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JXXB200202017_caj
- 关于两个电机同步运动控制的一篇极好的论文。基于自适应控制的双电机同步传动控制研究-On the two-motor synchronous motion control of an excellent thesis. Adaptive control based on the two-motor synchronous drive control
steppermotorDriver
- 两相步进电机的自适应驱动的论文,对研究电机驱动很有帮助-Adaptive two-phase stepper motor-driven paper helpful in the study of motor-driven
ADPF
- 基于统计决策规则提出自适应采样数粒子滤波算法, 在定义综合性能风险函数的基础, 推导出粒子数与滤波误差方差之间的关系式, 使得在跟踪过程中, 可以根据目标的机动情况在线调节粒子数, 以使跟踪性能 达到最优。在Matlab仿真平台下进行了闪烁噪声下的机动目标跟踪实验, 结果表明, 自适应采样数粒子滤波算法是一种有效的机动目标跟踪方法, 跟踪性能较基本粒子滤波算法提高了3.17倍。-Based on statistical decision rules of the number of adap
A_real-time_adaptive_PID_controller_step_motor
- 传统PID控制器通常难以满足多变量、非线性、强耦合的步进电机动态响应和精 确调速要求,结合传统PID控制和模糊控制及遗传算法(GA)整定PID参数的优点,设计基于 模糊遗传算法的实时自适应步进电动机PID控制器,充分发挥传统和智能控制策略各自的优 势。仿真结果表明,该实时自适应步进电动机PID控制器,具有很好的自适应能力和抗负载扰 动能力。在稳定性、动态速度响应诸方面均优于传统的PID控制器和模糊控制器,系统达到了 较高调速性能和控制精度。 -Traditional PI
DC-motor-speed-PID-Control
- 为了改善无刷直流电机的调速性能 ,针对普通模糊 P ID速度控制器的缺陷 ,研究了基于变论域思想的自适应模糊 P ID控制器及其在 BLDCM控制系统中的应用。-To improve the performance of brushless DC motor speed, the speed for ordinary fuzzy P ID controller defect of thought based on variable universe adaptive fuzzy P ID con
yibudianjishiliangkongzhi
- 异步电机无速度传感器控制仿真 里面说的很详细 主要是模型参考自适应-Induction motor speed sensorless control simulation which is mainly that the very detailed model reference adaptive
kaddouriAMS49-52-2008
- Adaptive Nonlinear Control of an Electric Motor
Energy-Based-Adaptive-Sliding-Mode-Speed-Control-
- Torque ripple minimization of switched reluctance motor drives is a major subject based on these drives’ extensive use in the industry. In this paper, by using a wellknown cascaded torque control structure and taking the machine physical structur
Fuzzy-adaptive-control-of-PMSM
- 该控制器输出部分的比例因子可以根据转矩的变化趋势经自适应机构的模糊规则库在线调整,不仅可以使永磁同步电机直接转矩控制系统保持恒定的开关频率,而且可以有效地减小磁链和转矩脉动,特别是低速时的转矩脉动。仿真验证了自适应模糊永磁同步电机直接转矩控制策略的有效性。 -The output of the controller part of the scale factor by the adaptive mechanism of the fuzzy rules according to the to
3_110-3
- The article concerns observing states of the Induction Motor (IM) using a Luenberger observer in the speed servo drive. The movement of the motor and observer roots is analyzed for a variable speed. Following the analysis, a new method for gain e
5_3_8
- In This paper, the authors propose a Sensorless Direct Torque and Flux Control (DTFC) of Induction Motor (IM) using two approach intelligent techniques: Mamdani Fuzzy Logic (FL) controller is used for controlling the rotor speed and Artificial Ne
MRAS-PMSM
- 基于模型参考自适应的永磁同步电机的磁场定向控制-Based on the magnetic field of the permanent magnet synchronous motor model reference adaptive directional control
Rotor-Time-Constant-Identification
- 基于转子磁链模型的模型参考自适应方法,用于辨识转子时间常数-Rotor Time Constant Identification in Vector Controlled Induction Motor Applied Flux Model Reference Adaptive System (MRAS)
05593448
- 基于感应电机直接转矩控制自适应PI控制器 -Direct Torque Control of Induction Motor Based on Self-adaptive PI Controller
mohukongzhijiaoliuyibudianji
- 转矩模糊自适应控制的异步电机软起动的研究,这是一篇关于模糊控制应用于异步电机的文章,值得一看-Soft starters for asynchronous motor torque study fuzzy adaptive control, which is applied to an induction motor on the fuzzy control article, worth a visit
Adaptiveobser
- This paper presents the simulation of Induction motor by using an adaptive observer based on sliding mode
Energy-Based-Adaptive-Sliding-Mode-Speed-Control-
- Energy-Based Adaptive Sliding Mode Speed Control for Switched Reluctance Motor Drive
l-Passivity-Based-Robust-Adaptive-Control
- Note that the energy-regenerative current is directly proportional to the motor speed and the braking torque. Hence, if the rider brakes his EV at a high speed, the surge current of the energy regeneration will damage the battery at the braking
Adaptive-PID-Speed-Control-Design
- This paper proposes an adaptive proportionalintegral- derivative (PID) speed control scheme for permanentmagnet synchronous motor (PMSM) drives-This paper proposes an adaptive proportionalintegral- derivative (PID) speed control scheme
motor
- 最近的异步电机无速度传感器控制方法的综述文章(Review on model reference adaptive system for sensorless vector control of induction motor drives)