Your search keyword '"Hansang Cho"' showing total 6 results

1. Spatial Contrastive Learning for Anomaly Detection and Localization

Author

Daehwan Kim, Daun Jeong, Hyungmin Kim, Kibong Chong, Seungryong Kim, and Hansang Cho

Subjects

Deep learning, anomaly detection, progressive autoencoder, contrastive learning, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

With the development of deep learning, abnormal detection methods have been widely presented to improve performances in various applications, including visual inspection systems. However, there remains difficult to be directly applied to real-world applications, which often include the lack of abnormal samples and diversity. This paper proposes contra embedding that adopts progressive autoencoder with contrastive learning to address these difficulties. The autoencoder is trained progressively to reproduce the details of the original images, and modified CutPaste augmentation helps to learn to recover normal images. Especially, contrastive learning based on normal embedding vectors effectively reduces false positives caused by the autoencoder. The proposed method is also helpful when normal data have complex shapes, sizes, and colors. In experiments, MVTec AD dataset is used to show the generalization ability of the proposed method in various real-world applications. It achieves over 98.0% AUROCs in detection and 97.7% AUROCs in the localization, respectively, without using the ImageNet pre-trained model as in previous methods.

Published

2022

2. Learning from Imbalanced and Hierarchically Dual-Labeled Data

Author

Youngdong Kim, Hansang Cho, Junmo Kim, Junho Yim, and Juseung Yun

Subjects

Channel (digital image), Computer science, business.industry, 05 social sciences, 010501 environmental sciences, DUAL (cognitive architecture), Machine learning, computer.software_genre, 01 natural sciences, Autoencoder, Class (biology), Bottleneck, 0502 economics and business, Labeled data, Artificial intelligence, 050207 economics, business, Transfer of learning, computer, 0105 earth and related environmental sciences

Abstract

The success of deep neural networks depends strongly on the availability of balanced and well-refined datasets, but in a real industry or practical cases, it is difficult to create such a dataset. In this paper, we present an approach to effectively use a highly imbalanced, hierarchically dual-labeled and multi-channel dataset: 1) using difference images, 2) transfer learning, 3) data argumentation and 4) DNN model based on an autoencoder which has the same number of bottleneck nodes as the number of classes. We evaluate our approach on the HDI AFVI dataset, containing ~65k 4 channel images, 37 classes, and dual-labeled for each 36 defective class. The result demonstrates the effectiveness of our proposed methods in realistic settings.

Published

2018

3. A New Template Matching Method using Variance Estimation for Spike Sorting

Author

David P. Corina, George A. Ojemann, Linda G. Shapiro, Hansang Cho, and James F. Brinkley

Subjects

Euclidean distance, Quantitative Biology::Neurons and Cognition, Spike sorting, business.industry, Template matching, Variance estimation, Metric (mathematics), Curve fitting, Clustered data, Pattern recognition, Artificial intelligence, business, Mathematics

Abstract

The analysis of single unit recording data requires a spike sorting method to separate blended neuronal spikes into separate neuron classes. A new template matching method for spike sorting based on shape distributions and a weighted Euclidean metric is proposed. The data is first roughly clustered using a Euclidean distance metric. Then the Levenberg-Marquardt method is used to estimate the variances of the neuron classes using curve fitting on the clustered data. Finally, the weighted Euclidean distance method is applied to minimize errors caused by different variances. This method provides optimized template matching results when the neuron variances are considerably different

Published

2005

4. A New Template Matching Method using Variance Estimation for Spike Sorting.

Author

Hansang Cho, Corina, D., Brinkley, J.F., Ojemann, G.A., and Shapiro, L.G.

Published

2005

5. Characterizing neuronal firing patterns in the human brain.

Author

Hansang Cho, Corina, D., Ojemann, G.A., and Shapiro, L.

Published

2004

6. A new neuron spike sorting method using maximal overlap discrete wavelet transform and rotated principal component analysis.

Author

Hansang Cho, Corina, D., Ojemann, G.A., Schoenfield, J., Zamora, L., and Shapiro, L.

Published

2003