IEEE Access (Jan 2024)
Evaluation of Redundancy Mitigation Rules in V2X Networks for Enhanced Collective Perception Services
Abstract
Collective perception enables connected vehicles to share detailed environmental data, significantly enhancing situational awareness and safety. This data sharing is crucial for the functioning of modern vehicular networks, but it introduces the challenge of managing redundant information, which can congest communication channels and degrade network performance. To address this challenge, several redundancy mitigation rules have been proposed and extensively evaluated to filter out unnecessary data. This work investigates the impact of different redundancy mitigation rules on the performance of connected vehicular networks with collective perception under different market penetration rates. Additionally, the study introduces a set of hybrid rules designed to optimize this balance for collective perception services in vehicular networks. These hybrid rules are compared to scenarios without object filtering and other existing redundancy mitigation rules. Key performance metrics include channel busy ratio, environment awareness ratio, redundancy level, and the age of information. By analyzing the metrics as a function of the distance between the reported object and the receiving connected vehicle, the study identifies key trends in balancing redundancy reduction with information freshness under diverse network conditions. The results demonstrate that hybrid redundancy mitigation rules outperform existing approaches by effectively balancing channel load, redundancy level, and environment awareness, while maintaining lower age of information values. This balance is particularly crucial for safety-critical objects in close proximity to the connected vehicle. The findings highlight the importance of intelligent redundancy mitigation strategies in enhancing the timeliness and reliability of information in densely populated vehicular networks, ensuring the efficient and safe operation of connected vehicles.
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