Salient object detection with detail-preserving pooling and feature channel refinement

Hang Yu; Derong Chen; Hang Yi

doi:10.1145/3377713.3377725

Salient object detection with detail-preserving pooling and feature channel refinement

Hang Yu, Derong Chen, Hang Yi

Beijing Institute of Astronautical Systems Engineering

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

Abstract

This paper proposes a novel end-to-end approach for salient object detection task to enhance the performances. The traditional downscaling method such as max pooling layer is replaced by detail preserving pooling layer to capture more effective features. Moreover, the squeeze and excitation block is adopted to extract image features with the channel wise importance. Finally, densely connected architecture is introduced to maximizes feature reuse and reduce the computational cost in the process of generate saliency maps. The proposed method, on several public benchmarks acquires competitive or better performances than other similar approaches.

Original language	English
Title of host publication	Proceedings of the 2019 2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019
Publisher	Association for Computing Machinery
Pages	127-132
Number of pages	6
ISBN (Electronic)	9781450372619
DOIs	https://doi.org/10.1145/3377713.3377725
Publication status	Published - 20 Dec 2019
Event	2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019 - Sanya, China Duration: 20 Dec 2019 → 22 Dec 2019

Publication series

Name	ACM International Conference Proceeding Series

Conference

Conference	2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019
Country/Territory	China
City	Sanya
Period	20/12/19 → 22/12/19

Keywords

Detail preserving pooling
Salient object detection
Squeeze and excitation

Access to Document

10.1145/3377713.3377725

Cite this

Yu, H., Chen, D., & Yi, H. (2019). Salient object detection with detail-preserving pooling and feature channel refinement. In Proceedings of the 2019 2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019 (pp. 127-132). (ACM International Conference Proceeding Series). Association for Computing Machinery. https://doi.org/10.1145/3377713.3377725

@inproceedings{048a030b31cc475ea68617d11e9581ea,

title = "Salient object detection with detail-preserving pooling and feature channel refinement",

abstract = "This paper proposes a novel end-to-end approach for salient object detection task to enhance the performances. The traditional downscaling method such as max pooling layer is replaced by detail preserving pooling layer to capture more effective features. Moreover, the squeeze and excitation block is adopted to extract image features with the channel wise importance. Finally, densely connected architecture is introduced to maximizes feature reuse and reduce the computational cost in the process of generate saliency maps. The proposed method, on several public benchmarks acquires competitive or better performances than other similar approaches.",

keywords = "Detail preserving pooling, Salient object detection, Squeeze and excitation",

author = "Hang Yu and Derong Chen and Hang Yi",

note = "Publisher Copyright: {\textcopyright} 2019 ACM.; 2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019 ; Conference date: 20-12-2019 Through 22-12-2019",

year = "2019",

month = dec,

day = "20",

doi = "10.1145/3377713.3377725",

language = "English",

series = "ACM International Conference Proceeding Series",

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Yu, H , Chen, D & Yi, H 2019, Salient object detection with detail-preserving pooling and feature channel refinement. in Proceedings of the 2019 2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019. ACM International Conference Proceeding Series, Association for Computing Machinery, pp. 127-132, 2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019, Sanya, China, 20/12/19. https://doi.org/10.1145/3377713.3377725

Salient object detection with detail-preserving pooling and feature channel refinement. / Yu, Hang ; Chen, Derong; Yi, Hang.
Proceedings of the 2019 2nd International Conference on Algorithms, Computing and Artificial Intelligence, ACAI 2019. Association for Computing Machinery, 2019. p. 127-132 (ACM International Conference Proceeding Series).

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

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N2 - This paper proposes a novel end-to-end approach for salient object detection task to enhance the performances. The traditional downscaling method such as max pooling layer is replaced by detail preserving pooling layer to capture more effective features. Moreover, the squeeze and excitation block is adopted to extract image features with the channel wise importance. Finally, densely connected architecture is introduced to maximizes feature reuse and reduce the computational cost in the process of generate saliency maps. The proposed method, on several public benchmarks acquires competitive or better performances than other similar approaches.

AB - This paper proposes a novel end-to-end approach for salient object detection task to enhance the performances. The traditional downscaling method such as max pooling layer is replaced by detail preserving pooling layer to capture more effective features. Moreover, the squeeze and excitation block is adopted to extract image features with the channel wise importance. Finally, densely connected architecture is introduced to maximizes feature reuse and reduce the computational cost in the process of generate saliency maps. The proposed method, on several public benchmarks acquires competitive or better performances than other similar approaches.

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PB - Association for Computing Machinery

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Y2 - 20 December 2019 through 22 December 2019

ER -

Salient object detection with detail-preserving pooling and feature channel refinement

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Keywords

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