Description: 本程序为基于RBF神经网络上界自适应学习的滑模控制,适用于实际无法测量上界值的情况。-This procedure is based on the RBF neural network to learn the upper bound of adaptive sliding mode control, can not be applied to the actual measurement of the upper bound values. Platform: |
Size: 4096 |
Author:韩冷飞 |
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Description: 自适应滑模控制程序,现在自适应控制在航空航天应用的比较多,将滑模控制和自适应控制结合起来,有其他控制方法无法比拟的优势-Adaptive sliding mode control process, and now Adaptive control in aerospace applications more to sliding mode control and adaptive control combined control method has other advantages beyond compare Platform: |
Size: 1024 |
Author:苏是 |
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Description: 自适应模糊滑模控制器设计的matlab源代码,对于研究滑模变结构控制的同学很有用。-Adaptive fuzzy sliding mode controller design matlab source code for the study of sliding mode variable structure control students useful. Platform: |
Size: 5120 |
Author:zwb |
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Description: An adaptive fuzzy integral sliding mode
controller for mismatched time-varying linear systems is
presented in this paper. The proposed fuzzy integral sliding
mode controller is designed to have zero steady state
system error under step inputs and alleviate the undesired
chattering around the sliding surface-An adaptive fuzzy integral sliding modecontroller for mismatched time-varying linear systems ispresented in this paper. The proposed fuzzy integral slidingmode controller is designed to have zero steady statesystem error under step inputs and alleviate the undesiredchattering around the sliding surface Platform: |
Size: 365568 |
Author:zhanxiaolei |
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Description: 利用线性化反馈方法,设计滑模控制器。利用这种技术,设计了一种自适应神经控制器。-The use of feedback linearization method, the design sliding mode controller. With this technology, design of an adaptive neural controller. Platform: |
Size: 1024 |
Author:刘坤 |
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Description: :针对电动汽车永磁同步电机无位置传感器控制系统,在两相静止坐标系( —B)内将滑模观测器法
与MRAS结合,提出了基于模型参考自适应的滑模观测器,并利用自适应律估计永磁同步电机的转子速度。仿真
和试验表明无位置传感器控制方法是切实可行的。
关键词:电动汽车永磁同步电机无位置传感器控制 自适应滑模观测器-This paper presents a new adaptive slid—mode observer for electric vehicle permanent magnet
synchronous motor(PMSM)sensorless control system,which is combined with the sliding mode observer and model
reference adaptive method in the two—phase stationary reference frame. The speed of PMSM rotor is estimated by
adaptive law.Simulation and experimental results show that the sensol ]ess control method is practical and feasible。
Key words:EV PMSM position sensor]ess control ASMO(adaptive slid—mode observer) Platform: |
Size: 488448 |
Author:fmx |
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Description: this is a MATLAB Simulation for a Adaptive PID controller based on a sliding mode for uncertain chaotic systems. Platform: |
Size: 10240 |
Author:siamak |
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Description: 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 structure
characteristics into account, the proposed energy-based (passivity-based) adaptive sliding
algorithm derived from the viewpoint of energy dissipation, control stability and algorithm
robustness. Platform: |
Size: 547840 |
Author:masoud |
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Description: This paper proposes an adaptive fuzzy sliding mode controller for robotic manipulators. An adaptive single-input single-output (SISO) fuzzy system is applied to calculate each element of the control gain vector in a sliding mode controller. The adaptive law is designed based on the Lyapunov method. Mathematical proof for the stability and the convergence of the system is presented. Various operation situations such as the set point control and the trajectory control are simulated. The simulation results demonstrate that the chattering and the steady state errors, which usually occur in the classical sliding mode control, are eliminated and satisfactory trajectory tracking is achieved. Platform: |
Size: 1337344 |
Author:Diamant |
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Description: An adaptive fuzzy sliding-mode control (AFSMC) design method is proposed to control an induction servomotor system. The proposed AFSMC system is comprised of a fuzzy controller and a compensation controller. The fuzzy controller is used to mimic an ideal computational controller. The compensation controller is designed to compensate for the difference between the ideal computational controller and the fuzzy controller. All parameters in the proposed AFSMC system are tuned in the Lyapunov sense thus the stability of the system can be guaranteed. Simulation and experimental results verify that the proposed design method can achieve satisfactory control performance with regard to parameter variations and external disturbance.-An adaptive fuzzy sliding-mode control (AFSMC) design method is proposed to control an induction servomotor system. The proposed AFSMC system is comprised of a fuzzy controller and a compensation controller. The fuzzy controller is used to mimic an ideal computational controller. The compensation controller is designed to compensate for the difference between the ideal computational controller and the fuzzy controller. All parameters in the proposed AFSMC system are tuned in the Lyapunov sense thus the stability of the system can be guaranteed. Simulation and experimental results verify that the proposed design method can achieve satisfactory control performance with regard to parameter variations and external disturbance. Platform: |
Size: 326656 |
Author:Diamant |
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Description: A position control of a class of servomotors is addressed in this paper via a novel adaptive fuzzy PI sliding mode control. The premise and the consequence parts of the fuzzy rules are tuned with adaptive schemes. To attenuate chattering effectively, the discontinuous control is approximated by an adaptive PI control structure.Moreover, the bound of the discontinuous control term is assumed to be unknown, and an adaptive mechanism is used to estimate this bound. All adaptive laws are derived via Lyapunov synthesis method, thereby guaranteeing the closed-loop stability. The proposed approach has the added advantage that, for external disturbances, it only requires a bound to exist, without needing to know the magnitude of this bound. The proposed controller is applied to control a model of uncertain induction servomotor subject to significant disturbances and a model of DC servomotor with unknown parameters and uncertainty in load condition. Platform: |
Size: 269312 |
Author:Diamant |
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Description: 本系统可以实现对非线性系统的滑膜变结构控制(带扰动)(It's a sliding mode control for nonlinear systems with disturbs) Platform: |
Size: 10240 |
Author:Wwendy
|
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Search - adaptive sliding mode