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Joshi S.M. Maghami E. Kelkar A.G. 《IEEE transactions on aerospace and electronic systems》1995,31(4):1314-1324
Control system design is considered for attitude control and vibration suppression of flexible space structures. The problem addressed is that of controlling both the zero-frequency rigid-body modes and the elastic modes. Model-based compensators, which employ observers tuned to the plant parameters, are first investigated. Such compensators are shown to generally exhibit high sensitivity to the knowledge of the parameters, especially the elastic mode frequencies. To overcome this problem, a class of dynamic dissipative compensators is next proposed which robustly stabilize the plant in the presence of unmodeled dynamics and parametric uncertainties. An analytical proof of robust stability is given, and a method of implementing the controller as a strictly proper compensator is described. Methods of designing such controllers to obtain optimal performance and robust stability are presented. Numerical and experimental results of application of the methods are presented, which indicate that dynamic dissipative controllers can simultaneously provide excellent performance and robustness 相似文献
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为满足三相不平衡飞机电网的无功功率实时补偿要求,设计了一种新型的静止无功补偿器(SVC)控制系统。该系统采用瞬时无功功率理论来精确检测基波正序和负序电压、电流,并推导出补偿导纳的表达式;SVC的整体控制采用了开环和闭环控制相结合的控制算法,并在闭环控制算法中,提出了自适应非线性模糊控制器在无功补偿控制系统中的应用方案。该方案结合了模糊控制和PID控制2种方法的优点,根据系统状况改变PID控制器的参数,以达到更好的动态控制效果。仿真研究结果表明,该新型SVC控制系统对于提高功率因数和补偿三相不平衡,具有响应快、精度高的控制效果。 相似文献
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Damping of synchronous generator oscillations has been investigated by using three types of controllers, i.e., the PI (proportional-integral) controller, the model reference adaptive controller (MRAC) and the variable-structure model-following controller (VSMFC). It was found that the PI controller fails to accommodate itself to the situation where there is a significant change in generator loading conditions. The MRAC greatly improves the dynamic responses of the generator over a wide range of operating conditions by minimizing the error in the responses obtained from the plant with a specified reference model. The damping of the generator is further improved by the VSMFC, which reduces the sensitivity of generator responses relative to plant parameter variations by providing sliding-mode operations 相似文献
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Chin-Hsing Cheng Yuan-Yih Hsu 《IEEE transactions on aerospace and electronic systems》1991,27(2):247-254
A scheme involving the use of a lookup table is developed for the excitation control of a synchronous generator. The proposed control scheme, generator speed deviation, and acceleration deviation are taken as the input signals. These input signals are sampled and converted to linguistic terms before they are fed into the controller. The controller generates the desired output (control) signal by using a set of production rules (if-then rules) that are based on previous experience to relate the input signals to the output. The output signal is converted from linguistic terms to a numerical value before it is sent to the excitation system of the synchronous machine. To demonstrate the effectiveness of the proposed control scheme, digital simulations of a synchronous generator subject to a three-phase fault under different operating conditions were performed. It was found that the controller can improve the dynamic performance of a synchronous generator over a wide range of operating conditions. Since the controller does not require model identification, it is computationally efficient and is suitable for online excitation control, using a microcomputer 相似文献
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A novel scheme for the control of synchronous generator excitation system is described. The proposed controller, which makes use of self-tuning proportional-integral (PI) control, is very effective for improving the dynamic performance of the synchronous machine over a wide range of operating conditions when the machine is subjected to major disturbances or small random load changes. A fixed-gain PI excitation controller is also included for comparison. 相似文献
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The problem of controller design for flexible spacecraft is addressed. Model-based compensators, which rely on the knowledge of the system parameters to tune the state estimator, are first considered, and are shown to have high sensitivity to parameter uncertainties. Three types of dissipative controllers, which use collocated actuators and sensors, are next considered. These controllers guarantee stability in the presence of unmodeled elastic modes and parameter uncertainties. A procedure is given for designing an optimal dissipative dynamic compensator, which can provide better performance while still retaining robust stability 相似文献
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Fuzzy自整定PID控制器设计及其MATLAB仿真 总被引:7,自引:0,他引:7
袁凤莲 《沈阳航空工业学院学报》2006,23(1):71-73
针对常规PID控制器不能在线进行参数自整定的问题,结合模糊控制技术,提出了一种模糊自整定PID参数的方法,运用MATLAB进行仿真研究表明,该模糊自整定PID控制器既具有PID控制器高精度的优点,又具有模糊控制器快速、适应性强的特点,使被控对象具有良好的动、稳态特性。 相似文献
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Bor-Ren Lin Der-Jan Chen Tsung-Liang Hung 《IEEE transactions on aerospace and electronic systems》2002,38(4):1287-1294
A high power factor rectifier based on neutral point clamped scheme is proposed. The voltage stress of each power semiconductor of the adopted rectifier is equal to the half dc bus voltage instead of full dc link voltage in the conventional switching mode rectifier. The control signals of the power switches are derived from the dc link voltage balance compensator, line current controller, and dc link voltage regulator. The hysteresis current control scheme is employed to draw a clean sinusoidal line current, high input power factor, regulated dc link voltage, and balance capacitor voltages. Three voltage levels are generated on the ac terminal of the adopted rectifier. To verify the proposed operation scheme, performance characteristics are given by the experimental results. 相似文献
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Three different types of controllers, i.e., the conventional controller, the linear optimal controller (LOC), and the variablestructure controller (VSC) are proposed for the coordinatedfrequency and voltage control of synchronous generators. Theinteraction between the frequency and voltage control loops is takeninto account by incorporating both the speed-governing system andthe excitation system into the mathematical model of thesynchronous generator. Results obtained from computer simulationindicate that the variable structure controller can yield the bestdynamic responses following a step load change. 相似文献
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介绍了高压变频器试验用同步发电机组电磁设计和结构设计等方面的特点,基于二维时域有限元法对该同步发电机组两个电机的谐波分布、气隙磁场时间分布、起动过程中阻尼环电密时间分布等电磁特性进行计算和分析。通过同步发电机机组样机型式试验验证了设计方案的可行性,为该类高压同步发电机机组在高压变频器领域进一步应用奠定基础。 相似文献
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多电机协调控制达到转速一致是电机控制中的一个关键难题,外加负载变动和电机参数变化时会引起电机性能的下降,达不到良好的控制效果。为使电机间保持转速同步,建立了永磁同步电机d-q坐标系下的矢量控制数学模型,基于转速跟随控制,提出一种基于单神经元PID的变增益速度补偿器进行偏差耦合控制。在MATLAB/Simulink建立了3台永磁同步电机的仿真模型。仿真结果表明,与传统PID固定增益速度补偿器算法相比,单神经元PID的变增益速度补偿器具有更强的鲁棒性以及更快的收敛性。 相似文献
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提出了基于小波神经网络PID的永磁同步电机(PMSM)转速控制策略。根据系统运行参数的变化,采用三层前馈式人工神经网络,基于梯度下降纠正误差法在线训练实时更新PID参数值。采用小波神经网络和增量式PID共同构成转速环控制器。建立PMSM数学模型,设计PMSM速度环控制器,构建S函数,对控制算法进行仿真试验,验证了该控制算法的先进性。试验结果表明,所提控制策略比传统PID转速控制具有更好的动态性能和抗干扰能力。 相似文献
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提出了一种串级PID+非线性模型预测控制(NMPC)的混合控制方案,用于涡轴发动机控制系统中。其中:主控制回路采用串级PID控制器以消除静差保证系统稳定;带约束优化的预测控制器则用于实时燃油补偿,以增强发动机系统对直升机功率需求的快速跟随能力。该预测控制器是基于在线预测模型实现,首先在VC环境下设计在线滚动最小二乘支持向量回归机(OSLS-SVR),在线训练高精度、实时性好的内嵌式预测模型,其测试精度可达3‰;而后利用该模型与序列二次规划(SQP)算法完成滚动优化,建立预测控制器;最后,在UH-60A直升机/T700涡轴发动机综合模型仿真环境下,通过模拟直升机大幅急速升降操作,验证了该混合预测控制方案对大扰动具有较强的抑制能力及鲁棒性,从而使直升机获得更好的机动性能。 相似文献
