| 引用本文: | 李茂青,王以庆,高云波,阳长琼.基于多质点模型的动车组精准停车自适应控制[J].控制理论与应用,2022,39(8):1579~1586.[点击复制] |
| LI Mao-qing,WANG Yi-qing,GAO Yun-bo,YANG Chang-qiong.Adaptive control of electric multiple unit for accurate stopping based on multi-mass model[J].Control Theory and Technology,2022,39(8):1579~1586.[点击复制] |
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| 基于多质点模型的动车组精准停车自适应控制 |
| Adaptive control of electric multiple unit for accurate stopping based on multi-mass model |
| 摘要点击 1421 全文点击 654 投稿时间:2021-07-02 修订日期:2021-11-19 |
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| DOI编号 10.7641/CTA.2021.10581 |
| 2022,39(8):1579-1586 |
| 中文关键词 精准停车 多质点模型 动车组 参数自适应控制 输入–输出稳定性 |
| 英文关键词 accurate stopping multi-mass model electric multiple unit parameter adaptive control input-output stability |
| 基金项目 国家自然科学基金地区项目(61661027)资助. |
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| 中文摘要 |
| 精准停车是列车自动驾驶系统的关键技术之一, 有助于提高乘客上下车效率, 降低列车停站晚点风险. 本
文针对动车组精准停车问题, 建立动车组多质点非线性动力学模型, 处理各节车厢因随机且未知的乘车人数分配不
同的制动力. 在此模型的基础上, 利用动车组运行过程中的状态偏差, 设计自适应控制器. 针对模型动态非线性和参
数的未知性, 设计参数的估计律, 对参数值进行实时估计. 根据输入–输出稳定性理论, 通过构建含参数估计误差的
Lyapunov函数, 证明自适应控制算法的渐近稳定性. 仿真结果表明: 基于动车组多质点模型, 参数自适应控制器分配
不同的控制输入给复合控制单元进行协调制动. 该控制方法在实现动车组平稳运行的同时, 使得停车误差在±5 cm
以内. |
| 英文摘要 |
| As the key technology of the automatic train operation (ATO) system, accurate stopping is helpful for improving
the efficiency of boarding or alighting and reducing the risk of train delaying. Aiming at realizing accurate stopping
of electric multiple unit (EMU), we established a multi-mass nonlinear dynamics model of EMU to deal with the different
braking force due to stochastic and uncertain distribution of passengers along carriages. Further, a parameter adaptive
controller was designed by utilizing the state deviation during the EMU operation. The estimation law of parameters was
devised to tackle its uncertainty and multi-mass model’s dynamic nonlinearity in real time. According to the input-output
stability theory, the asymptotic stability of the control algorithm was proved through constructing the Lyapunov function
with respect to the error of parameter estimation. The simulation results show that parameter adaptive controller is able to
effectively allocate different inputs to composite control units for coordinated braking based on multi-mass model of EMU.
Under the premise of guaranteeing the smooth operation of EMU, the proposed method has controlled the stopping error
range within ± 5 cm. |
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