Abstract
The existing traffic light system fails to deal with the increase in vehicular traffic requirements due to fixed time programming. Traffic flow suffers from vehicle delay and congestion. A new networking technology called vehicular ad hoc networking (VANET) offers a novel solution for vehicular traffic management. Nowadays, vehicles communicate with each other (V2V), infrastructure (V2I), or roadside units (V2R) using IP-based networks. Nevertheless, IP-based networks demonstrate low performance with moving nodes as they depend on communication with static nodes. Currently, the research community is studying a new networking architecture based on content name called named data networking (NDN) to implement it in VANET. NDN is suitable for VANET as it sends/receives information based on content name, not content address. In this paper, we present one of VANET’s network applications over NDN, a smart traffic light system. Our system solves the traffic congestion issue as well as reducing the waiting time of vehicles in road intersections. This system replaces the current conventional system with virtual traffic lights (VTLs). Instead of installing traffic lights at every intersection, we utilize a road side unit (RSU) to act as the intersection controller. Instead of a light signal, the RSU collects the orders of vehicles that have arrived or will arrive at the intersection. After processing the orders according to the priority policy, the RSU sends an instant message for every vehicle to pass the intersection or wait for a while. The proposed system mimics a human policeman intersection controlling. This approach is suitable for autonomous vehicles as they only receive signals from the RSU instead of processing many images. We provide a map of future work directions for enhancing this solution to take into account pedestrian and parking issues.
Highlights
Progression in vehicular communications system and the increase of vehicle numbers has created a need for industrial and research communities to tackle the emerging challenges
Packet delivery rate: the number of packets that are exchanged between vehicles and the road side unit (RSU) to all interest and data packets forwarded by the RSU and vehicles; Packet delay time: the time between sending the interest packet by the vehicle and receiving the data packet from the RSU; Total consumption time: the total time for all vehicles waiting for the green signal at the intersection
named data networking (NDN) is suitable for vehicular ad hoc networking (VANET) because it sends/receives information based on content name, not content address
Summary
Progression in vehicular communications system and the increase of vehicle numbers has created a need for industrial and research communities to tackle the emerging challenges. The NDN router maintains three data structures: a content store (CS), a pending interest table (PIT) and a forwarding information base (FIB). With respect to the safety applications, we present in this paper a smart traffic light system as the first study towards applied VNDN in VANET application to the best of our knowledge. Beside the novelty of the proposed design in VNDN, our design solves many issues in current conventional traffic lights systems, such as the following. To the best of our knowledge, our work is the first to present smart traffic light application over vehicular named data networking. We present a smart traffic light system in which the vehicle waiting time in intersections varies according to street capacity.
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