Integration of hybrid communication and remote sensing for ITS application
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Integration of hybrid communication and remote sensing for ITS application Arghya Guchhait1,2 · B. Maji1 · D. Kandar3
© Springer Science+Business Media, LLC, part of Springer Nature 2020
Abstract Intelligent transportation system is a prominent technology solution for the vehicle manufacturers in this present scenario. The manufacturers are trying to deploy an advanced system for automation through sensing. Various technologies are being used to communicate with other near-by vehicle and to sense their perspective on the road. The important problem is to share the radar and communication information with other vehicles without any time delay. The vehicles uses a different hardware system for establishing radar sensing and communication concurrently, which increases the cost and bandwidth requirement of the overall system. Instead of using multiple system and hardware separately for communication and remote sensing, a single hybrid system might be a cost effective solution which will serve both communication and remote sensing requirements. This work proposes a concept for integrating radar sensing and hybrid communication system (IRSHCS) with multiple input multiple output (MIMO) orthogonal frequency division multiplexing (OFDM) in a single hardware known as software defined radio. It serves simultaneous remote sensing and communication to the vehicle user without delay with the dedicated short range communication system and worldwide interoperability for microwave access. Moreover, an optimization problem is formulated to improve the performance of IRSHCS, which focuses on sharing both the radar and communication between the vehicles without any time delay by satisfying the radar and communication system requirements with suitable parameters. The whale optimization algorithm generates an optimal solution to solve the limitations of the hybrid system by choosing maximum channel capacity as its objective function. Experimental results are evaluated to demonstrate the IRSHCS MIMO OFDM system provide better performance as compared to the conventional approaches. Keywords Intelligent transportation system · Radar system · Multiple input multiple output · Software defined radio · Whale optimization algorithm
1 Introduction With the deployment of the technologies of wireless communications, the car manufactures furnished wireless devices to each vehicle, which allow vehicles to interface with other vehicles and also with the roadside infrastructure. This network is considered as a vehicular ad hoc network (VANET) that enhances safety [1]. Wireless communication play a sig-
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Arghya Guchhait [email protected]
1
Department of Electronics and Communication Engineering, NIT Durgapur, Durgapur, India
2
Department of Electronics and Communication Engineering, NIIT University, Neemrana, India
3
Department of Information Technology, North East Hill University, Shillong, Meghalaya, India
nificant role in ITSs [2]. ITS will combine the technologies, information, computers, and communications and bid them in the
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