Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images

Iván Calvo; Saul Calderon; Jordina Torrents-Barrena; Erick Muñoz; Domenec Puig

doi:10.1007/978-3-030-41005-6_18

Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images

Iván Calvo
, Saul Calderon
, Jordina Torrents-Barrena
, Erick Muñoz
, Domenec Puig

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

8 Scopus citations

Abstract

In this work, we assess the impact of the adaptive unsharp mask filter as a preprocessing stage for breast tumour multi-class classification with histopathological images, evaluating two state-of-the-art architectures, not tested so far for this problem to our knowledge: DenseNet, SqueezeNet and a 5-layer baseline deep learning architecture. SqueezeNet is an efficient architecture, which can be useful in environments with restrictive computational resources. According to the results, the filter improved the accuracy from 2% to 4% in the 5-layer baseline architecture, on the other hand, DenseNet and SqueezeNet show a negative impact, losing from 2% to 6% accuracy. Hence, simpler deep learning architectures can take more advantage of filters than complex architectures, which are able to learn the preprocessing filter implemented. Squeeze net yielded the highest per parameter accuracy, while DenseNet achieved a 96% accuracy, defeating previous state of the art architectures by 1% to 5%, making DenseNet a considerably more efficient architecture for breast tumour classification.

Original language	English
Title of host publication	High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers
Editors	Juan Luis Crespo-Mariño, Esteban Meneses-Rojas
Publisher	Springer
Pages	262-275
Number of pages	14
ISBN (Print)	9783030410049
DOIs	https://doi.org/10.1007/978-3-030-41005-6_18
State	Published - 2020
Event	6th Latin American High Performance Computing Conference, CARLA 2019 - Turrialba, Costa Rica Duration: 25 Sep 2019 → 27 Sep 2019

Publication series

Name	Communications in Computer and Information Science
Volume	1087 CCIS
ISSN (Print)	1865-0929
ISSN (Electronic)	1865-0937

Conference

Conference	6th Latin American High Performance Computing Conference, CARLA 2019
Country/Territory	Costa Rica
City	Turrialba
Period	25/09/19 → 27/09/19

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Breast cancer
Deep learning
Histopathological images
Multi-class tumour classification

Access to Document

10.1007/978-3-030-41005-6_18

Cite this

Calvo, I., Calderon, S., Torrents-Barrena, J., Muñoz, E., & Puig, D. (2020). Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images. In J. L. Crespo-Mariño, & E. Meneses-Rojas (Eds.), High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers (pp. 262-275). (Communications in Computer and Information Science; Vol. 1087 CCIS). Springer. https://doi.org/10.1007/978-3-030-41005-6_18

Calvo, Iván ; Calderon, Saul ; Torrents-Barrena, Jordina et al. / Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images. High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers. editor / Juan Luis Crespo-Mariño ; Esteban Meneses-Rojas. Springer, 2020. pp. 262-275 (Communications in Computer and Information Science).

@inproceedings{040ccaebac524916be66f8865eb09c95,

title = "Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images",

abstract = "In this work, we assess the impact of the adaptive unsharp mask filter as a preprocessing stage for breast tumour multi-class classification with histopathological images, evaluating two state-of-the-art architectures, not tested so far for this problem to our knowledge: DenseNet, SqueezeNet and a 5-layer baseline deep learning architecture. SqueezeNet is an efficient architecture, which can be useful in environments with restrictive computational resources. According to the results, the filter improved the accuracy from 2\% to 4\% in the 5-layer baseline architecture, on the other hand, DenseNet and SqueezeNet show a negative impact, losing from 2\% to 6\% accuracy. Hence, simpler deep learning architectures can take more advantage of filters than complex architectures, which are able to learn the preprocessing filter implemented. Squeeze net yielded the highest per parameter accuracy, while DenseNet achieved a 96\% accuracy, defeating previous state of the art architectures by 1\% to 5\%, making DenseNet a considerably more efficient architecture for breast tumour classification.",

keywords = "Breast cancer, Deep learning, Histopathological images, Multi-class tumour classification",

author = "Iv{\'a}n Calvo and Saul Calderon and Jordina Torrents-Barrena and Erick Mu{\~n}oz and Domenec Puig",

note = "Publisher Copyright: {\textcopyright} 2020, Springer Nature Switzerland AG.; 6th Latin American High Performance Computing Conference, CARLA 2019 ; Conference date: 25-09-2019 Through 27-09-2019",

