Open AccessResearch on Optimal Algorithm for Time-domain Synthesis of Shock Response Spectrum Based on Continuous Second Derivative
Author(s) -
Wei Song,
Wang Ru,
Pengting Lin,
Mi Liu,
Jianchao Wu,
Zhang Bo-Lin,
Yi Gu,
Pengfei Xie
Publication year - 2021
Publication title -
iop conference series. earth and environmental science
Language(s) - English
Resource type - Journals
eISSN - 1755-1307
pISSN - 1755-1315
DOI - 10.1088/1755-1315/632/3/032039
Subject(s) - time domain , algorithm , frequency domain , sequence (biology) , computer science , sine , sampling (signal processing) , domain (mathematical analysis) , boundary value problem , derivative (finance) , sine wave , shock (circulatory) , mathematics , engineering , voltage , mathematical analysis , medicine , genetics , geometry , filter (signal processing) , financial economics , electrical engineering , economics , computer vision , biology
Aerospace power supply and distribution products must predict the shock response based on the shock boundary conditions to determine the mechanical design safety factor. In this paper, the SRS of a typical product is used as an input condition, and a damped-sine discrete wave is used to synthesize an equivalent discrete time-domain sequence for simulation calculation. In order to improve the calculation efficiency, a low-sampling frequency time-domain sequence optimization algorithm based on continuous second derivative is proposed; through calculation comparison and verification, the algorithm can effectively improve the simulation operation efficiency, and the response prediction accuracy can meet the allowable requirements, which provides a new idea for products’ SRS calculation.