Angular Displacement Control for Timoshenko Beam by Optimized Traveling Wave Method

Abstract: The vibration of flexible structures in spacecraft, such as large space deployable reflectors, solar panels and large antenna structure, has a great impact on the normal operation of spacecraft. Accurate vibration control is necessary, and the control of angular displacement is a difficulty of accurate control. In the traditional control method, the mode space control has a good effect on suppressing low-order modes, but there is control overflow. The effect of traveling wave control on low-order modes is wors… Show more

“…Aiming at detecting supermassive black-hole mergers and extreme mass ratio inspirals, the Chinese space mission Taiji requires position noise lower than 8 pm/ √ Hz and acceleration noise lower than 3 × 10 −15 ms −2 / √ Hz [4]. To control micro-vibrations transmitted from spacecraft platforms to sensitive payloads [5], researchers and institutes propose passive, active, hybrid, and semi-active vibration control methods [6][7][8][9][10]. Utilizing a flywheel actuator, Ref.…”

A Novel Disturbance-Free-Payload Satellite Design for High-Precision Collaborative Observation

“…Aiming at detecting supermassive black-hole mergers and extreme mass ratio inspirals, the Chinese space mission Taiji requires position noise lower than 8 pm/ √ Hz and acceleration noise lower than 3 × 10 −15 ms −2 / √ Hz [4]. To control micro-vibrations transmitted from spacecraft platforms to sensitive payloads [5], researchers and institutes propose passive, active, hybrid, and semi-active vibration control methods [6][7][8][9][10]. Utilizing a flywheel actuator, Ref.…”

A Novel Disturbance-Free-Payload Satellite Design for High-Precision Collaborative Observation