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Longitudinal acceleration tracking control of vehicular stop-and-go cruise control system

机译：车辆走走巡航控制系统的纵向加速度跟踪控制

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In this paper, a Model Matching Control (MMC) controller based on Sliding Mode Control (SMC) method is proposed for longitudinal acceleration tracking control of vehicular stop-and-go cruise control system. After investigating the nonlinearities of the vehicle acceleration response on low-speed condition, a nominal trans-function model of the vehicle longitudinal dynamic system is obtained with the LMS system identification technique. Using this nominal trans-function model, the MMC controller, including a SMC feedback compensator, is designed. It can combine the advantage of the two control methods, control robustness and rapid response. Compared with conventional MMC controller based on the PID method, the simulation results show that the proposed controller not only enhances the rapid tracking capability of vehicle acceleration effectively but also improves the system's robustness on low-speed condition.

机译：本文提出了一种基于滑模控制（SMC）方法的模型匹配控制（MMC）控制器，用于车辆停止巡航控制系统的纵向加速跟踪控制。在研究低速条件下车辆加速度响应的非线性之后，利用LMS系统识别技术获得车辆纵向动态系统的标称跨功能模型。使用该标称跨功能模型，设计了包括SMC反馈补偿器的MMC控制器。它可以组合两个控制方法的优点，控制鲁棒性和快速响应。与基于PID方法的传统MMC控制器相比，仿真结果表明，所提出的控制器不仅提高了车辆加速的快速跟踪能力，而且还提高了系统对低速条件的鲁棒性。

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《》|2004年|p.607-612|共6页
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Yang Bin; Keqiang Li; Xiaomin Lian; Ukawa; H.; Handa; M.; Idonuma; H.;
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中图分类无线电电子学、电信技术;
关键词
variable structure systems; acceleration control; velocity control; position control; control system synthesis; feedback; traffic control; control nonlinearities; longitudinal acceleration tracking control; vehicular stop-and-go cruise control system; model matching control; SMC feedback compensator; sliding mode control; transfunction model; vehicle acceleration; vehicle longitudinal dynamic system; LMS system identification; PID method;

机译：变结构系统;加速度控制;速度控制;位置控制;控制系统综合;反馈;交通控制;非线性控制;纵向加速度跟踪控制;车辆停走巡航控制系统;模型匹配控制; SMC反馈补偿器;滑模控制;功能模型;车辆加速度;车辆纵向动态系统; LMS系统识别; PID方法;

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专利

1. A Safe Longitudinal Control for Adaptive Cruise Control and Stop-and-Go Scenarios [J] . John-Jairo Martinez, Carlos Canudas-de-Wit IEEE Transactions on Control Systems Technology . 2007,第期

机译：自适应巡航控制和走走停停情况的安全纵向控制
2. Switching Control Paradigms for Adaptive Cruise Control System with Stop-and-Go Scenario [J] . Haroon Z., Khan B., Farid U., Arabian Journal for Science and Engineering . 2019,第3期

机译：具有停走场景的自适应巡航控制系统的切换控制范式
3. Switching Control Paradigms for Adaptive Cruise Control System with Stop-and-Go Scenario [J] . Haroon Z., Khan B., Farid U., Arabian Journal for Science and Engineering . 2019,第3期

机译：具有停止和GO方案的自适应巡航控制系统切换控制范例
4. Longitudinal acceleration tracking control of vehicular stop-and-go cruise control system [C] . Yang Bin, Keqiang Li, Xiaomin Lian, IEEE International Conference on Networking, Sensing and Control . 2004

机译：车辆停止巡航控制系统的纵向加速跟踪控制
5. Development of a car-following model to simulate driver and autonomous intelligent cruise controlled vehicular traffic flow. [D] . Aycin, Murat Fahrettin. 2001

机译：开发汽车跟随模型，以模拟驾驶员和自主智能巡航控制的车辆交通流量。
6. Flagellated Magnetotactic Bacteria as Controlled MRI-trackable Propulsion and Steering Systems for Medical Nanorobots Operating in the Human Microvasculature [O] . Sylvain Martel, Mahmood Mohammadi, Ouajdi Felfoul, -1

机译：被鞭毛的磁通术细菌作为控制MRI可跟踪的推进和用于人体微血管操作中的医疗纳米菌的转向系统
7. Decentralized Longitudinal Tracking Control for Cooperative Adaptive Cruise Control Systems in a Platoon [O] . Shi-yuan Han, Yue-hui Chen, Lin Wang, 2014

机译：排中协同自适应巡航控制系统的分散纵向跟踪控制
8. Investigation into the Application of Dynamic Programming to Determine Optimal Controls for Tracking a Cruise Missile Maneuver by CMMCA (Cruise Missile Mission Control Aircraft) [R] . Heavner, L. G. 1989

机译：CmmCa（巡航导弹任务控制飞机）动态规划确定跟踪巡航导弹机动最佳控制的应用研究

Longitudinal acceleration tracking control of vehicular stop-and-go cruise control system

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