Abstract
The death toll due to highway crashes is increasing at an alarming rate across the globe. Vehicular Ad Hoc Networks (VANETs) have emerged as a promising solution to prevent crashes by enabling collision avoidance applications. However, a robust and stable collision avoidance application is a cross-layer problem that must address a number of key challenges across all layers of a VANET communication architecture. This paper presents and evaluates a novel VANET protocol suite, named Direction-Aware Vehicular Collision Avoidance (DVCA), which covers application, security services, network, and link layers. DVCA is a vehicle-to-vehicle communication architecture that provides enhanced collision probability computation and adaptive preventive measures for cooperative collision avoidance on bi-directional highways. Moreover, DVCA enables secure, in-time, and reliable dissemination of warning messages, which provides adequate time for vehicles to prevent collisions. Simulation and analytical results demonstrate reasonable reduction in collisions by DVCA, as compared with eminent VANET communication architectures.
Highlights
We evaluate the performance of Direction-Aware Vehicular Collision Avoidance (DVCA) in comparison with similar existing Vehicular Ad Hoc Networks (VANETs) communication architectures for collision avoidance
Collision prediction and specification of preventive measures remain the prime concern of the Cooperative Collision Avoidance (CCA) applications, while secure, reliable, and timely delivery of warning messages remain critical
This paper has presented a novel direction-aware V2V communication architecture for collision avoidance, named DVCA, which comprises of a stack of our previously proposed protocols for mitigating collisions on bi-directional highways
Summary
An estimated 1.35 million deaths and 20–50 million injuries occur around the world due to collisions [1,2]. To this end, Intelligent Transportation Systems (ITSs) introduce innovative techniques to enable safe traffic environments [3]. Vehicular Ad Hoc Networks (VANETs) are the primary enablers of ITSs for transforming ordinary vehicles into intelligent and communicating entities (hereinafter nodes). VANETs connect high-speed nodes for sharing information pertaining to their speed, direction, and position in a highly dynamic network topology to enable various ITS applications, such as infotainment, route identification, and Cooperative Collision Avoidance (CCA) [4,5]. A CCA can mitigate collisions by enabling nodes to foresee hazardous events through the exchange of warning
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