Collective perception in Vehicle-to-Everything (V2X) communications allows vehicles to exchange preprocessed sensor data with other traffic participants. It is currently standardized by ETSI as a second generation V2X communication service. The use of collective perception as a communication service for future fully autonomous driving requires a thorough evaluation and validation. Most of the previous work on collective perception has considered large scale-simulations with a focus on communications. However, the perception pipeline used for collective perception is equally important and must not be neglected or over-simplified. Also, to study collective perception in detail, large-scale field testing is practically infeasible. In this paper we extend an existing simulation framework with a realistic model for V2X communications and sensor-data based processing delays. The result is a simulation framework that incorporates the entire collective perception pipeline, which enables to comprehensively study sensor-based perception. We demonstrate the capabilities of this enhanced framework by analyzing the delay of each component involved in the perception pipeline. This allows a detailed insight in end-to-end delays and the age of information within the environmental model of autonomous vehicles.
Towards Realistic Evaluation of Collective Perception for Connected and Automated Driving
19.09.2021
641952 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
TIBKAT | 2020
|ANALYSIS OF MESSAGE GENERATION RULES FOR COLLECTIVE PERCEPTION IN CONNECTED AND AUTOMATED DRIVING
British Library Conference Proceedings | 2019
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