Scale-equivariant UNet for histopathology image segmentation
Scale-equivariant UNet for histopathology image segmentation
Digital histopathology slides are scanned and viewed under different magnifications and stored as images at different resolutions. Convolutional Neural Networks (CNNs) trained on such images at a given scale fail to generalise to those at different scales. This inability is often addressed by augmenting training data with re-scaled images, allowing a model with sufficient capacity to learn the requisite patterns. Alternatively, designing CNN filters to be scale-equivariant frees up model capacity to learn discriminative features. In this paper, we propose the Scale-Equivariant UNet (SEUNet) for image segmentation by building on scale-space theory. The SEUNet contains groups of filters that are linear combinations of Gaussian basis filters, whose scale parameters are trainable but constrained to span disjoint scales through the layers of the network. Extensive experiments on a nuclei segmentation dataset and a tissue type segmentation dataset demonstrate that our method outperforms other approaches, with much fewer trainable parameters.
Scale, Equivariant, Segmentation, CNN
Yang, Yilong
a0d162d2-c118-40be-b724-d2e03bffc026
Dasmahapatra, Srinandan
eb5fd76f-4335-4ae9-a88a-20b9e2b3f698
Mahmoodi, Sasan
91ca8da4-95dc-4c1e-ac0e-f2c08d6ac7cf
18 November 2022
Yang, Yilong
a0d162d2-c118-40be-b724-d2e03bffc026
Dasmahapatra, Srinandan
eb5fd76f-4335-4ae9-a88a-20b9e2b3f698
Mahmoodi, Sasan
91ca8da4-95dc-4c1e-ac0e-f2c08d6ac7cf
Yang, Yilong, Dasmahapatra, Srinandan and Mahmoodi, Sasan
(2022)
Scale-equivariant UNet for histopathology image segmentation.
In Proceedings of Machine Learning Research.
OpenReview.net.
19 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Digital histopathology slides are scanned and viewed under different magnifications and stored as images at different resolutions. Convolutional Neural Networks (CNNs) trained on such images at a given scale fail to generalise to those at different scales. This inability is often addressed by augmenting training data with re-scaled images, allowing a model with sufficient capacity to learn the requisite patterns. Alternatively, designing CNN filters to be scale-equivariant frees up model capacity to learn discriminative features. In this paper, we propose the Scale-Equivariant UNet (SEUNet) for image segmentation by building on scale-space theory. The SEUNet contains groups of filters that are linear combinations of Gaussian basis filters, whose scale parameters are trainable but constrained to span disjoint scales through the layers of the network. Extensive experiments on a nuclei segmentation dataset and a tissue type segmentation dataset demonstrate that our method outperforms other approaches, with much fewer trainable parameters.
Other
Unconfirmed 794153
- Author's Original
More information
Published date: 18 November 2022
Venue - Dates:
Geometric Deep Learning in Medical Image Analysis, Amsterdam, Amsterdam, Netherlands, 2022-11-18 - 2022-11-18
Keywords:
Scale, Equivariant, Segmentation, CNN
Identifiers
Local EPrints ID: 474475
URI: http://eprints.soton.ac.uk/id/eprint/474475
PURE UUID: 696fe5bb-0360-42ef-b2c6-7a9150b64c42
Catalogue record
Date deposited: 22 Feb 2023 21:08
Last modified: 16 Mar 2024 23:25
Export record
Contributors
Author:
Yilong Yang
Author:
Srinandan Dasmahapatra
Author:
Sasan Mahmoodi
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics