26 October 2013 VC and ACIS/HOOPS based semi-physical virtual prototype design and motion simulation of 2D scanning mirror
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Proceedings Volume 8918, MIPPR 2013: Automatic Target Recognition and Navigation; 89180W (2013) https://doi.org/10.1117/12.2031495
Event: Eighth International Symposium on Multispectral Image Processing and Pattern Recognition, 2013, Wuhan, China
Abstract
Image-spectrum integrated instrument is an infrared scanning system which integrates optics, mechanics, electrics and information processing. Not only can it achieve scene imaging, but also it can detect, track and identify targets of interests in the scene through acquiring their spectra. After having a brief introduction to image-spectrum integrated instrument and analyzing how 2D scanning mirror works, this paper built 3D model of 2D scanning mirror and simulated its motion using two PCs basing on VC++ and ACIS/HOOPS. Two PCs communicate with each other through serial ports. One PC serves as host computer, on which controlling software runs, is responsible for loading image sequence, image processing, target detecting, and generating and sending motion commands to scanning mirror. The other serves as slave computer, on which scanning mirror motion simulation software runs, is responsible for receiving motion commands to control scanning mirror to finish corresponding movements. This method proposed in this paper adopted semi-physical virtual prototype technology and used real scene image sequence to control virtual 2D scanning mirror and simulates motion of real 2D scanning mirror. It has no need for real scanning mirror and is of important practical significance for debugging controlling software of 2D scanning mirror.
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Xiangyan Liu, Xiangyan Liu, Xiaobing Dai, Xiaobing Dai, Xudong He, Xudong He, Pengcheng Gao, Pengcheng Gao, } "VC and ACIS/HOOPS based semi-physical virtual prototype design and motion simulation of 2D scanning mirror", Proc. SPIE 8918, MIPPR 2013: Automatic Target Recognition and Navigation, 89180W (26 October 2013); doi: 10.1117/12.2031495; https://doi.org/10.1117/12.2031495
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