基于非奇异快速终端滑模的永磁同步电机转速和电流控制

针对永磁同步电机在矢量控制中存在转速和电流频繁超调、稳态精度低、鲁棒性弱等问题,运用非奇异快速终端滑模控制器替代传统PI控制下的转速环控制器和电流环控制器,并采用李雅普诺夫函数证明了3个控制器的稳定性。借助MATLAB/Simulink仿真软件分析了采用非奇异快速终端滑模控制器和PI控制器的转速、电流响应波形。仿真结果表明:采用非奇异快速终端滑模控制器有更小的超调量、更高的稳态精度和更强的鲁棒性。     

新一代歼击机超机动飞行的动态逆控制

 根据反馈线性化理论, 讨论了神经网络自适应非线性动态逆控制设计。首先根据时标分离原则, 采用动态逆方法设计快回路和慢回路控制器; 其次提出基于模型逆的神经网络非线性直接自适应控制方案, 设计一种在线神经网络用于补偿模型逆误差。仿真表明, 该控制方案具有较好的自适应能力和鲁棒性。     

基于多模型切换的鲁棒自适应控制器

系统参数发生跳变时,为了解决多变量系统暂态响应变差的问题,提出一种基于多模型切换的鲁棒自适应控制器。该控制器由多个鲁棒自适应控制器组成,鲁棒自适应控制器保证系统存在未建模动态时能够使自适应系统稳定运行,引入的多模型策略保证系统参数跳变时具有良好的暂态性能。仿真结果表明,所提出的多模型鲁棒自适应控制器能够加快系统的响应速度,提高系统的暂态性能。     

飞行/推进系统自适应神经网络综合控制仿真研究

 提出一种基于发动机喘振裕度自适应的飞行 /推进系统综合控制。在发动机喘振裕度较大的某些飞行条件或飞行包线内,通过调整喷口面积,使发动机喘振裕度保持在一个较小值,既保证发动机稳定工作,又增加发动机推力,从而改善飞机的性能。采用分散控制方案,综合控制系统由 5个控制子系统组成。各控制子系统的设计采用自适应控制和神经网络相结合的方法,所提出的参数和权重的自适应调整律保证系统的稳定性。全包线范围内飞机平飞加速和爬升数字仿真结果表明,该综合控制方法可缩短飞机的平飞加速时间和爬升时间。     

Adaptive controller design for a linear motor control system

Three different adaptive controllers for a permanent magnet linear synchronous motor (PMLSM) position-control system are proposed. The proposed controllers include: a backstepping adaptive controller, a self-tuning adaptive controller, and a model reference adaptive controller. The detailed systematic controller design procedures are discussed. A PC-based position control system is implemented. Several experimental results including transient responses, load disturbance responses, and tracking responses of square-wave, sinusoidal-wave, and triangular-wave commands are discussed and compared. The proposed system has a good robustness performance even though the inertia of the system is increased to 10 times. The experimental results validate the theoretical analysis.     

航空发动机PI控制参数频域最优整定方法

针对航空发动机高、低压转速和压比的控制回路,研究满足幅值裕度和相角裕度要求的比例-积分(PI)控制参数稳定域确定方法.根据系统在频域的稳定域解析模型,建立考虑PI控制器的系统参数频域稳定域图形.根据典型的动态性能指标和鲁棒性指标定义的优化目标函数,在所得到的控制参数稳定域中寻找到一组最优的PI控制参数.该方法应用于航空发动机高、低压转速和压比回路控制器参数设计中,设计了不同状态下的PI控制器,仿真结果表明,这种整定方法能够使闭环系统满足性能指标和鲁棒性.      

自适应滑模容错跟踪飞行控制律的设计

当飞行控制系统操纵面发生卡死或控制效率损伤故障时,采用自适应滑模控制方法进行容错跟踪飞行控制律的设计。采用单位向量法进行滑模控制器的设计,利用李雅普诺夫理论和Barbalat引理设计自适应滑模调节规律,同时能够保证闭环系统的渐近稳定性。利用某型飞机线性化模型进行仿真,结果表明,带有自适应调节规律的滑模控制方法不仅适合于正常情况下飞行控制律的设计,而且对操纵面损伤和卡死故障情况具有较强的适应能力,具有很好的跟踪控制效果和强鲁棒性。     

