5G will help vertical industries to achieve the ‘internet of everything’ vision of ubiquitously connected, highly reliable, ultra-low latency services for a massive number of terminals. Network slicing is considered as one of the key features for 5G allowing in particular to support the different needs of various vertical industries, including the automotive industry. Network slicing is a concept for running multiple logical networks (which could be customised and provided with guaranteed Service Level Agreements, SLAs) as virtually independent business operations on common physical infrastructure.

To limit the scope of this work, it will initially focus on the very basic functions of a mobile network, which are to provide coverage, throughput, and latency for data transmission between the vehicle (UE) and a backend infrastructure (i.e. mobile networks) using the network slicing approach. In further steps, the scope of this work shall be extended from how to use network slicing to tackle the additional functional and operational requirements from the automotive industry and their business implications.

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Connected vehicles, as part of the emerging Cooperative Intelligent Transportation Systems (C-ITS) are positioned to transform the future of mobility – a change enabled by the exchange of messages between vehicles and between vehicles and transport infrastructure. As these messages are constantly broadcasting data, including vehicle speed and location, this raises potential concern about how to address privacy and data protection.

In this document, we take a fresh look at the latest technological architectures that feature Privacy by Design. We focus specifically on Cooperative Awareness Messages (CAM) and Decentralised Environmental Notification Messages (DENM), where privacy protection is offered by using pseudonym certificates that do not contain any identifying information. A Public Key Infrastructure (PKI) system takes care of the provision and overall management of the corresponding cryptographic keys. In this document, we review how current PKI system design can help address the risk of tracking from outside and inside attackers, and we identify challenges and privacy risks that remain unresolved. We give some suggestions in terms of future research and conclude the document with general recommendations.

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5G Automotive Association (5GAA) has defined a methodology to describe solution agnostic automotive use cases (UC) and application requirements referred to as Service Level Requirements (SLR).

This White Paper applies the defined methodology to describe use cases, and includes advanced UCs that require complex interactions among vehicles as well as between vehicles and infrastructure in relation to self-driving (autonomous) vehicles. Different road scenarios, actors and service flows are considered in the defined use cases. Detailed analysis of the derived Service Level Requirements is also provided.

 

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The 5G Automotive Association (5GAA) is proud to announce the publication of the 5G Strategic Deployment Agenda for Connected and Automated Mobility in Europe (EU 5G SDA for CAM), by the 5G Infrastructure Public Private Partnership (5G PPP), a joint European Commission and European ICT industry initiative.  

5GAA was among the key contributors to this document which outlines the shared view of a industry and public stakeholders, including other relevant European associations (ACEA, CEDR and GSMA) and experts of the three 5G corridors trial projects, based on eight common principles to stimulate investment in 5G-ecosystems in the field of Connected and Automated Mobility: 

1. Deployment of the 5G infrastructure for CAM should follow an evolutionary path to cope with future market developments and technological progress. 
2. The infrastructure should aim at providing boundless connectivity with continuity of service across borders, Mobile Network Operators, vendors/OEMs, as well as traffic managers, road operators and service providers.
3. The CAM infrastructure, including vehicles and road equipment, needs to have a very high level of cybersecurity.
4. The 5G infrastructure for CAM will need to be a multi-service/multi-application platform using standardised specifications and/or data interfaces.
5. The deployment of 5G infrastructure for CAM in Europe should be extensively coordinated with public and private actors in charge of delivering V2X services. 
6. Road operators, road authorities and mobile network operators should collaborate to create synergies for connectivity deployment along CAM corridors.
7. It is a necessity to deliver future networks innovatively and with optimal economics.
8. The digital transformation of industry verticals must be accelerated.
9. As recognised by the European Commission, 5G is a critical enabler of future mobility solutions and its deployment in transport, including both network and direct communication modes, is a European public policy priority. To that end a strategic partnership with road and transportation stakeholders is critical to fully address society’s connected mobility and road safety needs, as per 5GAA mission and the European Commission’s objectives. 

To accelerate the infrastructure rollout, the stakeholders recognised several key drivers, such as the need for appropriate cooperation models to enable the initial deployment of 5G highways corridors, stabilising the technology roadmap through standardisation, ensuring a high level of cybersecurity, regulatory innovation, data access and data sharing, harmonisation of spectrum, and coordination of deployment initiatives. 

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ETSI specifications ensure interoperability, safety, and security of C-V2X technology development

In July 2020, the 5G Automotive Association (5GAA) partnered with global ICT standards organisation ETSI to organise a remote cellular-vehicle-to-everything (C-V2X) Plugtest. The LTE-V2X System Profile is the first of its kind to be specified by an independent, accredited standards organisation in Europe (ETSI TS 103 723).

The system profile provides industry wide upper layer configuration guidelines for C-V2X deployment and employs C-V2X technology from 3GPP Release 14. The system profile and the global standard it represents will lay the foundations for standardised direct cellular communications technology in the automotive sector; making product development faster and ensuring that safety and security are at the core of all new technologies.

“LTE-V2X provides a seamless evolution path towards 5G employing new radio V2X (NR-V2X). The latter will allow even better performance and further enhanced features, while keeping backward compatibility with LTE-V2X”, said Maxime Flament, CTO, 5GAA. “OEMs will especially benefit as the technology will allow long life cycles, which are essential for automotive products.”

Several automotive LTE-V2X devices were successfully tested during the second ETSI C-V2X Plugtest™ in addition to Intelligent Transport Systems (ITS) stations and Public Key Infrastructure (PKI) vendors in order to assess the level of interoperability of their implementation and to validate the ETSI ITS specifications. An overall interoperability success rate of 94% was achieved during the second ETSI C-V2X Plugtest.

To read the full report from the Plugtest, please click here.