A Method for Mapping V2X Communication Requirements to Highly Automated and Autonomous Vehicle Functions

A Method for Mapping V2X Communication Requirements to Highly Automated and Autonomous Vehicle Functions

Blog Article

The significance of V2X (Vehicle-to-Everything) technology in the context of highly automated and autonomous vehicles can hardly be overestimated.While V2X is not considered a standalone technology for achieving high automation, Microbial Biocontrol Strategies for Ambrosia Beetles and Their Associated Phytopathogenic Fungi it is recognized as a safety-redundant component in automated driving systems.This article aims to systematically assess the requirements towards V2X input data to highly automated and autonomous systems that can individually, or in combination with other sensors, enable certain levels of autonomy.It addresses the assessment of V2X input data requirements for different levels of autonomy defined by SAE Sequential Movie Genre Prediction Using Average Transition Probability with Clustering International, regulatory challenges, scalability issues in hybrid environments, and the potential impact of Internet of Things (IoT)-based information in non-automotive technical fields.

A method is proposed for assessing the applicability of V2X at various levels of automation based on system complexity.The findings provide valuable insights for the development, deployment and regulation of V2X-enabled automated systems, ultimately contributing to enhanced road safety and efficient mobility.