基于城市轨道交通调度指挥仿真系统的实验教学研究
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摘要
针对我国城市轨道交通快速发展而产生的专业人才培养需求,构建技术先进、环境逼真、功能完备的城市轨道交通调度指挥仿真实验系统,分析仿真系统的功能、设备构成、仿真原理及流程。依托仿真系统,以学生能力培养为核心,按照"层次化、个性化、协同化"的教学理念,设计验证型、综合型、设计型实验项目,并采取科学的教学组织及评价方案,有效地培养了学生的创新实践能力和灵活运用理论知识解决实际问题的能力,促进了学生知识、能力和专业素质的协同发展。
Based on the demand of professional talents training produced by the rapid development of urban rail transit in China, the simulation experiment system of urban rail transit dispatching and command is constructed with advanced technology, realistic environment and complete function. The function, equipment composition, simulation principle and process of the simulation system are analyzed. Based on the simulation system and taking the students as the center, according to the teaching idea of "hierarchical, individualized and synergistic", the experimental projects of verification type, comprehensive type and design type are designed, and the scientific teaching organization and evaluation scheme are adopted to effectively cultivate the students' creative practice ability as well as the ability of solving practical problems with flexible use of theoretical knowledge. Meanwhile, the students' knowledge, ability and professional quality are coordinated developed.
Based on the demand of professional talents training produced by the rapid development of urban rail transit in China, the simulation experiment system of urban rail transit dispatching and command is constructed with advanced technology, realistic environment and complete function. The function, equipment composition, simulation principle and process of the simulation system are analyzed. Based on the simulation system and taking the students as the center, according to the teaching idea of "hierarchical, individualized and synergistic", the experimental projects of verification type, comprehensive type and design type are designed, and the scientific teaching organization and evaluation scheme are adopted to effectively cultivate the students' creative practice ability as well as the ability of solving practical problems with flexible use of theoretical knowledge. Meanwhile, the students' knowledge, ability and professional quality are coordinated developed.
引文
[1] 徐纪康,赵晓峰,周艳丽.城市轨道交通运营信号基础[M].成都:西南交通大学出版社,2017.
[2] 王有发,杨照,庞瑾.2017年中国城市轨道交通运营线路统计和分析——中国城市轨道交通“年报快递”之五[J].城市轨道交通研究,2018,21(1):1-6.
[3] 国务院关于印发“十三五”现代综合交通运输体系发展规划的通知(国发[2017]11号)[EB/OL].[2017-02-28].http://www.gov.cn/zhengce/content/2017-02/28/content_5171345.htm.
[4] 许晓晓.我国城市轨道交通发展面临的人才瓶颈及对策[J].经济师,2018(4):280-282.
[5] 赵一新.城市轨道交通发展的思考[J].城市轨道交通,2017(3):10-14.
[6] 颜喜林.城市轨道交通工程实践教学模式探讨[J].实验技术与管理,2010,27(12):171-173.
[7] 王顺利,孙景冬,王淑伟.铁路运输管控一体实验平台设计与研究[J].实验技术与管理,2013,30(8):97-100.
[8] 张晓梅,郭峤枫,蔺浩,等.高速铁路行车调度指挥仿真实验平台建设和实验教学[J].实验技术与管理,2017,34(9):120-123.
[9] 王壮锋.智能高速铁路行车指挥仿真系统的研究[D].北京:铁道部科学研究院,2003.
[10] 张小林,周美华,李茂康.综合性、设计性实验教学改革探索与实践[J].实验技术与管理,2007(7):94-96.
[11] 崔宏巍,朱方来.多层次协同式实践教学平台构建与研究[J].实验技术与管理,2014,31(3):143-146.
[12] 周秦武,张博,张大龙,等.以项目驱动为导向的专业综合实验课程设计与实践[J].实验技术与管理,2014,31(3):183-185.
[2] 王有发,杨照,庞瑾.2017年中国城市轨道交通运营线路统计和分析——中国城市轨道交通“年报快递”之五[J].城市轨道交通研究,2018,21(1):1-6.
[3] 国务院关于印发“十三五”现代综合交通运输体系发展规划的通知(国发[2017]11号)[EB/OL].[2017-02-28].http://www.gov.cn/zhengce/content/2017-02/28/content_5171345.htm.
[4] 许晓晓.我国城市轨道交通发展面临的人才瓶颈及对策[J].经济师,2018(4):280-282.
[5] 赵一新.城市轨道交通发展的思考[J].城市轨道交通,2017(3):10-14.
[6] 颜喜林.城市轨道交通工程实践教学模式探讨[J].实验技术与管理,2010,27(12):171-173.
[7] 王顺利,孙景冬,王淑伟.铁路运输管控一体实验平台设计与研究[J].实验技术与管理,2013,30(8):97-100.
[8] 张晓梅,郭峤枫,蔺浩,等.高速铁路行车调度指挥仿真实验平台建设和实验教学[J].实验技术与管理,2017,34(9):120-123.
[9] 王壮锋.智能高速铁路行车指挥仿真系统的研究[D].北京:铁道部科学研究院,2003.
[10] 张小林,周美华,李茂康.综合性、设计性实验教学改革探索与实践[J].实验技术与管理,2007(7):94-96.
[11] 崔宏巍,朱方来.多层次协同式实践教学平台构建与研究[J].实验技术与管理,2014,31(3):143-146.
[12] 周秦武,张博,张大龙,等.以项目驱动为导向的专业综合实验课程设计与实践[J].实验技术与管理,2014,31(3):183-185.