A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference

Mianduan Lin; Kaoru Hirota; Yaping Dai; Shuai Shao

doi:10.1007/978-981-96-4753-8_8

A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference

Mianduan Lin, Kaoru Hirota, Yaping Dai, Shuai Shao^*

^*Corresponding author for this work

School of Automation

Beijing Institute of Technology

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

Abstract

Unlike other medical images, polyp images usually contain a lot of noise interference, which reduces the accuracy of polyp segmentation. To solve the problem of polyp images containing a large amount of noise interference, a Multi-stage Noise Suppression Network (MNSNet) that integrates Transformer and CNN is proposed. Firstly, for the problem that low-level polyp features contain a lot of background noise interference, the Polyp Background Noise Suppression (PBNS) module is constructed based on the self-attention to improve the anti-background noise ability of MNSNet in the feature extraction stage, which in turn improves the network’s performance in polyp segmentation. Secondly, to address the lack of anti-interference ability of the semantic fusion method in the existing polyp segmentation network, the Polyp Dynamic Noise Suppression (PDNS) module is constructed based on the dynamic kernel method to improve the adaptability of MNSNet to complex and variable noise interference in the polyp images during the semantic fusion stage, thereby improving the network’s polyp segmentation accuracy. Experiment results show that the MNSNet has best performance compare with five methods (SANet, SSFormer, PPFormer, TransFuse and Meta-Polyp), under five benchmark polyp segmentation datasets (the Kvasir dataset, the CVC-ClinicDB dataset, the CVC-ColonDB dataset, the CVC-T dataset and the ETIS dataset). In particular, compared with the Meta-Polyp, MNSNet improves mDice and mIoU by 2.2% and 2.0% on the ETIS dataset.

Original language	English
Title of host publication	Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings
Editors	Bin Xin, Hongbin Ma, Jinhua She, Weihua Cao
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	93-106
Number of pages	14
ISBN (Print)	9789819647521
DOIs	https://doi.org/10.1007/978-981-96-4753-8_8
Publication status	Published - 2025
Event	11th International Symposium on Computational Intelligence and Industrial Applications, ISCIIA 2024 - Beijing, China Duration: 1 Nov 2024 → 5 Nov 2024

Publication series

Name	Communications in Computer and Information Science
Volume	2465 CCIS
ISSN (Print)	1865-0929
ISSN (Electronic)	1865-0937

Conference

Conference	11th International Symposium on Computational Intelligence and Industrial Applications, ISCIIA 2024
Country/Territory	China
City	Beijing
Period	1/11/24 → 5/11/24

Keywords

Attention Mechanism
Deep Learning
Dynamic Kernel
Noise Suppression
Polyp Image Segmentation

Access to Document

10.1007/978-981-96-4753-8_8

Cite this

Lin, M., Hirota, K., Dai, Y., & Shao, S. (2025). A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference. In B. Xin, H. Ma, J. She, & W. Cao (Eds.), Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings (pp. 93-106). (Communications in Computer and Information Science; Vol. 2465 CCIS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-96-4753-8_8

Lin, Mianduan ; Hirota, Kaoru ; Dai, Yaping et al. / A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference. Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings. editor / Bin Xin ; Hongbin Ma ; Jinhua She ; Weihua Cao. Springer Science and Business Media Deutschland GmbH, 2025. pp. 93-106 (Communications in Computer and Information Science).

@inproceedings{6202339b147143da8dc6570b10069765,

title = "A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference",

abstract = "Unlike other medical images, polyp images usually contain a lot of noise interference, which reduces the accuracy of polyp segmentation. To solve the problem of polyp images containing a large amount of noise interference, a Multi-stage Noise Suppression Network (MNSNet) that integrates Transformer and CNN is proposed. Firstly, for the problem that low-level polyp features contain a lot of background noise interference, the Polyp Background Noise Suppression (PBNS) module is constructed based on the self-attention to improve the anti-background noise ability of MNSNet in the feature extraction stage, which in turn improves the network{\textquoteright}s performance in polyp segmentation. Secondly, to address the lack of anti-interference ability of the semantic fusion method in the existing polyp segmentation network, the Polyp Dynamic Noise Suppression (PDNS) module is constructed based on the dynamic kernel method to improve the adaptability of MNSNet to complex and variable noise interference in the polyp images during the semantic fusion stage, thereby improving the network{\textquoteright}s polyp segmentation accuracy. Experiment results show that the MNSNet has best performance compare with five methods (SANet, SSFormer, PPFormer, TransFuse and Meta-Polyp), under five benchmark polyp segmentation datasets (the Kvasir dataset, the CVC-ClinicDB dataset, the CVC-ColonDB dataset, the CVC-T dataset and the ETIS dataset). In particular, compared with the Meta-Polyp, MNSNet improves mDice and mIoU by 2.2% and 2.0% on the ETIS dataset.",

keywords = "Attention Mechanism, Deep Learning, Dynamic Kernel, Noise Suppression, Polyp Image Segmentation",