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Stabilization of synchronous generator oscillations is investigatedby using a single-input multiple-output (SIMO) excitation controller.The feedback signals which are most effective for the damping ofelectromechanical oscillations are selected based on the participationfactors of various signals. In order to improve the dampings ofpoorly damped oscillation modes, the eigenvalues associated withthese modes are shifted to certain prespecified locations by adjustingthe parameters of the excitation controller. Time domain simulationresults are also presented to show the validity of the proposedmethod. 相似文献
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WAEL Mohsen Ahmeda 《中国航空学报》2011,24(6):777-788
This paper investigates the boost phase’s longitudinal autopilot of a ballistic missile equipped with thrust vector control. The existing longitudinal autopilot employs time-invariant passive resistor-inductor-capacitor (RLC) network compensator as a control strategy, which does not take into account the time-varying missile dynamics. This may cause the closed-loop system instability in the presence of large disturbance and dynamics uncertainty. Therefore, the existing controller should be redesigned to achieve more stable vehicle response. In this paper, based on gain-scheduling adaptive control strategy, two different types of optimal controllers are proposed. The first controller is gain-scheduled optimal tuning-proportional-integral-derivative (PID) with actuator constraints, which supplies better response but requires a priori knowledge of the system dynamics. Moreover, the controller has oscillatory response in the presence of dynamic uncertainty. Taking this into account, gain-scheduled optimal linear quadratic (LQ) in conjunction with optimal tuning-compensator offers the greatest scope for controller improvement in the presence of dynamic uncertainty and large disturbance. The latter controller is tested through various scenarios for the validated nonlinear dynamic flight model of the real ballistic missile system with autopilot exposed to external disturbances. 相似文献
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PID Controller Optimization by GA and Its Performances on the Electro-hydraulic Servo Control System 总被引:3,自引:0,他引:3
A proportional integral derivative (PID) controller is designed and attached to electro-hydraulic servo actuator system (EHSAS) to control the angular position of the rotary actuator which control the movable surface of space vehicles. The PID gain parameters are optimized by the genetic algorithm (GA). The controller is verified on the new state-space model of servo-valves attached to the physical rotary actuator by SIMULINK program. The controller and the state-space model are verified experimentally. Simulation and experimental results verify the effectiveness of the PID controller adaptive by GA to control the angular position of the rotary actuator as compared with the classical PID controller and the compensator controller. 相似文献
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《中国航空学报》2016,(3):789-798
This paper presents an integrated fuzzy controller design approach to synchronize a dis-similar redundant actuation system of a hydraulic actuator (HA) and an electro-hydrostatic actu-ator (EHA) with system uncertainties and disturbances. The motion synchronous control system consists of a trajectory generator, an individual position controller for each actuator, and a fuzzy force tracking controller (FFTC) for both actuators. The trajectory generator provides the desired motion dynamics and designing parameters of the trajectory which are taken according to the dynamic characteristics of the EHA. The position controller consists of a feed-forward controller and a fuzzy position tracking controller (FPTC) and acts as a decoupled controller, improving posi-tion tracking performance with the help of the feed-forward controller and the FPTC. The FFTC acts as a coupled controller and takes into account the inherent coupling effect. The simulation results show that the proposed controller not only eliminates initial force fighting by synchronizing the two actuators, but also improves disturbance rejection performance. 相似文献