液晶与显示, 2017, 32 (7): 553, 网络出版: 2017-11-21  

液晶屏线路中导电粒子压合的自动光学检测研究

Detection of conducting particles bonding in the circuit of liquid crystal display
作者单位
厦门大学 物理科学与技术学院, 福建 厦门 361001
摘要
在薄膜晶体管液晶显示器线路检测中, 常通过对线路中的导电薄膜粒子的计数和定位实现其导电性的自动检测。为了解决窄边框线路中粒子密度增大带来的粒子重叠问题, 提出一种采用微分干涉成像和掩模法结合k均值聚类的算法, 在分离出粒子的亮、暗部后, 结合图像熵值和粒子的凸性准确分割出粒子。讨论了聚类簇选值的影响, 通过不同粒子密度、不同粒子尺寸的样本检验本文算法, 并与以往的梯度结合灰度的方法进行对比。结果表明: 本文算法在粒子密度较小的区域能达到92.6%的识别率, 在粒子密度较大的区域也能达到86%的识别率, 分别比梯度加灰度的方法提高了9.9%和42.7%。解决了粒子重叠的问题, 并且对光场和成像效果有更好的鲁棒性。
Abstract
By counting and locating anisotropic conductive film (ACF) particles in the circuit of thin film transistor liquid crystal display (TFT-LCD), it can determine the circuit′s conductivity. In order to solve the overlap problem caused by density increasing of particles in narrow bezel, we put forward a algorithm based on differential interference contrast (DIC) imaging, the algorithm integrates mask method and k-means clustering detection algorithm. After separating particles of bright and shadow, we can effectively segment the particles by judging the entropy of image and the convexity of particles. The value of clustering cluster is discussed, and comparing with the previous method based on gradient and gray level, we test the samples of different particle density and particle size with our proposed algorithm. It indicates that in the case of circuit with the lower particle density, the recognition rate of our method can reach 92.6%, in the area with the higher particle density, the recognition rate can also reach 86%, it is higher than the recognition rate of method combined gradient and gray respectively by 9.9% and 42.7%. The proposed algorithm is also more robust to the light field and the imaging effect.

陈玉叶, 肖可, 郭振雄, 何俊杰, 刘畅, 陈松岩. 液晶屏线路中导电粒子压合的自动光学检测研究[J]. 液晶与显示, 2017, 32(7): 553. CHEN Yu-ye, XIAO Ke, GUO Zhen-xiong, HE Jun-jie, LIU Chang, CHEN Song-yan. Detection of conducting particles bonding in the circuit of liquid crystal display[J]. Chinese Journal of Liquid Crystals and Displays, 2017, 32(7): 553.

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