PsyNet: Self-Supervised Approach to Object Localization Using Point Symmetric Transformation
Author(s) -
Kyungjune Baek,
Minhyun Lee,
Hyunjung Shim
Publication year - 2020
Publication title -
proceedings of the aaai conference on artificial intelligence
Language(s) - English
Resource type - Journals
eISSN - 2374-3468
pISSN - 2159-5399
DOI - 10.1609/aaai.v34i07.6615
Subject(s) - computer science , artificial intelligence , regularization (linguistics) , transformation (genetics) , inference , object (grammar) , pattern recognition (psychology) , supervised learning , geometric transformation , point (geometry) , machine learning , image (mathematics) , artificial neural network , mathematics , biochemistry , chemistry , gene , geometry
Existing co-localization techniques significantly lose performance over weakly or fully supervised methods in accuracy and inference time. In this paper, we overcome common drawbacks of co-localization techniques by utilizing self-supervised learning approach. The major technical contributions of the proposed method are two-fold. 1) We devise a new geometric transformation, namely point symmetric transformation and utilize its parameters as an artificial label for self-supervised learning. This new transformation can also play the role of region-drop based regularization. 2) We suggest a heat map extraction method for computing the heat map from the network trained by self-supervision, namely class-agnostic activation mapping. It is done by computing the spatial attention map. Based on extensive evaluations, we observe that the proposed method records new state-of-the-art performance in three fine-grained datasets for unsupervised object localization. Moreover, we show that the idea of the proposed method can be adopted in a modified manner to solve the weakly supervised object localization task. As a result, we outperform the current state-of-the-art technique in weakly supervised object localization by a significant gap.
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