Relaxed Rotational Equivariance via G-Biases in Vision

Zhiqiang Wu; Yingjie Liu; Licheng Sun; Jian Yang; Hanlin Dong; Shing Ho J. Lin; Xuan Tang; Jinpeng Mi; Bo Jin; Xian Wei

doi:10.1609/aaai.v39i8.32922

Relaxed Rotational Equivariance via G-Biases in Vision

Zhiqiang Wu
, Yingjie Liu
, Licheng Sun
, Jian Yang
, Hanlin Dong
, Shing Ho J. Lin
, Xuan Tang
, Jinpeng Mi
, Bo Jin
, Xian Wei^*

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Group Equivariant Convolution (GConv) can capture rotational equivariance from original data. It assumes uniform and strict rotational equivariance across all features as the transformations under the specific group. However, the presentation or distribution of real-world data rarely conforms to strict rotational equivariance, commonly referred to as Rotational Symmetry-Breaking (RSB) in the system or dataset, making GConv unable to adapt effectively to this phenomenon. Motivated by this, we propose a simple but highly effective method to address this problem, which utilizes a set of learnable biases called G-Biases under the group order to break strict group constraints and then achieve a Relaxed Rotational Equivariant Convolution (RREConv). To validate the efficiency of RREConv, we conduct extensive ablation experiments on the discrete rotational group Cn. Experiments demonstrate that the proposed RREConv-based methods achieve excellent performance compared to existing GConv-based methods in both classification and 2D object detection tasks on the natural image datasets.

Original language	English
Title of host publication	Special Track on AI Alignment
Editors	Toby Walsh, Julie Shah, Zico Kolter
Publisher	Association for the Advancement of Artificial Intelligence
Pages	8541-8549
Number of pages	9
Edition	8
ISBN (Electronic)	157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 157735897X, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978, 9781577358978
DOIs	https://doi.org/10.1609/aaai.v39i8.32922
State	Published - 11 Apr 2025
Event	39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025 - Philadelphia, United States Duration: 25 Feb 2025 → 4 Mar 2025

Publication series

Name	Proceedings of the AAAI Conference on Artificial Intelligence
Number	8
Volume	39
ISSN (Print)	2159-5399
ISSN (Electronic)	2374-3468

Conference

Conference	39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025
Country/Territory	United States
City	Philadelphia
Period	25/02/25 → 4/03/25

Access to Document

10.1609/aaai.v39i8.32922

Cite this

Wu, Z., Liu, Y., Sun, L., Yang, J., Dong, H., Lin, S. H. J., Tang, X., Mi, J., Jin, B., & Wei, X. (2025). Relaxed Rotational Equivariance via G-Biases in Vision. In T. Walsh, J. Shah, & Z. Kolter (Eds.), Special Track on AI Alignment (8 ed., pp. 8541-8549). (Proceedings of the AAAI Conference on Artificial Intelligence; Vol. 39, No. 8). Association for the Advancement of Artificial Intelligence. https://doi.org/10.1609/aaai.v39i8.32922

@inproceedings{557ecf4fa0c44249ab8377c8dfbea051,

title = "Relaxed Rotational Equivariance via G-Biases in Vision",

abstract = "Group Equivariant Convolution (GConv) can capture rotational equivariance from original data. It assumes uniform and strict rotational equivariance across all features as the transformations under the specific group. However, the presentation or distribution of real-world data rarely conforms to strict rotational equivariance, commonly referred to as Rotational Symmetry-Breaking (RSB) in the system or dataset, making GConv unable to adapt effectively to this phenomenon. Motivated by this, we propose a simple but highly effective method to address this problem, which utilizes a set of learnable biases called G-Biases under the group order to break strict group constraints and then achieve a Relaxed Rotational Equivariant Convolution (RREConv). To validate the efficiency of RREConv, we conduct extensive ablation experiments on the discrete rotational group Cn. Experiments demonstrate that the proposed RREConv-based methods achieve excellent performance compared to existing GConv-based methods in both classification and 2D object detection tasks on the natural image datasets.",

