We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Motion process monitoring using optical flow–based principal component analysis-independent component analysis method.
- Authors
Fan, Song; Zhang, Yingwei; Zhang, Yunzhou; Fang, Zheng
- Abstract
In this article, for the first time, the optical flow and principal component analysis followed independent component analysis are combined for monitoring the motion process of robotic-arm-based system. Two kinds of optical flow, namely dense optical flow and sparse optical flow, extracted from each two successive frames of motion process in forms of video stream are used as the samples of motion-related variables of principal component analysis–independent component analysis algorithm. Relative work illustrates the effectiveness of principal component analysis–independent component analysis method for non-Gaussian process monitoring. The proposed dense optical flow–principal component analysis–independent component analysis and sparse optical flow–principal component analysis–independent component analysis algorithms use three-way array as their data which follows non-Gaussian distribution. Data unfolding, data normalization, and proper definition of the control limit are introduced. Based on dense optical flow–principal component analysis–independent component analysis and sparse optical flow–principal component analysis–independent component analysis algorithms, the corresponding motion process monitoring scheme is developed, and a case study of robotic-arm-based marking system is taken to evaluate the performance of these methods. The results demonstrate the capability and efficiency of the proposed methods.
- Subjects
OPTICAL flow; PRINCIPAL components analysis; INDEPENDENT component analysis; FAULT location (Engineering); DISTRIBUTION (Probability theory); MARKING devices
- Publication
Advances in Mechanical Engineering (Sage Publications Inc.), 2017, Vol 9, Issue 11, p1
- ISSN
1687-8132
- Publication type
Article
- DOI
10.1177/1687814017733231