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Calvo, I, Calderon, S, Torrents-Barrena, J, Muñoz, E & Puig, D 2020, Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images. in JL Crespo-Mariño & E Meneses-Rojas (eds), High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers. Communications in Computer and Information Science, vol. 1087 CCIS, Springer, pp. 262-275, 6th Latin American High Performance Computing Conference, CARLA 2019, Turrialba, Costa Rica, 25/09/19. https://doi.org/10.1007/978-3-030-41005-6_18

Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images. / Calvo, Iván; Calderon, Saul; Torrents-Barrena, Jordina et al.
High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers. ed. / Juan Luis Crespo-Mariño; Esteban Meneses-Rojas. Springer, 2020. p. 262-275 (Communications in Computer and Information Science; Vol. 1087 CCIS).

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

TY - GEN

T1 - Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images

AU - Calvo, Iván

AU - Calderon, Saul

AU - Torrents-Barrena, Jordina

AU - Muñoz, Erick

AU - Puig, Domenec

PY - 2020

Y1 - 2020

N2 - In this work, we assess the impact of the adaptive unsharp mask filter as a preprocessing stage for breast tumour multi-class classification with histopathological images, evaluating two state-of-the-art architectures, not tested so far for this problem to our knowledge: DenseNet, SqueezeNet and a 5-layer baseline deep learning architecture. SqueezeNet is an efficient architecture, which can be useful in environments with restrictive computational resources. According to the results, the filter improved the accuracy from 2% to 4% in the 5-layer baseline architecture, on the other hand, DenseNet and SqueezeNet show a negative impact, losing from 2% to 6% accuracy. Hence, simpler deep learning architectures can take more advantage of filters than complex architectures, which are able to learn the preprocessing filter implemented. Squeeze net yielded the highest per parameter accuracy, while DenseNet achieved a 96% accuracy, defeating previous state of the art architectures by 1% to 5%, making DenseNet a considerably more efficient architecture for breast tumour classification.

AB - In this work, we assess the impact of the adaptive unsharp mask filter as a preprocessing stage for breast tumour multi-class classification with histopathological images, evaluating two state-of-the-art architectures, not tested so far for this problem to our knowledge: DenseNet, SqueezeNet and a 5-layer baseline deep learning architecture. SqueezeNet is an efficient architecture, which can be useful in environments with restrictive computational resources. According to the results, the filter improved the accuracy from 2% to 4% in the 5-layer baseline architecture, on the other hand, DenseNet and SqueezeNet show a negative impact, losing from 2% to 6% accuracy. Hence, simpler deep learning architectures can take more advantage of filters than complex architectures, which are able to learn the preprocessing filter implemented. Squeeze net yielded the highest per parameter accuracy, while DenseNet achieved a 96% accuracy, defeating previous state of the art architectures by 1% to 5%, making DenseNet a considerably more efficient architecture for breast tumour classification.

KW - Breast cancer

KW - Deep learning

KW - Histopathological images

KW - Multi-class tumour classification

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U2 - 10.1007/978-3-030-41005-6_18

DO - 10.1007/978-3-030-41005-6_18

M3 - Contribución a la conferencia

AN - SCOPUS:85081176010

SN - 9783030410049

T3 - Communications in Computer and Information Science

SP - 262

EP - 275

BT - High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers

A2 - Crespo-Mariño, Juan Luis

A2 - Meneses-Rojas, Esteban

PB - Springer

T2 - 6th Latin American High Performance Computing Conference, CARLA 2019

Y2 - 25 September 2019 through 27 September 2019

ER -

Calvo I, Calderon S, Torrents-Barrena J, Muñoz E, Puig D. Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images. In Crespo-Mariño JL, Meneses-Rojas E, editors, High Performance Computing - 6th Latin American Conference, CARLA 2019, Revised Selected Papers. Springer. 2020. p. 262-275. (Communications in Computer and Information Science). doi: 10.1007/978-3-030-41005-6_18

Assessing the Impact of a Preprocessing Stage on Deep Learning Architectures for Breast Tumor Multi-class Classification with Histopathological Images

Abstract

Publication series

Conference

UN SDGs

Keywords

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