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Dynamics, Control and Maneuvering of Large Flexible Space Tethered Reflectors,Tele-Robots and Experimental Models. Part 2

机译：大型柔性空间系留反射器，远程机器人和实验模型的动力学，控制和机动。第2部分

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The effects of solar radiation heating on a large, thin, shallow sphericalorbiting shell system are studied. The shell is representative of a large antenna reflector system which could also be gravitationally stabilized by connecting a sub-satellite to a long tether. After determining the steady state temperature distribution across the thickness of the shell, the corresponding thermal deformation is estimated as a function of the solar incidence angle and material properties. The closed-loop dynamic response of the shell is simulated by using LQR control design synthesis and assuming that 12 point actuators are placed on the outer surface and edge of the shell. Calculations also indicate that the shell's transverse elastic vibrational frequencies may differ significantly from their nominal values due to the solar-thermal influence. A practical control strategy for the minimum-time maneuver problem has been developed and successfully applied to the Naval Research Laboratory's Reconfigurable Spacecraft Host for Attitude and Pointing Experiments (RESHAPE) hardware test facility. This is the first time that the bang-bang type and feedback control strategy has been applied to the RESHAPE facility by including a flexible appendage which is represented with the attachment of a spherical pendulum device to the edge of the RESHAPE platform. (MM).

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Bainum, P. M.; Feiyue, L.; Jianke, X.; Zhi, T. Z.; Xing, G. Q.;
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年度 1995
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总页数 60
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Attitude control systems; Solar radiation; Spacecraft trajectories; Solarheating; Thermal properties; Thickness; Vibration; Spacecraft; Yaw; Stress analysis; Experimental design; Aerodynamic stability; Deformation; Robots; Shells(Structural forms); Temper;

机译：姿态控制系统;太阳辐射;航天器轨迹;太阳能加热;热性能;厚度;振动;航天器;偏航;应力分析;实验设计;气动稳定性;变形;机器人;壳体（结构形式）;回火;

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3. Sliding mode maneuvering control and active vibration damping of three-axis stabilized flexible spacecraft with actuator dynamics [J] . Qinglei Hu Nonlinear Dynamics . 2008,第3期

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4. Experimental Validation of a Fuel-Efficient Robotic Maneuver Control Algorithm for Very Large Flexible Space Structures [C] . Masahiro Ono, Peggy Boning, Tatsuro Nohara, International Conference on Robotics and Automation . 2008

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5. Advanced topics in structural dynamics: The maneuver of flexible spacecraft, and on-off decentralized control of flexible structures. [D] . Foster, Lester Anderson, III. 1989

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6. Shape control of slack space reflectors using modulated solar pressure [O] . Andreas Borggräfe, Jeannette Heiligers, Matteo Ceriotti, -1

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7. Experimental evaluation of model predictive control and inverse dynamics control for spacecraft proximity and docking maneuvers [O] . Virgili-Llop Josep, Zagaris Constantinos, Park Hyeongjun, 2017

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Dynamics, Control and Maneuvering of Large Flexible Space Tethered Reflectors,Tele-Robots and Experimental Models. Part 2

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