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Issue title: Artificial Intelligence and Advanced Manufacturing (AIAM 2020)
Guest editors: Shengzong Zhou
Article type: Research Article
Authors: Chen, Yongganga; b | Shu, Yufenga; b; * | Li, Xiaomiana; b | Xiong, Changweia; b | Cao, Shenyia; b | Wen, Xinyana; b | Xie, Ziconga; b
Affiliations: [a] Department of Mechanical and Electrical Engineering, DongGuan Polytechnic, Dong Guan, China | [b] Guangdong Textile Industry Intelligent Detection Engineering Technology Research Center (DGPT), Dong Guan, China
Correspondence: [*] Corresponding author. Yufeng Shu, Department of Mechanical and Electrical Engineering, DongGuan Polytechnic, Dong Guan, 523808, China. E-mail: shuyf@dgpt.edu.cn.
Abstract: In the production process of lithium battery, the quality inspection requirements of lithium battery are very high. At present, most of the work is done manually. Aiming at the problem of large manual inspection workload and large error, the robot visual inspection technology is applied to the production of lithium battery. In recent years, with the rapid development and progress of science and technology, the rapid development of visual detection hardware and algorithms, making it possible to screen defective products through visual detection algorithms. This paper takes lithium battery as the research object, and studies its vision detection algorithm. As a common commodity, the quality of lithium battery is the key for users to choose. With the increasing requirements of users for battery quality, how to produce high-quality battery is the key problem to be solved by manufacturers. However, at present, the defects of battery surface are mostly carried out manually. There are low efficiency and low detection rate in the process of manual detection. In this paper, the visual detection algorithm is studied to detect the defects such as pits, rust marks and broken skin on the surface of lithium battery, specifically to design the imaging experimental platform of lithium battery; use different lighting schemes to design different battery positioning and extraction algorithms; use Hough detection method to locate the battery surface, and design the battery defect algorithm for this, and compare the algorithm through experiments.
Keywords: Robot visual inspection, surface defect, embedded, lithium battery
DOI: 10.3233/JIFS-189693
Journal: Journal of Intelligent & Fuzzy Systems, vol. 41, no. 3, pp. 4327-4335, 2021
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