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并联混合动力汽车扭矩管理的模糊控制与仿真 被引量:2

Fuzzy-Logic-Based Torque Control and Simulation for Parallel-Type Hybrid Vehicle
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摘要 并联混合动力汽车中内燃机和电机之间存在动力的耦合和分离过程,能量管理策略比较复杂。为了进一步合理分配内燃机和电机的动力输出,增强其能量管理策略的鲁棒性,文中分析了电辅助控制策略的不足,提出了基于模糊逻辑控制的包含驾驶员扭矩识别和蓄电池功率平衡的并联混合动力汽车扭矩分配策略,并利用ADVI SOR2002的仿真环境,完成了该模糊逻辑扭矩控制模块的仿真。结果表明,模糊逻辑控制策略满足控制目标,对提高汽车的动力性和燃油经济性、改善排放、保证蓄电池的充放电功率平衡有明显的作用。 There is a power coupling and separating process between ICE and motor in the parallel-type hybrid vehicle, and the energy management strategy is comparatively complex. To further distribute the power output of the ICE and motor reasonably and improve the robust of energy management strategy on PHEV, the insufficiency of electric-assisted control is analyzed and the torque management strategy including driver's torque identification and the power balance controller of the battery based on fuzzy logic control for parallel-type hybrid vehicle is put forward. The module simulation of the fuzzy logic torque control is completed by using the mimic environment of ADVISOR2002.The result shows that the fuzzy logic control strategy can meet the control objectives and also improve the dynamic, fuel economy and emission, and can further promote the power charging and discharging balance of the battery.
作者 赵树恩 李玉玲
机构地区 陕西理工学院机电工程系
出处 《车用发动机》 北大核心 2004年第5期27-31,共5页 Vehicle Engine
关键词 混合动力汽车 扭矩管理策略 模糊逻辑 仿真 hybrid electric vehicle torque control strategy fuzzy logic simulation
分类号 U266.2 [机械工程—车辆工程]
  • 相关文献

参考文献2

  • 1Lee H D, Sul S K.Fuzzy-logic-based Torque Control Strategy for Parallel-type Hybrid Electric Vehicle[J].IEEE Transactions on Industrial Electronics,1998,45(4):625-632.
  • 2Langari R,Won J S.Intelligent Energy Management for Hybrid Vehicles via Drive Cycle Pattern Analysis and Fuzzy Logic Torque Distribution[J]. IEEE International Symposium on Intelligent Control,2003,50(10):223-228.

同被引文献9

  • 1孟亚鹏,金国栋,朱舟.并联混合动力电动汽车的转矩控制策略[J].汽车科技,2004(6):24-26. 被引量:5
  • 2Schouten N J,Salman M A,Kheir N A.Fuzzy Logic Control for Parallel Hybrid Vehicles.IEEE Transactions on Control Systems Technology,2002,10 (3).
  • 3Won Jong Seob,Langari Reza.Intelligent Energy Management Agent for a Parallel Hybrid Vehicle.Proc of the American Control Conference,2003.
  • 4N J Schouten, M A Salman, N A Kheir. Energy management strategies for parallel hybrid vehicles using fuzzy logic [J]. Control Engineering Practice (S0967-0661), 2003, 11(2): 171-177.
  • 5N J Schouten, M A Salman, N A Kheir. Fuzzy logic control for parallel hybrid vehicles [J]. IEEE Transaction on Control Systems Technology (S1063-6536), 2002, 10(3): 460-468.
  • 6J Seiler, D Schrodcr. Hybrid vehicle operating strategies [C].EVS-15, The 15th International Electric Vehicle Symposium and Exhibition. Brussels, Bcgium, The Europcan Electric Road Vehicle Association. Brussels, Bcgiurn, October 1998: 276-285.
  • 7A Kleimaier, D Schroder. Optimized design and control of hybrid vehicles with CVT [C].1st IFAC Conference on Mechatronic Systems, Darmstadt,Germany. Germany September 2000:210-218.
  • 8彭涛,陈全世.并联混合动力电动汽车的模糊能量管理策略[J].中国机械工程,2003,14(9):797-800. 被引量:27
  • 9邓亚东,高海鸥,王仲范.并联式混合动力电动汽车控制策略研究[J].武汉大学学报(工学版),2004,37(3):139-144. 被引量:28

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车用发动机
2004年 第5期

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