Safety aware fuzzy longitudinal controller for automated vehicles  被引量:3

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作  者:Konstantinos Mattas George Botzoris Basil Papadopoulos 

机构地区:[1]Department of Civil Engineering,Democritus University of Thrace,Xanthi 67100,Greece

出  处:《Journal of Traffic and Transportation Engineering(English Edition)》2021年第4期568-581,共14页交通运输工程学报(英文版)

摘  要:Vehicle automation holds significant opportunities in the efforts for safer road traffic.Even lower levels of automation like adaptive cruise control(ACC)systems have great potential.Apart from safety benefits,ACC systems could improve the efficiency of traffic networks.However,contemporary ACC systems are designed to be comfortable,but not guaranteed to be safe.Moreover,according to recent literature studies,they have been found to be conservative and string unstable,with traffic oscillations being amplified when traveling downstream.Due to those issues,severe problems can arise in the traffic flow and the efficiency of road traffic networks may deteriorate.Automating the vehicles’longitudinal movement through ADAS systems offers new opportunities in improving the safety conditions on the roads by designing more consistent controllers.In the present paper,a fuzzy controller is developed for automated longitudinal vehicle control.The controller is validated through simulation and real-world data of ACC systems that are currently available in the market.Using fuzzy surrogate safety metrics,the controller becomes aware of the safety level of any situation and can react properly.Moreover,the driving behavior is efficient for the traffic flow,comfortable and string stable,dampening traffic shockwaves that travel upstream.Results prove the robustness of the proposed solution.

关 键 词:Road safety Traffic simulation Fuzzy inference system Adaptive cruise control Vehicle automation 

分 类 号:U463.6[机械工程—车辆工程]

 

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