A Simulation Framework for Prototyping Intelligent Vehicle-to-Infrastructure Applications: A Case Study on RSU-Based Intersection Movement Assist for Connected Autonomous Vehicles

A cooperative intelligent transport system (C-ITS) enables information sharing among ITS subsystems, such as vehicle and roadside infrastructure, with vehicle-to-everything (V2X) communications. Novel C-ITS applications aim to reduce traffic congestion and improve road safety. For example, a roadsid...

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Veröffentlicht in:	IEEE access 2024, Vol.12, p.82584-82598
Hauptverfasser:	Wu, Chun-Ting, Wang, Shao-Hua, Tu, Chia-Heng
Format:	Artikel
Sprache:	eng
Schlagworte:	3D simulation Autonomous vehicles C-ITS Collision avoidance design space exploration Detection algorithms Hardware-in-the-loop simulation Hazard mitigation image-based vehicle detection Infrastructure Intelligent transportation systems Intelligent vehicles Performance assessment Performance evaluation Prototyping Roadsides Servers Simulation Software Subsystems Traffic congestion Traffic control Traffic intersections Traffic safety V2I communications Vehicle-to-infrastructure Vehicles Vehicular ad hoc networks
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creator	Wu, Chun-Ting Wang, Shao-Hua Tu, Chia-Heng
description	A cooperative intelligent transport system (C-ITS) enables information sharing among ITS subsystems, such as vehicle and roadside infrastructure, with vehicle-to-everything (V2X) communications. Novel C-ITS applications aim to reduce traffic congestion and improve road safety. For example, a roadside unit (RSU) can sense the traffic status of an intersection and share the information to nearby vehicles to prevent potential collision, i.e., the intersection movement assist (IMA) scenario. Typically, C-ITS applications are developed in a simulated world to mitigate the high costs and safety hazards associated with the real-world counterpart. Unfortunately, existing simulation tools focus primarily on modeling vehicle-to-vehicle (V2V) communications, rather than the vehicle-to-infrastructure (V2I) communications involved in the above example. This poses a great challenge for developing V2I-based applications, especially for the application-level performance assessment on such systems. This work proposes a software framework that enables the simulation of full software stacks for the ITS subsystems, i.e., vehicle and RSU. This full-stack simulation capability enables hardware-in-the-loop simulations, evaluating the application-level performance and relative cost in the early stage of system development. This can shorten the time to market for C-ITS applications. We believe that this framework paves the way toward the development of novel V2I applications.
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This full-stack simulation capability enables hardware-in-the-loop simulations, evaluating the application-level performance and relative cost in the early stage of system development. This can shorten the time to market for C-ITS applications. 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This full-stack simulation capability enables hardware-in-the-loop simulations, evaluating the application-level performance and relative cost in the early stage of system development. This can shorten the time to market for C-ITS applications. 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subjects	3D simulation Autonomous vehicles C-ITS Collision avoidance design space exploration Detection algorithms Hardware-in-the-loop simulation Hazard mitigation image-based vehicle detection Infrastructure Intelligent transportation systems Intelligent vehicles Performance assessment Performance evaluation Prototyping Roadsides Servers Simulation Software Subsystems Traffic congestion Traffic control Traffic intersections Traffic safety V2I communications Vehicle-to-infrastructure Vehicles Vehicular ad hoc networks
title	A Simulation Framework for Prototyping Intelligent Vehicle-to-Infrastructure Applications: A Case Study on RSU-Based Intersection Movement Assist for Connected Autonomous Vehicles
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