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321.
挠性卫星高精度智能控制及物理仿真实验研究 总被引:1,自引:0,他引:1
从工程角度出发,以具有挠性太阳翼的卫星为背景,着重研究了挠性卫星的智能控制方案。针对高精度控制这一要求,设计了双层小脑模型神经网络(CMAC)与变结构(VSC)复合智能控制器,并基于单轴气浮台全物理仿真系统进行了实验,取得了较高的姿态控制精度,表明了智能控制方法的有效性。 相似文献
322.
《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2023,71(1):803-815
An active shape control approach for a circular flexible space structure is studied. The shape of these flexible structures may need active shape control due to some particular mission objectives. For example, antenna reflectors may have requirements for their shape accuracy to guarantee communication performance; and some solar sails may change their shape to realize different commissions during interplanetary flight. This paper investigates an active shape control process executed by the gyricity (stored angular momentum) distribution existing in the circular flexible space structure. The shape of the circular flexible space structure is expected to be reformed from a plane plate to a paraboloidal plate. An optimal gyricity distribution is derived based on the optimal control theory for systems described by partial differential equations. Distributed forces can be generated by the optimal gyricity distribution in a rotating field to implement the active shape control. The dynamic model of the circular flexible space structure is established for the active shape control through the finite element method. Numerical simulation validates the functionality of the shape control method, and illustrates the shape-adjusting process of the circular flexible space structure. 相似文献
323.
以三种不同陶瓷纤维缝线缝制而得的柔性隔热材料为研究对象,比较了上述材料在300、600 和
900益热处理30 min 后拉伸强度的变化。通过对材料断裂模式的分析,提出纤维表面处理剂的挥发和非晶质
纤维的晶型转变,是导致柔性隔热材料高温拉伸强度降低的主要原因。
相似文献
324.
《中国航空学报》2023,36(4):409-422
The flight-structural dynamics of a high-aspect-ratio wing challenge the flight control design. This paper develops a reduced model of coupled dynamics with stability consideration. The structural dynamics are formulated with dihedrals, and the central loads drive the deformation. The control-oriented model with essential coupled dynamics is formulated. Modal sensitivity analysis and input–output pairing are performed to identify the control structure. Besides, an example of flight control design is provided to discuss the necessity of considering structural dynamics in controller design. Analytical coupled flight dynamics provide a system-theoretic approach for stability and facilitate model-based control techniques. Simulation results reveal the characteristics of flight-structural coupled dynamics and demonstrate that the influence of flexible modes should be considered in control design, especially in lateral dynamics. 相似文献
325.
《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2023,71(5):2095-2127
The present work theoretically demonstrates the dynamic analysis of a planar multi-link manipulator considering flexible links and joints mounted on a moving base. A nonlinear model of a multi-manipulator (N-links) has been developed accounting for an equivalent bi-directional mobile base. The nonlinear Euler-Bernoulli beam and spring-inertia/mass system have been introduced to demonstrate the flexibilities of links and joints, respectively. Modal analysis followed by trajectory analysis has been performed to investigate the behaviors of manipulator taking into account of accurate boundary conditions. Further, vibration characteristics, steady-state responses, and their stability at resonant situations due to joint motions and inertial coupling have been studied. Results of exploiting geometric and inertial coupling due to flexible arms on stability analysis of steady-state responses have been investigated and have been subsequently verified with the findings by directly solving the governing equations. Steady-state response characteristics to explore the dynamics of the multi-link manipulators under resonant states have been studied with the varying actuator mass, the flexibility of links, lifted payload, and joint parameters. The results thus obtained, deliver a useful insight into the position analysis and long-term behavior of multi-link flexible manipulators under harmonic hub-joint motions that shall further enable its proper vibration attenuation and control. 相似文献