author = "Zhiqiang Wu and Yingjie Liu and Licheng Sun and Jian Yang and Hanlin Dong and Lin, \{Shing Ho J.\} and Xuan Tang and Jinpeng Mi and Bo Jin and Xian Wei",

note = "Publisher Copyright: Copyright {\textcopyright} 2025, Association for the Advancement of Artificial Intelligence (www.aaai.org). All rights reserved.; 39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025 ; Conference date: 25-02-2025 Through 04-03-2025",

year = "2025",

month = apr,

day = "11",

doi = "10.1609/aaai.v39i8.32922",

language = "英语",

series = "Proceedings of the AAAI Conference on Artificial Intelligence",

publisher = "Association for the Advancement of Artificial Intelligence",

number = "8",

pages = "8541--8549",

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booktitle = "Special Track on AI Alignment",

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}

Wu, Z, Liu, Y, Sun, L, Yang, J, Dong, H, Lin, SHJ, Tang, X, Mi, J, Jin, B & Wei, X 2025, Relaxed Rotational Equivariance via G-Biases in Vision. in T Walsh, J Shah & Z Kolter (eds), Special Track on AI Alignment. 8 edn, Proceedings of the AAAI Conference on Artificial Intelligence, no. 8, vol. 39, Association for the Advancement of Artificial Intelligence, pp. 8541-8549, 39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025, Philadelphia, United States, 25/02/25. https://doi.org/10.1609/aaai.v39i8.32922

Relaxed Rotational Equivariance via G-Biases in Vision. / Wu, Zhiqiang; Liu, Yingjie; Sun, Licheng et al.
Special Track on AI Alignment. ed. / Toby Walsh; Julie Shah; Zico Kolter. 8. ed. Association for the Advancement of Artificial Intelligence, 2025. p. 8541-8549 (Proceedings of the AAAI Conference on Artificial Intelligence; Vol. 39, No. 8).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Relaxed Rotational Equivariance via G-Biases in Vision

AU - Wu, Zhiqiang

AU - Liu, Yingjie

AU - Sun, Licheng

AU - Yang, Jian

AU - Dong, Hanlin

AU - Lin, Shing Ho J.

AU - Tang, Xuan

AU - Mi, Jinpeng

AU - Jin, Bo

AU - Wei, Xian

PY - 2025/4/11

Y1 - 2025/4/11

N2 - Group Equivariant Convolution (GConv) can capture rotational equivariance from original data. It assumes uniform and strict rotational equivariance across all features as the transformations under the specific group. However, the presentation or distribution of real-world data rarely conforms to strict rotational equivariance, commonly referred to as Rotational Symmetry-Breaking (RSB) in the system or dataset, making GConv unable to adapt effectively to this phenomenon. Motivated by this, we propose a simple but highly effective method to address this problem, which utilizes a set of learnable biases called G-Biases under the group order to break strict group constraints and then achieve a Relaxed Rotational Equivariant Convolution (RREConv). To validate the efficiency of RREConv, we conduct extensive ablation experiments on the discrete rotational group Cn. Experiments demonstrate that the proposed RREConv-based methods achieve excellent performance compared to existing GConv-based methods in both classification and 2D object detection tasks on the natural image datasets.

AB - Group Equivariant Convolution (GConv) can capture rotational equivariance from original data. It assumes uniform and strict rotational equivariance across all features as the transformations under the specific group. However, the presentation or distribution of real-world data rarely conforms to strict rotational equivariance, commonly referred to as Rotational Symmetry-Breaking (RSB) in the system or dataset, making GConv unable to adapt effectively to this phenomenon. Motivated by this, we propose a simple but highly effective method to address this problem, which utilizes a set of learnable biases called G-Biases under the group order to break strict group constraints and then achieve a Relaxed Rotational Equivariant Convolution (RREConv). To validate the efficiency of RREConv, we conduct extensive ablation experiments on the discrete rotational group Cn. Experiments demonstrate that the proposed RREConv-based methods achieve excellent performance compared to existing GConv-based methods in both classification and 2D object detection tasks on the natural image datasets.

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Y2 - 25 February 2025 through 4 March 2025

ER -

Relaxed Rotational Equivariance via G-Biases in Vision

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