自适应PID控制系统仿真

针对常规PID控制器不能满足非线性、时变系统的控制要求的问题,本文将自适应控制思想与PID控制器相结合,合成一种自适应PID控制解决方案,并设计了一个自适应PID控制器。该方案运用专家控制策略,自动整定PID参数。仿真结论表明,在系统参数不确定或者发生变化时,该控制器的控制效果明显优于常规PID控制器。     

基于SVM辨识的涡扇发动机全包线稳态控制方法

针对涡扇发动机全飞行包线范围稳态最优控制器的设计问题,首先根据不同飞行条件下发动机各工作状态的稳态“小偏差”线性模型,采用线性二次型调节器(LQR)分别设计得到相应的发动机最优线性控制器参数,然后将所得到的线性控制器用支持向量机方法进行非线性逼近,得到控制器参数的支持向量机辨识模型,以满足发动机全包线、全状态稳态控制的需要.支持向量机模型的输入为飞行高度、马赫数和稳态转速,输出为线性控制器参数.应用实例表明:该方法在全包线范围内对发动机最优稳态控制器的逼近误差均在2%以内,能较好满足控制精度要求.      

A New Hybrid Control Scheme for an Integrated Helicopter and Engine System

A new hybrid control scheme is presented with a robust multiple model fusion control(RMMFC) law for a UH-60 helicopter and an active disturbance rejection control(ADRC) controller for its engines.This scheme is a control design method with every subsystem designed separately but fully considering the couplings between them.With three subspaces with respect to forward flight velocity,a RMMFC is proposed to devise a four-loop reference signal tracing control for the helicopter,which escapes the closed-loop system from unstable state due to the extreme complexity of this integrated nonlinear system.The engines are controlled by the proposed ADRC decoupling controller,which fully takes advantage of a good compensation ability for unmodeled dynamics and extra disturbances,so as to compensate torque disturbance in power turbine speed loop.By simulating a forward acceleration flight task,the RMMFC for the helicopter is validated.It is apparent that the integrated helicopter and engine system(IHES) has much better dynamic performance under the new control scheme.Especially in the switching process,the large transient is significantly weakened,and smooth transition among candidate controllers is achieved.Over the entire simulation task,the droop of power turbine speed with the proposed ADRC controller is significantly slighter than with the conventional PID controller,and the response time of the former is much faster than the latter.By simulating a rapid climb and descent flight task,the results also show the feasibility for the application of the proposed multiple model fusion control.Although there is aggressive power demand in this maneuver,the droop of power turbine speed with an ADRC controller is smaller than using a PID controller.The control performance for helicopter and engine is enhanced by adopting this hybrid control scheme,and simulation results in other envelope state give proofs of robustness for this new scheme.     

基于干扰观测器的新一代歼击机鲁棒飞行逆控制器设计

基于干扰观测器设计了新一代歼击机的鲁棒飞行逆控制器。根据时标分离的原则，将机动飞机分为快慢不同的回路。采用动态逆方法设计了快回路和慢回路控制器，并在慢回路用干扰观测器估计飞机所受的扰动，同时，用于在线补偿动态逆误差。仿真结果表明，该设计合理。     

A fuzzy sliding-mode controller design for a synchronous reluctancemotor drive

A new method for controlling a synchronous reluctance drive system using a sliding mode with fuzzy controller design is presented. The fuzzy controller is used to adjust the sliding line of the sliding-mode controller. Using this method, the system has a fast response and a good disturbance rejection capability. In addition, the chattering of the speed is reduced. In this work, the mathematical model of the motor is described first. Then, the design procedures for a high performance drive system using a sliding mode with fuzzy control are explained. Next, the system enhanced by a high performance 32 bit digital signal processor (DSP) and simple hardware circuits is shown. Both the current-loop and speed-loop controllers are executed by the DSP. Finally, some experimental and computer simulation results are presented. The experimental results validate the simulation results     

直升机结构响应的多输入多输出混合控制

对一种综合了自适应前馈与反馈控制的混合控制策略进行了拓展和研究，并将它应用于双频谐振激励下直升机舱座位处多目标点振动的控制仿真。在混合控制策略的实现中，提出了多输入多输出系统的以提高模态阻尼为目标的反馈控制器(AOEF)的型式和设计方法，以及针对闭环控制通道的FXLMS算法。在直升机有限元模型上用2个作动器控制4排座椅处的振动，仿真表明混合控制策略为直升机多通道的振动控制带来了性能上的显提高。     

