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11.
几种关于附面层分离主动控制方法机制的概述 总被引:1,自引:1,他引:0
随着飞机和发动机设计性能要求的不断提高,流体的主动控制变得越来越重要,并显出不可替代的作用。流体主动控制方式通过小尺度、局部的能量注入,特别是通过对临界点附近的控制来改变全场的流动结构,并且能够对复杂的动态系统进行精确的相位控制,所以在近年的流动控制领域变得非常活跃。本文对合成射流、等离子体、电磁体积力这些主动控制方法及其机制进行了详细的介绍,并得出结论:相对于被动控制方式,主动控制方式具有明显的优势。 相似文献
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Vaios Lappas Nasir Adeli Lourens Visagie Juan Fernandez Theodoros Theodorou Willem Steyn Matthew Perren 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2011
CubeSail is a nano-solar sail mission based on the 3U CubeSat standard, which is currently being designed and built at the Surrey Space Centre, University of Surrey. CubeSail will have a total mass of around 3 kg and will deploy a 5 × 5 m sail in low Earth orbit. The primary aim of the mission is to demonstrate the concept of solar sailing and end-of-life de-orbiting using the sail membrane as a drag-sail. The spacecraft will have a compact 3-axis stabilised attitude control system, which uses three magnetic torquers aligned with the spacecraft principle axis as well as a novel two-dimensional translation stage separating the spacecraft bus from the sail. CubeSail’s deployment mechanism consists of four novel booms and four-quadrant sail membranes. The proposed booms are made from tape-spring blades and will deploy the sail membrane from a 2U CubeSat standard structure. This paper presents a systems level overview of the CubeSat mission, focusing on the mission orbit and de-orbiting, in addition to the deployment, attitude control and the satellite bus. 相似文献
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为了更快更好地补偿执行器故障带来的不确定性,发展了一种新的多模型自适应执行器故障补偿控制系统设计方法。首先,分析所有可能的执行器故障模式,得到故障模式集。再针对每一种故障模式,分别进行控制器设计,控制器设计时采用直接模型参考自适应执行器故障补偿控制方法进行设计。然后根据参数估计误差分别计算每种故障模式下系统的性能损失函数,选择性能损失最小的子系统对应的控制器作为当前的全局控制器。最后以飞行控制系统为例进行了仿真,仿真结果表明,所设计的多模型直接自适应执行器故障补偿系统闭环稳定,且有良好的跟踪性能。 相似文献
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基于综合观测器的执行器过程故障量精确诊断 总被引:2,自引:0,他引:2
执行器的非线性与输出不可得在一般复杂动力学系统中具有典型性,而其过程故障量的精确诊断是个前沿难点问题.针对该问题,研究一种面向控制系统和执行器的综合观测器方法.提出一种适用于带有非线性执行器复杂系统的新型自适应观测器方法,可克服输出量不可直接获得的条件限制,实现故障诊断并获得执行器真实输出估计;基于执行器输出估计与控制器输出量,采用扩张状态观测器实现过程故障量精确估计,从而为主动容错故障调节提供诊断依据.以卫星姿态控制系统飞轮摩擦力矩增大这一典型非线性执行器故障的过程故障量精确诊断为应用实例验证了本文方案的有效性及优越性. 相似文献
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Electromechanical actuators (EMAs) are becoming increasingly attractive in the field of more electric aircraft because of their outstanding benefits, which include reduced fuel burn and maintenance cost, enhanced system flexibility, and improved management of fault detection and isolation. However, electromechanical actuation raises specific issues when being used for safety-critical aerospace applications like flight controls: huge reflected inertia to load, jamming-type failure, and increase of backlash with service due to wear and local dissipation of heat losses for thermal balance. This study proposes an incremental approach for virtual prototyping of EMAs. It is driven by a model-based system engineering process in order to enable simulation-aided design. Best practices supported by Bond graph formalism are suggested to develop a model’s structure efficiently and to make the model ready for use (or extension) by addressing the above mentioned issues. Physical effects are progressively introduced, and the realism of lumped-parameter models is increased step-by-step. In particular, multi-level component models are architected to ensure continuity between engineering activities. The models are implemented in the AMESim simulation environment, and simulation responses are given to illustrate how they can be used for preliminary sizing, control design, thermal balance verification, and faults to failure analysis. The proposed best practices intend to provide engineers with fast, reusable, and efficient means to assess performance virtually and enhance maturity, performance, and robustness. 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
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在设计控制系统模型时,首先引入了有限差分法(FDM)离散化后的波动方程,然后基于H∞最优控制原理,检查闭环控制系统的稳定性和可探测性,对控制系统传感器和作动器的位置进行优化配置.通过计算闭环反馈系统的范数,最终得到了控制系统的最优控制算法.仿真结果表明,利用波动方程来优化控制系统传感器和作动器位置的算法是可行的,可广泛应用于飞控系统的设计中. 相似文献