The purpose of the study has been to analyse different Vehicle-to-Infrastructure (V2I) deployment options from a financial, business and market point of view, while avoiding going into the technical discussion of the superiority of one technology over the other. Therefore, the objective of this report is to improve the understanding of the costs and their variability, as well as the challenges and opportunities around the four deployment options, to inform the development of business cases.

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BRUSSELS, 8 September 2020 – In the next two to three years, the 5G Automotive Association’s (5GAA) expects to see mass deployment of vehicle-to-everything (V2X) use cases geared towards improving traffic efficiency and road safety around the world. This vision is outlined in a new White Paper released by 5GAA which explores how leading automakers, mobile
network operators and their suppliers see the world of automotive connectivity evolving over the coming decade. 

Vehicles talking to one another but also to roadside and telecom infrastructure and operators – so-called V2X communication – is just the tip of 5GAA’s vision for ‘advanced 5G-connected driving’. In its latest White Paper, 5GAA offers a comprehensive roadmap to guide all parties involved in this near-term market development, bringing both automotive and telecom sectors together to fulfil what 5GAA sees as a powerful digital ecosystem in this fast-moving field.  

The Paper highlights selected end-to-end V2X applications factoring in the necessary technological evolution, industry readiness and spectrum needs. 5GAA has developed ‘advanced driving’ use cases such as Cooperative Manoeuvres and Sensor Sharing in conjunction with both the adoption of Cellular Vehicle-To-Everything (C-V2X) standards and the availability of the required technologies and devices. These provide a tangible account of how advanced driving is taking shape globally.  

“Success in this endeavour requires to have all industry stakeholders on-board, including telecoms and automotive. Only then will new business opportunities and necessary investments be secured to fuel this ‘ecosystem’,” said 5GAA’s CTO and spokesperson Maxime Flament upon the White Paper’s launch.  

With close to 200 million ‘connected vehicles’ already on the roads worldwide in 2020 and a growing number of vehicles with the ability to exchange traffic and road condition information over cellular networks, the foundations for 5G-connected driving are well established, the Paper points out. Further progress in coming years will pivot around 5G-V2X use cases for more efficient and safe driving. From 2025 onwards, 5GAA anticipates mass rollout of more advanced automated driving and safety use cases supported by vehicle connectivity. Additional automated driving functionalities are anticipated as from 2026.  

Between now and 2024, ‘connected’ digital road infrastructure will pave the way for real-time or ‘dynamic’ traffic updates, hazard warnings, and high-definition mapping services. Towards 2026, advanced vehicle-to-vehicle (V2V) cooperation will further boost automated driving developments, including sharing sensor data and cooperative manoeuvring.  

To fully support this evolution, 5GAA calls on national and regional administrations to make sufficient radio spectrum available for mobile communication networks in targeted low- and mid-bands, and it recommends harmonised use of the 5855-5925 MHz band for communication between road users and roadside infrastructure within the wider international digital traffic ecosystem.  

Here, the White Paper acknowledges that some 5G-enabled applications may prove challenging to implement, while others will be easier and offer valuable lessons going forward: “Low-hanging fruit applications addressing OEM fleets, such as automated valet parking and tele-operated driving will open the door to more secure, safe and interoperable vehicle-to-network automotive applications across borders.”  

Charting a clear way forward… 

All in all, to deliver end-to-end V2X services and unlock the true value of vehicle connectivity, 5GAA considers that the realisation of its roadmap would require:  

(1) sufficient spectrum for short-range direct communications at 5.9 GHz 

(2) high levels of mobile network coverage along the roads 

(3) sufficient service-agnostic mobile network spectrum for mobile network-based communications, in addition to the bands that are currently identified for International Mobile Telecommunications (IMT) use. 

The essence and great promise of 5G is that it makes better use of the radio spectrum, boosts mobile network coverage, security and safety, while delivering environmental benefits for citizens and consumers. To chart a clear way forward, 5GAA calls on all players to work together while implementing the use cases highlighted in the Paper, as well as other measures outlined in 5GAA technical reports and papers.  

About 5GAA 

The 5G Automotive Association (5GAA) is a global, cross-industry organisation of companies and OEMs from the automotive, technology and telecommunications industries working together to develop end-to-end solutions for future mobility and transportation services. 5GAA is uniquely placed to support 5G-V2X advances because it unites all major automotive, chipset, technology, telecom-mobile infrastructure and mobile network operators. In less than three years, more than 135 global players, including pioneering OEMs, have signed up to 5GAA’s vision. 

For more information, please contact our media team at marcom@5gaa.org  

Download the Roadmap

Press Briefing slide deck

The article below and the linked document refer to an older version of the 5GAA roadmap, whose most updated version you can find here. 

