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Cyber-Physical-Social System for Parallel Driving: From Concept to Application

Teng Liu, Yang Xing, Xiaolin Tang, Hong Wang, Huilong Yu, Fei–Yue Wang

2020IEEE Intelligent Transportation Systems Magazine14 citationsDOI

Abstract

Digital quadruplets aiming to improve road safety, traffic efficiency, and driving cooperation for future connected automated vehicles are proposed with the enlightenment of ACP-based parallel driving. The ACP method denotes artificial societies, computational experiments, and parallel execution modules for cyberphysical-social systems. Four agents are designed in the framework of digital quadruplets: descriptive vehicles, predictive vehicles, prescriptive vehicles, and real vehicles. The three virtual vehicles (descriptive, predictive, and prescriptive) dynamically interact with the real one to enhance the safety and performance of the real vehicle. The details of the three virtual vehicles in the digital quadruplets are described. Then, the interactions between the virtual and real vehicles are presented. The experimental results of the digital quadruplets demonstrate the effectiveness of the proposed framework.

Topics & Concepts

QuadrupletsComputer scienceVirtual machineHuman–computer interactionOperating systemBiologyGestationPregnancyGeneticsTraffic control and managementAutonomous Vehicle Technology and SafetyVehicular Ad Hoc Networks (VANETs)
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