Bi-stable cholesteric liquid crystal display (BS-ChLCD) has been considered a promising flexible display (FD). However, the defect inspection problem for BS-ChLCD is intractable because the surface of a normal BS-ChLCD contains not only horizontal lines that appear periodically, but also many particle-like additives that randomly distribute over the surface. This paper proposes a novel defect inspection system, which is able to detect defects from complex background automatically. First, an input image is segmented into small-sized sub-images. To obtain good defect detection rate, this paper adopts discrete cosine transform (DCT) and textural representation methods to extract a set of useful feature vector from each sub-image. In this paper, a powerful machine learning method called support vector data description (SVDD) is adopted as the defect detector. SVDD is able to judge whether an input vector belongs to normal class or defect class. However, we have to collect a set of normal sub-images to train the SVDD-based defect detector beforehand. In order to let the detector have the self-learning ability, a correlation checking-based automatic training sample selection (CC-ATSE) algorithm is also proposed. By introducing the CC-ATSE algorithm into the SVDD, a self-organizing SVDD (SO-SVDD) defect detector is developed. Experimental results, carried out on real BS-ChLCD images, show that the proposed SO-SVDD-based defect detection scheme can achieve a high defect detection rate over 99%.