Application of Airborne Electro-Optical Platform with Shock Absorbers

Abstract

With the rapid development of information technology, the importance of access to information in today's increasingly demanding. And as today's new metal rubber vibration isolation material in the complex conditions of the various characteristics of the advantages make it airborne optoelectronic platform more widely. This article will focus on airborne optical platform shock absorber design, and by the designed shock absorber static and dynamic analysis of its experimental parameters influencing factors and variation of vibration isolation performance of the developed damper. For future airborne optical platform provides experimental basis with the development of shock absorber.