Vibration Isolator Design for Space Application Based on Multiobjective Optimization Method

Abstract: A multiobjective optimization based vibration isolator design for space application is described. It is common to use passive isolator and isolate the platform noise in space applications. The design of a passive isolator involves a trade-off between the resonant peak reduction and the high frequency attenuation. The equation of motion and transfer function model for single-stage and two-stage connector model is derived by using basic principle. The multiobjective optimization model is proposed, where the desi… Show more

“…Passive vibration isolators show the advantages of easy control, stability, and no need for external energy. They are widely applied in aforementioned fields [12][13][14]. A conventional passive two-parameter vibration isolator (VI) usually adopts the method of adding constant damping for energy dissipation to realize vibration isolation.…”

Modeling and analysis of a four-parameter vibration isolator with frequency-dependent damping and its implementation based on GERF

“…Passive vibration isolators show the advantages of easy control, stability, and no need for external energy. They are widely applied in aforementioned fields [12][13][14]. A conventional passive two-parameter vibration isolator (VI) usually adopts the method of adding constant damping for energy dissipation to realize vibration isolation.…”

Modeling and analysis of a four-parameter vibration isolator with frequency-dependent damping and its implementation based on GERF