基于Matlab/GUI的混合动力汽车教学仿真平台设计
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摘要
基于Matlab图形用户界面GUI和Simulink,采用层次化、模块化和面向对象的设计思路,开发一种交互式的混合动力汽车整车性能仿真实验平台。利用此平台,用户能以交互的形式实现混合动力驱动系统方案选择、动力传动系统匹配、整车及核心部件参数设置、车辆动力性、经济性和排放性能预测,能量管理和驱动模式切换策略仿真等功能,极大方便了非专业用户的使用。平台界面友好,操作便捷,可供学生进行自主学习和二次开发,对开展开放式实验教学,增进学生对理论知识的掌握以及实践能力的培养具有积极的意义。
By adopting hierarchical,modular and object-oriented design ideas,an interactive simulation experiment platform for hybrid vehicle performance is developed based on Matlab's graphical user interface(GUI) and Simulink.User interface design is used by GUI,hybrid vehicle drive system solution selection,power train system matching,vehicle and core components parameters setting,dynamic,economic and emission performance prediction,energy management strategy and drive mode switching strategy simulation can be implemented by interaction,which greatly facilitates the use of non-professional users. The interface is friendly and easy to operate,it is available to students for independent learning and secondary development. This platform has a positive meaning to carry out open experimental teaching,and improve the students' theoretical knowledge and practice innovation ability.
By adopting hierarchical,modular and object-oriented design ideas,an interactive simulation experiment platform for hybrid vehicle performance is developed based on Matlab's graphical user interface(GUI) and Simulink.User interface design is used by GUI,hybrid vehicle drive system solution selection,power train system matching,vehicle and core components parameters setting,dynamic,economic and emission performance prediction,energy management strategy and drive mode switching strategy simulation can be implemented by interaction,which greatly facilitates the use of non-professional users. The interface is friendly and easy to operate,it is available to students for independent learning and secondary development. This platform has a positive meaning to carry out open experimental teaching,and improve the students' theoretical knowledge and practice innovation ability.
引文
[1]欧阳明高.中国新能源汽车的研发及展望[J].科技导报,2016,34(6):13-20.
[2]王小峰,于志民.中国新能源汽车的发展现状及趋势[J].科技导报,2016,34(17):13-18.
[3]林志鸿,林银盛.新能源汽车发展综述[J].南方农机,2017,48(12):37-38,69.
[4] Xiong R,Cao J Y,Yu Q Q. Reinforcement learning-based real-time power management for hybrid energy storage system in the plug-in hybrid electric vehicle[J]. Applied Energy,2018,211:538-548.
[5]张纯,曾庆玺,朱浩.混合动力汽车发展综述[J].机械工程与自动化,2016(2):222-224.
[6]唐葆君,刘江鹏.中国新能源汽车产业发展展望[J].北京理工大学学报(社会科学版),2015,17(2):1-6.
[7] Ehsani M,Emadi A. Modern electric,hybrid electric and fuel cell vehicles[M]. Bei Jing:China Machine Press,2015.
[8] Miller J M. Propulsion systems for hybrid vehicles[M]. Bei Jing:China Machine Press,2016.
[9]连静,化玉伟,李琳辉,等.基于CRUISE的并联混合动力汽车建模与仿真[J].汽车电器,2014(5):56-59.
[10]莫宇,尹安东.基于AMESim的混合动力汽车控制策略设计与优化[J].汽车科技,2018(1):8-13.
[11]毛冲冲,胡军.插电式四轮驱动混合动力汽车建模仿真与匹配分析[J].湖北汽车工业学院学报,2015,29(4):1-5,10.
[12]白羽鹤,范健文,谭光兴.基于Matlab/Simulink的混联式混合动力电动汽车建模与仿真[J].计算机与现代化,2014(3):24-30.
[13]马俊.液压混合动力汽车虚拟实验平台的研究[D].长春:吉林大学,2015.
[14]杜世民,杨润萍.基于Matlab GUI的“信号与系统”教学仿真平台开发[J].实验技术与管理,2012,29(3):87-90.
[15]宫薇薇,冯姗姗,韩煦.基于Matlab GUI的实验平台快速搭建技术[J].大学物理实验,2017,30(2):105-108.
[16] Porritt R W. Updates to funcLab,a matlab based GUI for handling receiver functions[J]. Computers and Geosciences,2017,111:260-271.
[2]王小峰,于志民.中国新能源汽车的发展现状及趋势[J].科技导报,2016,34(17):13-18.
[3]林志鸿,林银盛.新能源汽车发展综述[J].南方农机,2017,48(12):37-38,69.
[4] Xiong R,Cao J Y,Yu Q Q. Reinforcement learning-based real-time power management for hybrid energy storage system in the plug-in hybrid electric vehicle[J]. Applied Energy,2018,211:538-548.
[5]张纯,曾庆玺,朱浩.混合动力汽车发展综述[J].机械工程与自动化,2016(2):222-224.
[6]唐葆君,刘江鹏.中国新能源汽车产业发展展望[J].北京理工大学学报(社会科学版),2015,17(2):1-6.
[7] Ehsani M,Emadi A. Modern electric,hybrid electric and fuel cell vehicles[M]. Bei Jing:China Machine Press,2015.
[8] Miller J M. Propulsion systems for hybrid vehicles[M]. Bei Jing:China Machine Press,2016.
[9]连静,化玉伟,李琳辉,等.基于CRUISE的并联混合动力汽车建模与仿真[J].汽车电器,2014(5):56-59.
[10]莫宇,尹安东.基于AMESim的混合动力汽车控制策略设计与优化[J].汽车科技,2018(1):8-13.
[11]毛冲冲,胡军.插电式四轮驱动混合动力汽车建模仿真与匹配分析[J].湖北汽车工业学院学报,2015,29(4):1-5,10.
[12]白羽鹤,范健文,谭光兴.基于Matlab/Simulink的混联式混合动力电动汽车建模与仿真[J].计算机与现代化,2014(3):24-30.
[13]马俊.液压混合动力汽车虚拟实验平台的研究[D].长春:吉林大学,2015.
[14]杜世民,杨润萍.基于Matlab GUI的“信号与系统”教学仿真平台开发[J].实验技术与管理,2012,29(3):87-90.
[15]宫薇薇,冯姗姗,韩煦.基于Matlab GUI的实验平台快速搭建技术[J].大学物理实验,2017,30(2):105-108.
[16] Porritt R W. Updates to funcLab,a matlab based GUI for handling receiver functions[J]. Computers and Geosciences,2017,111:260-271.