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941.
针对航空发动机气路诊断中测量参数个数小于待诊断参数个数的不适定问题,利用了发动机平衡技术,结合非线性的发动机数学模型,并综合考虑了测量参数的不确定度和理论模型部件性能的不确定度,建立了一种结合不确定度的发动机气路故障诊断辨识算法——变分加权最小二乘法,并将该算法应用于某发动机的诊断分析中.结果表明:运用该方法可分析出测量数据和模型计算数据之间的差别,同时,利用所得的故障参数修正量修正原发动机数学模型,使模型计算推力与试验测量推力最大偏差由8.25%减小到1.66%,耗油率最大偏差由6.25%减小到1.50%. 相似文献
942.
943.
对《航空发动机适航规定》(CCAR33-R2)新增条款CCAR33.64(静承压件)进行解读与分析,结合试验设计法、数值模拟法开展针对航空发动机静承压件适航条款的符合性验证方法和验证流程的研究.提出针对CCAR33.64的符合性验证流程,并以某型航空发动机低压涡轮后机匣的模型为例进行验证.选取机匣的最大工作压力和1.1倍最大工作压力分别作为加载条件进行数值模拟,得出最大等效应力分别为453MPa和534MPa,最大机匣变形分别为0.366mm和0.432mm,不会出现永久变形或机匣破裂的情况,满足适航要求.验证了该流程的适航符合性,为制定航空发动机静承压件适航指南提供参考依据. 相似文献
944.
945.
Simultaneous state and actuator fault estimation for satellite attitude control systems 总被引:1,自引:0,他引:1
《中国航空学报》2016,(3):714-721
In this paper, a new nonlinear augmented observer is proposed and applied to satellite attitude control systems. The observer can estimate system state and actuator fault simultaneously. It can enhance the performances of rapidly-varying faults estimation. Only original system matrices are adopted in the parameter design. The considered faults can be unbounded, and the proposed augmented observer can estimate a large class of faults. Systems without disturbances and the fault whose finite times derivatives are zero piecewise are initially considered, followed by a discussion of a general situation where the system is subject to disturbances and the finite times derivatives of the faults are not null but bounded. For the considered nonlinear system, convergence conditions of the observer are provided and the stability analysis is performed using Lyapunov direct method. Then a feasible algorithm is explored to compute the observer parameters using linear matrix inequalities (LMIs). Finally, the effectiveness of the proposed approach is illustrated by considering an example of a closed-loop satellite attitude control system. The simulation results show satisfactory perfor-mance in estimating states and actuator faults. It also shows that multiple faults can be estimated successfully. 相似文献
946.
Many control laws, such as optimal controller and classical controller, have seen their applications to suppressing the aeroelastic vibrations of the aeroelastic system. However, those control laws may not work effectively if the aeroelastic system involves actuator faults. In the current study for wing flutter of reentry vehicle, the effect of actuator faults on wing flutter system is rarely considered and few of the fault-tolerant control problems are taken into account. In this paper, we use the radial basis function neural network and the finite-time H_∞ adaptive fault-tolerant control technique to deal with the flutter problem of wings, which is affected by actuator faults, actuator saturation, parameter uncertainties and external disturbances. The theory of this article includes the modeling of wing flutter and fault-tolerant controller design. The stability of the finite-time adaptive fault-tolerant controller is theoretically proved. Simulation results indicate that the designed fault-tolerant flutter controller can effectively deal with the faults in the flutter system and can promptly suppress the wing flutter as well. 相似文献
947.
《中国航空学报》2016,(6):1673-1684
A new variable speed control moment gyro (VSCMG) steering law is proposed in order to achieve higher torque precision. The dynamics of VSCMGs is established, and two work modes are then designed according to command torque:control momentum gyro (CMG)/reaction wheel (RW) hybrid mode for the large torque case and RW single mode for the small. When working in the CMG/RW hybrid mode, the steering law deals with the gimbal dead-zone nonlinearity through compensation by RW sub-mode. This is in contrast to the conventional CMG singularity avoidance and wheel speed equalization, as well as the proof of definitely hyperbolic singular property of the CMG sub-mode. When working in the RW single mode, the motion of gimbals will be locked. Both the transition from CMG/RW hybrid mode to RW single mode and the reverse are studied. During the transition, wheel speed equalization and singularity avoidance of both the CMG and RW sub-modes are considered. A steering law for the RWs with locked gimbals is presented. It is shown by simulations that the VSCMGs with this new steering law could reach a better torque precision than the normal CMGs in the case of both large and small torques. 相似文献
948.
吸气式高超声速飞行器巡航状态下飞行环境复杂,建模时存在非线性以及参数摄动.基于小扰动假设的传统经典控制理论难以适应当前任务对鲁棒性的要求,对此提出了一种非线性动态逆-滑模控制律改进方法.通过对吸气式高超声速飞行器模型精确反馈线性化得到解耦形式的线性方程,为速度和高度设计出动态逆控制律来抵消非线性特性,在动态逆的基础上采用滑模变结构来补偿参数摄动带来的误差.仿真结果表明,所设计的控制方法具有良好的动态性能及鲁棒性. 相似文献
949.
950.