Abstract
Vehicular ad hoc network is a pretty research vibrant area since last decade. It has been successfully used for intelligent transportation system and entertainment purposes for realization of smart cities. However, intermittent connectivity, high routing overhead, inflexible communication infrastructure, unscalable networks, and high packet collision are the key challenges that put hindrances on the wide applications of vehicular ad hoc network. The severity of these challenges become even more intensified when deployed in urban areas. To overcome these hurdles, integrating micro unmanned aerial vehicles with vehicular ad hoc network provides a viable solution. In this article, we proposed an unmanned aerial vehicle–assisted vehicular ad hoc network communication architecture in which unmanned aerial vehicles fly over the deployed area and provide communication services to underlying coverage area. Unmanned aerial vehicle–assisted vehicular ad hoc network avails the advantages of line-of-sight communication, load balancing, flexible, and cost effective deployment. The performance of the proposed model is evaluated against a case study of vehicle collision on highway. Results show that utilization of unmanned aerial vehicles ensures the guaranteed and timely delivery of emergency messages to nearby vehicles so that a safe action can be taken to avoid further damages.
Highlights
Intelligent transport systems (ITSs) are considered to be one of the major building blocks of any smart city
Recent advancements in wireless communication have paved the way for vehicular ad hoc network (VANET) to be utilized for ITS
unmanned aerial vehicles (UAVs)-assisted VANET avails certain advantages over traditional VANET. It provides the platform for line-of-sight communication between UAV and vehicles, which leads to attaining the reliable connection, and the guaranteed delivery can be achieved
Summary
Intelligent transport systems (ITSs) are considered to be one of the major building blocks of any smart city. It provides the platform for line-of-sight communication between UAV and vehicles, which leads to attaining the reliable connection, and the guaranteed delivery can be achieved It minimizes the routing overhead caused by mobility in V2V communication since nodes communicate directly with mobile RSUs. It minimizes the routing overhead caused by mobility in V2V communication since nodes communicate directly with mobile RSUs It provides flexibility in communication infrastructure where on-demand coverage area can be extended to fill blank holes or network load can be balanced in dense areas in a cost effective manner.
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