Connected Vehicle

AT&T, Ford, Nokia, and Qualcomm Technologies come together for the first Cellular-V2X (C-V2X) trials in the U.S

Leveraging the evolution of embedded cellular technologies for V2X communications holds great potential to advance safety benefits to all road users. AT&T, Ford, Nokia, and Qualcomm Technologies are therefore coming together for the first Cellular-V2X (C-V2X) trials in the U.S.  Testing is expected to take place in the San Diego Regional Proving Ground with the support of the San Diego Association of Governments (SANDAG), Caltrans, the City of Chula Vista, and intelligent transportation solutions (ITS) provider McCain, Inc.


For this trial, C-V2X platforms are expected to be installed in Ford vehicles using the Qualcomm 9150 C-V2X solution to facilitate direct communications and are complemented by AT&T’s 4G LTE network communications and ITS platform that takes advantage of wireless base stations and multi-access edge computing technology from Nokia. For the new communication technologies being deployed, McCain will help facilitate the effective integration with existing and emerging traffic signal control infrastructure.

Testing will support direct C-V2X communications operating in the 5.9 GHz ITS spectrum to explore the safety enhancements of vehicle-to-vehicle (V2V) use cases, including do not pass warning, intersection movement assist, and left turn assist, to name a few. The trials will also support advanced vehicle communication capabilities for improved traffic efficiencies, such as real-time mapping updates and event notifications relayed using AT&T’s cellular network and Nokia Cloud Infrastructure.

The goal of the trials is to demonstrate the potential of C-V2X technologies, including support for improved automotive safety, automated driving, and traffic efficiency. The trials will also be aimed at demonstrating to automakers and road operators the anticipated cost-efficient benefits associated with embedded cellular technology in vehicles and synergies between the deployment of cellular base stations and roadside infrastructure. The initial testing phase is expected to begin later this year.


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