您要查找的是不是:
- Rajani K. Mudi, Nikhil R. Pal.A self-tuning fuzzy PI controller[J], Fuzzy Sets and Systems (2000) 327-338. 周箴;万淑芸等.;模糊控制在无速度传感器交流调速系统中的应用[J]
- A novel fuzzy PI controller is proposed to improve the disturbance-resisting performance of permanent magnet synchronous motor servo systems. 为提高永磁同步电动机控制系统的抗扰性能,设计了一种新型的模糊PI控制器。
- The results show that the fuzzy PI controller and the control strategy suppress the vehicle oversteering or understeering by the effective control of the brake force an. 结果表明:所设计的模糊PI控制器及控制策略可以通过制动力控制有效地抑制汽车的过多转向或不足转向趋势,提高汽车的操纵稳定性。
- Jo guarantee the validity and speediness in simulation, a self-tuning Fuzzy PI controller is adopted in the speed loop and a hysteresis current controller is adopted in the current loop. 为了观察模型的高效性和快速性,速度环采用模糊PI控制,电流环采用滞环电流控制。
- The analysis on the simulation results in stepless speed regulating system of automotive air-conditioning fan shows that the fuzzy PI control is better than the conventional PI control. 通过对汽车空调风机的无级调速系统仿真结果的分析,表明模糊PI控制优于传统的PI控制,证明了该无级调速系统仿真模型的正确性。
- PMSM Speed Ripple Restraining Based on Fuzzy PI Control 基于模糊PI控制的永磁同步电机转速脉动抑制
- A Research on Fuzzy PI Control for Traction Control System 牵引力控制系统模糊PI控制方法研究
- Design of Fuzzy PI Controller Used for Permanent Magnet Synchronous Motor 用于永磁同步电动机驱动的模糊PI控制器设计
- Experimental Study on Rolling Mill Closed-loop Position Control Using Fuzzy PI Controller 模糊PI轧机位置闭环控制实验研究
- RESEARCH OF A TWO-VARIABLE SELF-TUNING FUZZY PI CONTROL AND ITS APPLICATION IN AEROENGINE CONTROL 一种双变量自校正模糊PI控制在发动机控制中的应用
- fuzzy PI controller 模糊PI控制
- Immune Fuzzy PI Control 模糊免疫PI控制
- adaptive fuzzy PI control 模糊自适应PI控制
- fuzzy PI control 模糊PI控制
- Integrating fuzzy neural network and PI controller,we ob-tained a fuzzy neural decoupled hybrid controller. 本文将模糊神经网络与PI控制技术相结合构成一种模糊神经解耦混合控制器。
- The paper proposes a fuzzy logic controller combining a sliding mode controller and a PI controller for a class of nonlinear systems with uncertain disturbances. 对于一类具有不确定性扰动的非线性系统 ,提出了一种结合滑模控制与比例积分控制的模糊逻辑控制器。
- Then a hybrid fuzzy logic controller which combines a sliding controller and a PI controller is proposed, and the stability of the system is analyzed using Lyapunov principle. 而后提出了一种结合滑模控制与比例积分控制的模糊逻辑控制器 ,运用李亚普诺夫原理对系统的稳定性进行了分析。
- The experiment proves that it is superior to the classical PI controller. 试验证明比传统的PI控制器优越。
- The results show that this PI controller is effective in LSRM speed control. 仿真结果表明该方法可以很好的用在控制中。
- A torque fuzzy logic controller was designed to substitute the original torque PI controller, and a fuzzy SVM-DTC system based on the fuzzy controller was given. 设计了转矩模糊控制器代替原有的转矩PI控制器,并给出了基于此模糊控制器的SVM-DTC系统。
