Panfeng Wu scite author profile

In the process of flight for in-orbit spacecraft, debris and particles in space will collide with the spacecraft at a high speed. These collision will produce strain, pit or perforation on the surface of the spacecraft cabin, forming damage accumulation. Therefore, it is necessary to monitor the strain and impact position of the spacecraft cabin in real time, which will provide a basis for ensuring the reliability and safety of the spacecraft. In this paper, the achievement of strain and vibration information during the process of impact is designed in two ways: touched style and untouched style. The design of touched style needs to meet the requirements of large capacity/ultra-high speed monitoring. The design of untouched style needs to meet the acquisition of high frequency vibration signal in the impact process.

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An Integrated Space-air-ground Monitoring and Early Warning System of Landslide Disaster

Yang¹,

Jia²,

Wang³

et al. 2021

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Research and Design of the Architecture of On-Orbit Remote Sensing Information Processing System

Gao

Tan

et al. 2017

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Panfeng Wu

GPS Monitoring Landslide Deformation Signal Processing using Time-series Model

Micro-Vibration Environment Parameters Measurement and Analysis of a Novel Satellite in Orbit

Research on Spacecraft Strain Measurement System and Impact Sensing Technology Based on Fiber Grating Sensors and All Fiber Optic Sensing

An Integrated Space-air-ground Monitoring and Early Warning System of Landslide Disaster

Research and Design of the Architecture of On-Orbit Remote Sensing Information Processing System

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