With this white paper, the 5G Automotive Association (5GAA) presents the results of its studies relating to the evolution of automotive connectivity for the purposes of enhanced road safety, improved traffic efficiency, greener environmental impact, and more comfortable driving.

5GAA has identified the most promising advanced driving use cases such as Cooperative Manoeuvres and Sensor Sharing, in conjunction with the adoption of Cellular Vehicle-To-Everything (C-V2X) standards as well as availability of required technologies and devices, i.e. on-board units (OBUs), road-side units (RSUs), and smartphones, integrating the latest chipsets and modules. The market trajectory of the identified use cases is described along with the expected timeline for their mass market deployment.

The white paper finally highlights the spectrum needs for basic and advanced driving use cases. For direct communication, this corresponds to between 10 and 20 MHz at 5.9 GHz for basic safety, and an additional 40 MHz or more at 5.9 GHz for advanced driving.

Read the full roadmap here

Millions of vehicles are already connected via cellular networks, thus exchanging valuable data on road safety and traffic efficiency,

This is the result of decades of research and innovation on Intelligent Transport Systems

C-V2X is proven, trusted and ready to hit the road!
Watch the video below to discover more about C-V2X technology.

Road safety is a crucial aspect of mobility both for individuals as well as for policymakers. Road fatalities, in the European Union (EU), for example, have decreased by approximately half between 2001 and 2018 from 54,000 to 25,100 per year. However, in recent years, the number of fatalities has been on a stable level, and additional efforts are needed to further reduce the number of deaths and severe injuries.

5GAA has made VRU protection a priority area and this White Paper therefore aims at shedding light on the safety benefit that selected V2X use cases offer, which can have a significant impact on the protection of the most vulnerable traffic participants. Ultimately, this also has a positive impact on health-sector costs incurred, by reducing the number of people suffering serious injuries with life-changing consequences.

Read the full white paper here

This work reports the analysis, extension and classification of a set of Tele-Operated Driving (ToD) use cases, with the aim of providing a shortlist, which will serve as a basis for further activities related to technical requirement derivation and business considerations.

The ToD Work Item (WI) aims to describe the requirements and framework needed for ToD service provisioning for automated vehicle operation, covering the possible interfaces and stakeholders. This WI focuses on the tele-operation of vehicles after an incident or in difficult situations (including parking), also potentially taking the network conditions before the incident happened into account.

Read the full report here

This paper describes how cellular coverage of roads, to support automotive, road operation and consumer services, can be extended and expedited through cooperation between mobile network operators (MNO), road operators, national and regional governments as well as national road and communications regulators/authorities.

It is primarily a strategy playbook with recommendations on cooperation between mobile network operators and road operators/governments.

The paper should facilitate discussion between road operators, governments and MNO’s, to expedite the deployment of mobile networks alongside roads.

Click here to read the White Paper

This document describes an Application Layer Reference Architecture for the operational part of the automotive ecosystem, both from a functional view and from several deployment views.

The Application Layer Reference Architecture may be used to describe various deployments, from small proof-of-concept deployments with just a few functions, to large scale deployments with all functions in the automotive ecosystem. In addition, the Reference Architecture facilitates identification of application layer protocols and an understanding of the need for new standardisation.

This document addresses the 5GAA WG2 work item ‘V2X Application Layer Reference Architecture (V2XSRA)’.

Click here to read the PDF document

5GAA welcomes the European Commissions’ initiative to improve real-time traffic information in the European Union by considering a possible revision of Commission Delegated Regulation (EU) 2015/962.

In today’s fast-paced technological environment, the EU regulatory framework should be conducive of European competitiveness and foster the development of innovative business models. As such, the participation and added value of different stakeholders, both public and private, should be duly taken into consideration. The EU has successfully developed a highly competitive market in the real-time traffic information domain, in conjunction with the emergence of world-leading European companies.

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The NESQO Work Item (WI) kicked off in February 2018 with input from car makers, in order to address key automotive requirements on a selected set of identified use cases. The main objective of the study was to provide Predictive QoS for C-V2X in 5G, utilising technologies including End-to-End Network Slicing, Multi-Access Edge Computing (MEC), an evolved QoS framework and Machine Learning.

Upon conclusion of the NESQO WI, the need for a follow-up WI was put forward; some of the topics already identified in the original WID were not fully covered in the NESQO TR and needed further study. Additionally, new requirements had been identified, that were relevant to the agreed scope but not included in NESQO.

This document addresses the 5GAA WG2 Work Item ‘Enhanced End-to-End Network Slicing and Predictive QoS’.

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