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《Application of Empirical Mode Decomposition Method in spacecraft Fault Diagnosis》
CHEN Ting-yan;JING Jian-ping;CHEN Tie-feng;JIN Chang-ming
   2010, 30 (4): 76-80.   DOI: 10.3969/j.issn.1006-1355.2010.04.021
Abstract1956)            Save
Independent fault diagnosis for orbited spacecraft in real time is always the bottleneck in the development of aerospace engineering. In this paper, the empirical mode decomposition (EMD) is employed for fault diagnosis of moving component parts of spacecrafts. The stepout fault characteristic is extracted effectively and the base frequency is obtained. This method provides with the basis for fault diagnosis of orbited spacecrafts under the blackbox condition. In addition, in comparison with FFT and wavelet analysis, it is found that the EMD method is more efficient and advanced in the fault diagnosis of moving component parts of spacecrafts.
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《Nonlinear Dynamic Modeling and Analysis of Cable in Boom Shipmounted Crane》
WANG Gan-cheng;JIN Chang-ming;CHEN Yun-wen;ZHANG Jin;LI Hong-guang
   2010, 30 (2): 23-25.   DOI: 10.3969/j.issn.1006-1355.2010.02.023
Abstract2258)      PDF(pc) (883KB)(1699)       Save
A traditional lumpedmass model for the boom shipmounted crane is established in this paper. The nonlinear dynamic equation is presented using the EulerLagrange method. Then the nonlinear dynamic behavior of the cable is analyzed numerically, and the impact of some key parameters on the cargo pendulum is studied. Results of this study are of significance for the operation of shipmounted cranes.
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《Analysis of Fluidconveying Pipe with Transfer Matrix Method》
JIN Chang-ming;WANG Gan-cheng;GAO Kang;CHEN Ting-yan;LI Hong-guang
   2009, 29 (6): 30-33.   DOI: 10.3969/j.issn.1006-1355.2009.06.030
Abstract2929)      PDF(pc) (850KB)(1892)       Save

The transfer matrices of the axial, flexible and torsional modes of fluidconveying elbow pipe are deduced considering fluidstructure interaction between pipe and fluid. Calculate the modal frequency and shape of a “U” shape pipe with Transfer Matrix Method and ANSYS software respectively. The results indicate that Transfer Matrix Method is an effective way to analyze fluidconveying pipe. The effect of fluidstructure interaction can not be ignored which will depress the modal frequency of the pipe.

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