Authors:
Simon Thomine
1
;
2
;
Hichem Snoussi
1
and
Mahmoud Soua
2
Affiliations:
1
University of Technology Troyes, Troyes, France
;
2
AQUILAE, Troyes, France
Keyword(s):
Anomaly Detection, Texture, Knowledge Distillation, Layer Selection, Unsupervised.
Abstract:
For a very long time, unsupervised learning for anomaly detection has been at the heart of image processing research and a stepping stone for high performance industrial automation process. With the emergence of CNN, several methods have been proposed such as Autoencoders, GAN, deep feature extraction, etc. In this paper, we propose a new method based on the promising concept of knowledge distillation which consists of training a network (the student) on normal samples while considering the output of a larger pretrained network (the teacher). The main contributions of this paper are twofold: First, a reduced student architecture with optimal layer selection is proposed, then a new Student-Teacher architecture with network bias reduction combining two teachers is proposed in order to jointly enhance the performance of anomaly detection and its localization accuracy. The proposed texture anomaly detector has an outstanding capability to detect defects in any texture and a fast inferenc
e time compared to the SOTA methods.
(More)