Document Type
Conference Proceeding
Publication Title
Advances in Neural Information Processing Systems
Abstract
A desirable objective in self-supervised learning (SSL) is to avoid feature collapse. Whitening loss guarantees collapse avoidance by minimizing the distance between embeddings of positive pairs under the conditioning that the embeddings from different views are whitened. In this paper, we propose a framework with an informative indicator to analyze whitening loss, which provides a clue to demystify several interesting phenomena as well as a pivoting point connecting to other SSL methods. We reveal that batch whitening (BW) based methods do not impose whitening constraints on the embedding, but they only require the embedding to be full-rank. This full-rank constraint is also sufficient to avoid dimensional collapse. Based on our analysis, we propose channel whitening with random group partition (CW-RGP), which exploits the advantages of BW-based methods in preventing collapse and avoids their disadvantages requiring large batch size. Experimental results on ImageNet classification and COCO object detection reveal that the proposed CW-RGP possesses a promising potential for learning good representations. The code is available at https://github.com/winci-ai/CW-RGP.
Publication Date
11-28-2022
Keywords
Object detection, Supervised learning, Batch sizes, Embeddings, Group partitions
Recommended Citation
X. Weng et al., "An Investigation into Whitening Loss for Self-supervised Learning," Advances in Neural Information Processing Systems, vol. 35, Nov 2022.
Comments
Open Access Version from NeurIPS
Uploaded: May 29, 2024