基于细菌觅食优化算法的永磁同步电机位置伺服系统模糊控制策略

针对PID控制器参数固定而引起永磁同步电机(PMSM)位置伺服系统控制效果不佳问题,设计了基于细菌觅食优化算法的模糊控制器。该位置控制系统是以空间矢量控制为理论基础,由位置环、速度环、电流环构成的PMSM三闭环控制系统。在MATLAB/Simulink环境中将模糊控制器应用在系统位置环上。对比仿真结果发现,参数优化后的模糊控制器在系统位置环的作用更加优越,完全克服了传统PID控制器的缺点,能有效提高电机位置控制的快速性和准确性。     

微小型直升机非线性鲁棒控制器设计

针对含有未建模动态的微小型直升机非线性模型,设计了基于反步法和自适应模糊系统的自主飞行控制器.该控制器包含两个回路:航迹控制外回路和姿态控制内回路.外回路通过旋转矩阵实现对内回路姿态的控制,而非传统的欧拉角或姿态四元数.控制器采用自适应Takagi-Sugeno(TS)模糊系统在线补偿系统未建模动态的影响,并利用反步法完成控制器综合.所设计的算法在确保整个控制系统稳定性的同时又可保证系统能够有效应对未建模动态的影响.系统仿真结果表明,在盘旋上升飞行模态下控制系统能够快速准确地跟踪预设轨迹,并且具有良好的鲁棒性能.     

基于Supertwisting滑模永磁同步电机驱动的转速和转矩控制

针对永磁同步电机(PMSM)空间矢量的直接转矩控制方案超调频繁、响应时间慢等问题,将传统的转速PI控制器和转矩PI控制器替换成Supertwisting滑模控制器,并从理论上证明了Supertwisting滑模控制器用在转速环和转矩环上能在有限时间内收敛。借助MATLAB/Simulink仿真软件研究了PMSM的转矩脉动,分析了其动态响应速度。仿真结果表明,在空间矢量直接转矩控制中采用Supertwisting滑模控制器与PI控制器相比有更小的转矩脉动,提高了动态响应速度并且解决了超调频繁的问题。     

Novel sliding mode controller for synchronous motor drive

A novel sliding mode controller with an integral-operation switching surface is proposed. Furthermore, an adaptive sliding mode controller is investigated, in which a simple adaptive algorithm is utilized to estimate the bound of uncertainties. The position control for a permanent magnet (PM) synchronous servo motor drive using the proposed control strategies is illustrated. The theoretical analysis and the theorems for the proposed sliding mode controllers are described in detail. Simulation and experimental results show that the proposed controllers provide high-performance dynamic characteristics and are robust with regard to plant parameter variations and external load disturbance     

一种变输入参数结构的多控制器协调工作设计

1引言随着航空发动机的发展,其控制系统的复杂程度不断提高[1],多个控制器组成的控制系统中,各个控制器如何协调工作的问题已越来越突出[2,3]。通过对具体航空发动机控制系统的仿真,发现问题主要集中在两个方面,一是备份控制器接替工作时其累积的输出误差很大,在短时间内无法迅     

Observer-based adaptive sliding mode backstepping output-feedback DSC for spin-stabilized canard-controlled projectiles

This article presents a complete nonlinear controller design for a class of spin-stabilized canard-controlled projectiles.Uniformly ultimate boundedness and tracking are achieved,exploiting a heavily coupled,bounded uncertain and highly nonlinear model of longitudinal and lateral dynamics.In order to estimate unmeasurable states,an observer is proposed for an augmented multiple-input-multiple-output(MIMO) nonlinear system with an adaptive sliding mode term against the disturbances.Under the frame of a backstepping design,an adaptive sliding mode output-feedback dynamic surface control(DSC) approach is derived recursively by virtue of the estimated states.The DSC technique is adopted to overcome the problem of ‘‘explosion of complexity" and relieve the stress of the guidance loop.It is proven that all signals of the MIMO closed-loop system,including the observer and controller,are uniformly ultimately bounded,and the tracking errors converge to an arbitrarily small neighborhood of the origin.Simulation results for the observer and controller are provided to illustrate the feasibility and effectiveness of the proposed approach.     

新型快速Terminal滑模及其在近空间飞行器上的应用

为加快Terminal滑模收敛速度,并避免控制器奇异,首先分析了Terminal滑模产生奇异的原因,基于李代数给出Terminal滑模控制器非奇异判据.然后,设计了两种新型非奇异快速Terminal滑模,其收敛速度在任意点均快于现有标准快速Terminal滑模;给出了收敛时间公式.将新型快速Terminal滑模与动态滑...