EXPERIMENTAL EVALUATION OF DIFFERENT CONTROLLERS FOR COOPERATIVE ADAPTIVE CRUISE CONTROL

机译：不同控制器对合作自适应巡航控制的实验评价

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Cooperative Adaptive Cruise Control (CACC) systems which enable vehicle following with tight inter-vehicle headway offer unique advantage to promote transportation mobility. CACC systems are a step forward the commercially available Adaptive Cruise Control (ACC) systems as they utilize inter-vehicle wireless communication for more advanced control system design. This work studies different wireless communication topologies, i.e., receiving wireless communication from one or more preceding vehicles, and different error-regulation controllers, i.e., linear vs non-linear, for CACC. Through robot following experiments, we show that appropriately designed CACC systems can all achieve vehicle following. For emergency hard braking, however, a non-linear vehicle-following controller which generates strong braking action at short inter-vehicle distances can reduce the risk of collision.

机译：协同自适应巡航控制（CACC）系统，使车辆紧凑的车辆沿着车辆跨入头，可提供独特的优势，以促进运输流动性。 CACC系统是向前推进市售的自适应巡航控制（ACC）系统，因为它们利用了用于更先进的控制系统设计的车辆间无线通信。该工作研究了不同的无线通信拓扑，即，从一个或多个前的车辆接收无线通信，以及用于CACC的不同的误差控制器，即线性Vs非线性。通过实验后的机器人，我们表明适当设计的CACC系统可以遵循换档。然而，对于应急硬制动，在短车辆间距离产生强制动动作的非线性车辆之后的控制器可以降低碰撞的风险。

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《ASME Annual Dynamic Systems and Control Conference》|2017年|v.p.|共8页
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Yuan Lin; Azim Eskandarian;
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1. Design of the communication structure of cooperative adaptive cruise controllers for vehicle platoons [J] . Jan Lunze IFAC PapersOnLine . 2019,第5期

机译：车辆排协同自适应巡航控制器通信结构设计
2. Design of the communication structure of cooperative adaptive cruise controllers for vehicle platoons [J] . Jan Lunze IFAC PapersOnLine . 2019,第5期

机译：车辆排协同自适应巡航控制器通信结构设计
3. LMI-Based Synthesis of String-Stable Controller for Cooperative Adaptive Cruise Control [J] . Zhu Yuanheng, He Haibo, Zhao Dongbin IEEE Transactions on Intelligent Transportation Systems . 2020,第11期

机译：基于LMI的合作自适应巡航控制串稳定控制器的合成
4. EXPERIMENTAL EVALUATION OF DIFFERENT CONTROLLERS FOR COOPERATIVE ADAPTIVE CRUISE CONTROL [C] . Yuan Lin, Azim Eskandarian ASME annual dynamic systems and control conference . 2017

机译：协同自适应巡航控制的不同控制器的实验评价。
5. Investigation of Cooperative Adaptive Cruise Control with Experimental Validation. [D] . Mukherjee, Pratik. 2016

机译：具有实验验证的协同自适应巡航控制研究。
6. Design and Experimental Evaluation of a Robust Position Controller for an Electrohydrostatic Actuator Using Adaptive Antiwindup Sliding Mode Scheme [O] . Ji Min Lee, Sung Hwan Park, Jong Shik Kim 2013

机译：基于自适应抗饱和滑模方案的静液压执行器鲁棒位置控制器的设计与实验评价。
7. Adaptive Cruise Control: Experimental Validation of Advanced Controllers on Scale-Model Cars [O] . Aakar Mehra, Wen-loong Ma, Forrest Berg, 2015

机译：自适应巡航控制：基于比例模型汽车的高级控制器的实验验证
8. Driver Preferences and Usability of Adjustable Distance Controls for an Adaptive211 Cruise Control (ACC) System. Human Factors Studies for the Evaluation, Analysis 211 and Operational Assessment of an Intelligent Cruise Control System [R] . Serafin, C. 1996

机译：适用于adaptive211巡航控制（aCC）系统的可调节距离控制的驾驶员偏好和可用性。智能巡航控制系统评估，分析211和运行评估的人为因素研究

EXPERIMENTAL EVALUATION OF DIFFERENT CONTROLLERS FOR COOPERATIVE ADAPTIVE CRUISE CONTROL

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