5gaa.org.
