Self-Supervised Learning Based on Transformed Image Reconstruction for Equivariance-Coherent Feature Representation
DOI:
https://doi.org/10.1609/aaai.v40i31.39849Abstract
Self-supervised learning (SSL) methods have achieved remarkable success in learning image representations allowing invariances in them — but therefore discarding transformation information that some computer vision tasks actually require. While recent approaches attempt to address this limitation by learning equivariant features using linear operators in feature space, they impose restrictive assumptions that constrain flexibility and generalization. We introduce a weaker definition for the transformation relation between image and feature space denoted as equivariance-coherence. We propose a novel SSL auxillary task that learns equivariance-coherent representations through intermediate transformation reconstruction, which can be integrated with existing joint embedding SSL methods. Our key idea is to reconstruct images at intermediate points along transformation paths, e.g. when training on 30° rotations, we reconstruct the 10° and 20° rotation states. Reconstructing intermediate states requires the transformation information used in augmentations, rather than suppressing it, and therefore fosters features containing the augmented transformation information. Our method decomposes feature vectors into invariant and equivariant parts, training them with standard SSL losses and reconstruction losses, respectively. We demonstrate substantial improvements on synthetic equivariance benchmarks while maintaining competitive performance on downstream tasks requiring invariant representations. The approach seamlessly integrates with existing SSL methods (iBOT, DINOv2) and consistently enhances performance across diverse tasks, including segmentation, detection, depth estimation, and video dense prediction. Our framework provides a practical way for augmenting SSL methods with equivariant capabilities while preserving invariant performance.
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Published
2026-03-14
How to Cite
Wang, Q., Quercia, A., Bruns, B., Morrison, A., Scharr, H., & Krajsek, K. (2026). Self-Supervised Learning Based on Transformed Image Reconstruction for Equivariance-Coherent Feature Representation. Proceedings of the AAAI Conference on Artificial Intelligence, 40(31), 26425–26434. https://doi.org/10.1609/aaai.v40i31.39849
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Section
AAAI Technical Track on Machine Learning VIII
