CTCS3级列控车载协同仿真子系统的研究与实现
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摘要
为构建高速铁路耦合大系统,提供列车运行控制信息,设计了CTCS3级列控车载协同仿真子系统。通过设计与高速列车动力学、牵引传动、自动驾驶、高速铁路系统基础数据库等各子系统间的接口,结合列车速度防护算法,完成了列控车载协同仿真子系统对高速列车运行的信号控制。该系统实现了列车运行控制系统与高速列车系统动力学仿真系统以及牵引传动仿真系统的协同仿真。以郑西客运专线数据为基础,进行协同仿真,并在仿真过程中进行追踪运行、故障设置和临时限速设置测试,验证了在耦合大系统下的列控车载协同仿真子系统的正确性。
To build a coupled large-scale system of high-speed railway so as to provide train operation control information,the CTCS3 onboard co-simulation subsystem was designed in this paper. And then,the interfaces of this subsystem with every other subsystem were designed,such as with the subsystems of high-speed train dynamics,traction drive,automatic train operation,underlying database of high-speed railway and so on. Further on,in combination with automatic train protection algorithm,the signal control over the operation of high-speed railway by using this train control onboard co-simulation subsystem has been achieved. This subsystem can achieve the co-simulation among train operation control system,high-speed train dynamics simulation system,and traction drive simulation system. Finally,based on the data of Zhengzhou-Xi'an passenger-dedicated line, a co-simulation was carried out,companied with operation tracing,and with relevant tests by setting the fault and setting the temporary speed restriction,which have verified the correctness of this train control onboard co-simulation subsystem under a coupled large-scale system.
To build a coupled large-scale system of high-speed railway so as to provide train operation control information,the CTCS3 onboard co-simulation subsystem was designed in this paper. And then,the interfaces of this subsystem with every other subsystem were designed,such as with the subsystems of high-speed train dynamics,traction drive,automatic train operation,underlying database of high-speed railway and so on. Further on,in combination with automatic train protection algorithm,the signal control over the operation of high-speed railway by using this train control onboard co-simulation subsystem has been achieved. This subsystem can achieve the co-simulation among train operation control system,high-speed train dynamics simulation system,and traction drive simulation system. Finally,based on the data of Zhengzhou-Xi'an passenger-dedicated line, a co-simulation was carried out,companied with operation tracing,and with relevant tests by setting the fault and setting the temporary speed restriction,which have verified the correctness of this train control onboard co-simulation subsystem under a coupled large-scale system.
引文
[1]张卫华,张曙光.高速列车耦合大系统动力学及服役模拟[J].西南交通大学学报,2008,43(2):147-152.
[2]YANG Xiaojuan.The Development and Innovative Direction of Train Control System[C]∥the 2nd International Conference on Intelligent Control and Information Processing,Harbin,July 25-28,2011:442-445.
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[4]龙许友,时瑾,王英杰,等.高速铁路线路线形动力仿真及乘坐舒适度评价[J].铁道科学与工程学报,2012,9(3):26-33.
[5]Hairong Dong,Bin Ning,Baigen Cai,et al.Automatic Train Control System Development and Simulation for High-Speed Railways[J].IEEE circuits and systems magazine,2010(2):6-18.
[6]HU Xiaohui,ZHOU Xingshe,DONG Jianwu.A Designing Method of Simulation Software for Chinese Train Control System Based on Hybrid Software Agent Model[C]//Proceedings of the Fifth International Conference on Machine Learning and Cybernetics.Dalian,2006:148-153.
[7]郭宁.CTCS2级列控系统超速防护仿真研究[D].成都:西南交通大学,2008.
[8]徐丽,张勇.CTCS3级列控系统车载设备仿真子系统的设计与实现[J].铁路计算机应用,2008,17(5):8-11.
[9]王黎.CTCS3级列控系统车载子系统仿真研究[D].成都:西南交通大学,2009.
[10]修桂生.CTCS-3级车载设备测试平台——列车运行仿真器的建模与实现[D].北京:北京交通大学,2010.
[11]徐丽.CTCS3列控系统仿真测试平台——车载设备仿真子系统的研究[D].北京:北京交通大学,2007.
[12]张仕雄.CTCS-3级列控系统测试序列合理性验证的研究[J].铁道标准设计,2012,12:103-105.
[13]中华人民共和国铁道部.运基信号[2008]670号CTCS-3级列控车载设备人机界面(DMI)显示规范(V1.0)[S].北京:中国铁道出版社,2008.
[14]上官伟,蔡伯根,王晶晶,等.时速250 km以上高速列车制动模式曲线算法[J].交通运输工程学报,2011,11(3):41-46.
[15]郭宁,杨巍,吴亮.CTCS2级列车运行控制系统超速防护仿真研究[J].交通运输工程与信息学报,2007,5(4):122-126.
[16]Booth P D.Intermittent and continuous automatic train protection[C]∥IET Professional Development Course on Railway Signaling and Control Systems,Birmingham,UK,2010:86-113.
[2]YANG Xiaojuan.The Development and Innovative Direction of Train Control System[C]∥the 2nd International Conference on Intelligent Control and Information Processing,Harbin,July 25-28,2011:442-445.
[3]蒋明.高速铁路牵引供电与受电系统建模与仿真[D].长沙:中南大学,2012.
[4]龙许友,时瑾,王英杰,等.高速铁路线路线形动力仿真及乘坐舒适度评价[J].铁道科学与工程学报,2012,9(3):26-33.
[5]Hairong Dong,Bin Ning,Baigen Cai,et al.Automatic Train Control System Development and Simulation for High-Speed Railways[J].IEEE circuits and systems magazine,2010(2):6-18.
[6]HU Xiaohui,ZHOU Xingshe,DONG Jianwu.A Designing Method of Simulation Software for Chinese Train Control System Based on Hybrid Software Agent Model[C]//Proceedings of the Fifth International Conference on Machine Learning and Cybernetics.Dalian,2006:148-153.
[7]郭宁.CTCS2级列控系统超速防护仿真研究[D].成都:西南交通大学,2008.
[8]徐丽,张勇.CTCS3级列控系统车载设备仿真子系统的设计与实现[J].铁路计算机应用,2008,17(5):8-11.
[9]王黎.CTCS3级列控系统车载子系统仿真研究[D].成都:西南交通大学,2009.
[10]修桂生.CTCS-3级车载设备测试平台——列车运行仿真器的建模与实现[D].北京:北京交通大学,2010.
[11]徐丽.CTCS3列控系统仿真测试平台——车载设备仿真子系统的研究[D].北京:北京交通大学,2007.
[12]张仕雄.CTCS-3级列控系统测试序列合理性验证的研究[J].铁道标准设计,2012,12:103-105.
[13]中华人民共和国铁道部.运基信号[2008]670号CTCS-3级列控车载设备人机界面(DMI)显示规范(V1.0)[S].北京:中国铁道出版社,2008.
[14]上官伟,蔡伯根,王晶晶,等.时速250 km以上高速列车制动模式曲线算法[J].交通运输工程学报,2011,11(3):41-46.
[15]郭宁,杨巍,吴亮.CTCS2级列车运行控制系统超速防护仿真研究[J].交通运输工程与信息学报,2007,5(4):122-126.
[16]Booth P D.Intermittent and continuous automatic train protection[C]∥IET Professional Development Course on Railway Signaling and Control Systems,Birmingham,UK,2010:86-113.
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