Abstract
Increased number of the vehicles on the streets around the world has led to several problems including traffic congestion, emissions, and huge fuel consumption in many regions. With advances in wireless and traffic technologies, the Intelligent Transportation System (ITS) has been introduced as a viable solution for solving these problems by implementing more efficient use of the current infrastructures. In this paper, the possibility of using cellular-based Low-Power Wide-Area Network (LPWAN) communications, LTE-M and NB-IoT, for ITS applications has been investigated. LTE-M and NB-IoT are designed to provide long range, low power and low cost communication infrastructures and can be a promising option which has the potential to be employed immediately in real systems. In this paper, we have proposed an architecture to employ the LPWAN as a backhaul infrastructure for ITS and to understand the feasibility of the proposed model, two applications with low and high delay requirements have been examined: road traffic monitoring and emergency vehicle management. Then, the performance of using LTE-M and NB-IoT for providing backhaul communication infrastructure has been evaluated in a realistic simulation environment and compared for these two scenarios in terms of end-to-end latency per user. Simulation of Urban MObility has been used for realistic traffic generation and a Python-based program has been developed for evaluation of the communication system. The simulation results demonstrate the feasibility of using LPWAN for ITS backhaul infrastructure mostly in favor of the LTE-M over NB-IoT.
Highlights
Over the last decades, an ever-increasing rise in the number of vehicles, especially in metropolitan areas, has created multiple problems including traffic congestion, massive fuel consumption, high rates of accidents, and pollution
The Traffic Control Interface (TraCI) acts as communication medium between Simulation of Urban MObility (SUMO) and any external software, where SUMO generates a realistic traffic environments and the external software acts as the client with the capability of impacting the simulation, movements and speed of the cars, etc. [39]
We studied the Long term evolution (LTE)-M and NB-Internet of Things (IoT) as a viable cellular-based Low-Power Wide-Area Network (LPWAN) communication technologies
Summary
An ever-increasing rise in the number of vehicles, especially in metropolitan areas, has created multiple problems including traffic congestion, massive fuel consumption, high rates of accidents, and pollution. Recent advances in wireless technologies along with the emerging Internet of Things (IoT), opened up a new form of low-cost and wide-range communication which can reduce the challenges of immediate implementation of the ITS application. By integration with IoT, the ITS can apply advanced technologies in the processing, storing, and wireless communication to create the Internet of Vehicles (IoV) and Road Side Elements (IoRSE) [2, 3]. This allows the vehicles and the infrastructures to communicate effectively to collect the traffic data and improve the traffic conditions [4, 5]
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