author = "Mianduan Lin and Kaoru Hirota and Yaping Dai and Shuai Shao",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.; 11th International Symposium on Computational Intelligence and Industrial Applications, ISCIIA 2024 ; Conference date: 01-11-2024 Through 05-11-2024",

year = "2025",

doi = "10.1007/978-981-96-4753-8_8",

language = "English",

isbn = "9789819647521",

series = "Communications in Computer and Information Science",

publisher = "Springer Science and Business Media Deutschland GmbH",

pages = "93--106",

editor = "Bin Xin and Hongbin Ma and Jinhua She and Weihua Cao",

booktitle = "Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings",

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}

Lin, M, Hirota, K , Dai, Y & Shao, S 2025, A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference. in B Xin, H Ma, J She & W Cao (eds), Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings. Communications in Computer and Information Science, vol. 2465 CCIS, Springer Science and Business Media Deutschland GmbH, pp. 93-106, 11th International Symposium on Computational Intelligence and Industrial Applications, ISCIIA 2024, Beijing, China, 1/11/24. https://doi.org/10.1007/978-981-96-4753-8_8

A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference. / Lin, Mianduan; Hirota, Kaoru ; Dai, Yaping et al.
Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings. ed. / Bin Xin; Hongbin Ma; Jinhua She; Weihua Cao. Springer Science and Business Media Deutschland GmbH, 2025. p. 93-106 (Communications in Computer and Information Science; Vol. 2465 CCIS).

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

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T1 - A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference

AU - Lin, Mianduan

AU - Hirota, Kaoru

AU - Dai, Yaping

AU - Shao, Shuai

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.

PY - 2025

Y1 - 2025

N2 - Unlike other medical images, polyp images usually contain a lot of noise interference, which reduces the accuracy of polyp segmentation. To solve the problem of polyp images containing a large amount of noise interference, a Multi-stage Noise Suppression Network (MNSNet) that integrates Transformer and CNN is proposed. Firstly, for the problem that low-level polyp features contain a lot of background noise interference, the Polyp Background Noise Suppression (PBNS) module is constructed based on the self-attention to improve the anti-background noise ability of MNSNet in the feature extraction stage, which in turn improves the network’s performance in polyp segmentation. Secondly, to address the lack of anti-interference ability of the semantic fusion method in the existing polyp segmentation network, the Polyp Dynamic Noise Suppression (PDNS) module is constructed based on the dynamic kernel method to improve the adaptability of MNSNet to complex and variable noise interference in the polyp images during the semantic fusion stage, thereby improving the network’s polyp segmentation accuracy. Experiment results show that the MNSNet has best performance compare with five methods (SANet, SSFormer, PPFormer, TransFuse and Meta-Polyp), under five benchmark polyp segmentation datasets (the Kvasir dataset, the CVC-ClinicDB dataset, the CVC-ColonDB dataset, the CVC-T dataset and the ETIS dataset). In particular, compared with the Meta-Polyp, MNSNet improves mDice and mIoU by 2.2% and 2.0% on the ETIS dataset.

AB - Unlike other medical images, polyp images usually contain a lot of noise interference, which reduces the accuracy of polyp segmentation. To solve the problem of polyp images containing a large amount of noise interference, a Multi-stage Noise Suppression Network (MNSNet) that integrates Transformer and CNN is proposed. Firstly, for the problem that low-level polyp features contain a lot of background noise interference, the Polyp Background Noise Suppression (PBNS) module is constructed based on the self-attention to improve the anti-background noise ability of MNSNet in the feature extraction stage, which in turn improves the network’s performance in polyp segmentation. Secondly, to address the lack of anti-interference ability of the semantic fusion method in the existing polyp segmentation network, the Polyp Dynamic Noise Suppression (PDNS) module is constructed based on the dynamic kernel method to improve the adaptability of MNSNet to complex and variable noise interference in the polyp images during the semantic fusion stage, thereby improving the network’s polyp segmentation accuracy. Experiment results show that the MNSNet has best performance compare with five methods (SANet, SSFormer, PPFormer, TransFuse and Meta-Polyp), under five benchmark polyp segmentation datasets (the Kvasir dataset, the CVC-ClinicDB dataset, the CVC-ColonDB dataset, the CVC-T dataset and the ETIS dataset). In particular, compared with the Meta-Polyp, MNSNet improves mDice and mIoU by 2.2% and 2.0% on the ETIS dataset.

KW - Attention Mechanism

KW - Deep Learning

KW - Dynamic Kernel

KW - Noise Suppression

KW - Polyp Image Segmentation

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BT - Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings

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A2 - Ma, Hongbin

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Lin M, Hirota K , Dai Y, Shao S. A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference. In Xin B, Ma H, She J, Cao W, editors, Computational Intelligence and Industrial Applications - 11th International Symposium, ISCIIA 2024, Proceedings. Springer Science and Business Media Deutschland GmbH. 2025. p. 93-106. (Communications in Computer and Information Science). doi: 10.1007/978-981-96-4753-8_8

A Multi-stage Noise Suppression Network for Segmenting Polyp Images Containing Noise Interference

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