Riemannian local mechanism for SPD neural networks
Riemannian local mechanism for SPD neural networks
The Symmetric Positive Definite (SPD) matrices have received wide attention for data representation in many scientific areas. Although there are many different attempts to develop effective deep architectures for data processing on the Riemannian manifold of SPD matrices, very few solutions explicitly mine the local geometrical information in deep SPD feature representations. Given the great success of local mechanisms in Euclidean methods, we argue that it is of utmost importance to ensure the preservation of local geometric information in the SPD networks. We first analyse the convolution operator commonly used for capturing local information in Euclidean deep networks from the perspective of a higher level of abstraction afforded by category theory. Based on this analysis, we define the local information in the SPD manifold and design a multi-scale sub-manifold block for mining local geometry. Experiments involving multiple visual tasks validate the effectiveness of our approach.
7104 - 7112
Chen, Ziheng
638b536d-8595-45cd-936b-cf7dbcce2ccb
Xu, Tianyang
4ddb4bec-679c-4365-879a-d30c539549e2
Wu, Xiao-Jun
a29c640a-067b-4f8e-a748-9e1a23e457fd
Wang, Rui
e722c995-0d9a-4c24-856b-31e20afc6411
Huang, Zhiwu
84f477cd-9097-44dd-a33e-ff71f253d36b
Kittler, Josef
0223d3b9-d26c-476e-914b-a0dd9bb86f9e
7 February 2023
Chen, Ziheng
638b536d-8595-45cd-936b-cf7dbcce2ccb
Xu, Tianyang
4ddb4bec-679c-4365-879a-d30c539549e2
Wu, Xiao-Jun
a29c640a-067b-4f8e-a748-9e1a23e457fd
Wang, Rui
e722c995-0d9a-4c24-856b-31e20afc6411
Huang, Zhiwu
84f477cd-9097-44dd-a33e-ff71f253d36b
Kittler, Josef
0223d3b9-d26c-476e-914b-a0dd9bb86f9e
Chen, Ziheng, Xu, Tianyang, Wu, Xiao-Jun, Wang, Rui, Huang, Zhiwu and Kittler, Josef
(2023)
Riemannian local mechanism for SPD neural networks.
In Association for the Advancement of Artificial Intelligence.
.
(doi:10.1609/aaai.v37i6.25867).
Record type:
Conference or Workshop Item
(Paper)
Abstract
The Symmetric Positive Definite (SPD) matrices have received wide attention for data representation in many scientific areas. Although there are many different attempts to develop effective deep architectures for data processing on the Riemannian manifold of SPD matrices, very few solutions explicitly mine the local geometrical information in deep SPD feature representations. Given the great success of local mechanisms in Euclidean methods, we argue that it is of utmost importance to ensure the preservation of local geometric information in the SPD networks. We first analyse the convolution operator commonly used for capturing local information in Euclidean deep networks from the perspective of a higher level of abstraction afforded by category theory. Based on this analysis, we define the local information in the SPD manifold and design a multi-scale sub-manifold block for mining local geometry. Experiments involving multiple visual tasks validate the effectiveness of our approach.
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Published date: 7 February 2023
Venue - Dates:
The Association for the Advancement of Artificial Intelligence (AAAI), , Washington, United States, 2023-02-07
Identifiers
Local EPrints ID: 501688
URI: http://eprints.soton.ac.uk/id/eprint/501688
PURE UUID: 82f20c01-0119-46df-8083-5bcaf1f43c10
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Date deposited: 05 Jun 2025 16:58
Last modified: 06 Jun 2025 02:06
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Contributors
Author:
Ziheng Chen
Author:
Tianyang Xu
Author:
Xiao-Jun Wu
Author:
Rui Wang
Author:
Zhiwu Huang
Author:
Josef Kittler
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