Shape-Adaptive Kernel Network for Dense Object Detection

Hanjae Kim; Sunghun Joung; Ig Jae Kim; Kwanghoon Sohn

doi:10.1109/ICIP40778.2020.9190767

Shape-Adaptive Kernel Network for Dense Object Detection

Hanjae Kim, Sunghun Joung, Ig Jae Kim, Kwanghoon Sohn

Department of Electrical and Electronic Engineering

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

1 Citation (Scopus)

Abstract

Dense object detectors that are applied over a regular, dense grid have advanced and drawn their attention in recent days. Their fully convolutional nature greatly advances the computational efficiency of object detectors compared to the two-stage detectors. However, the lack of the ability to adjust shape variation on a regular grid is still limited. In this paper we introduce a new framework, shape-adaptive kernel network, to handle spatial manipulation of input data in convolutional kernel space. At the heart of out approach is to align the original kernel space recovering shape variation of each input feature on regular grid. To this end, we propose a shape-adaptive kernel sampler to adjust dynamic convolutional kernel conditioned on input. To increase the flexibility of geometric transformation, a cascade refinement module is designed, which first estimates the global transformation grid and then estimates local offset in convolutional kernel space. Our experiments demonstrate the effectiveness of the shape-adaptive kernel network for dense object detection on various benchmarks.

Original language	English
Title of host publication	2020 IEEE International Conference on Image Processing, ICIP 2020 - Proceedings
Publisher	IEEE Computer Society
Pages	2046-2050
Number of pages	5
ISBN (Electronic)	9781728163956
DOIs	https://doi.org/10.1109/ICIP40778.2020.9190767
Publication status	Published - 2020 Oct
Event	2020 IEEE International Conference on Image Processing, ICIP 2020 - Virtual, Abu Dhabi, United Arab Emirates Duration: 2020 Sept 25 → 2020 Sept 28

Publication series

Name	Proceedings - International Conference on Image Processing, ICIP
Volume	2020-October
ISSN (Print)	1522-4880

Conference

Conference	2020 IEEE International Conference on Image Processing, ICIP 2020
Country/Territory	United Arab Emirates
City	Virtual, Abu Dhabi
Period	20/9/25 → 20/9/28

Bibliographical note

Funding Information:
This research was supported by RD program for Advanced Integrated-intelligence for Identification (AIID) through the National Research Foundation of KOREA(NRF) funded by Ministry of Science and ICT (NRF-2018M3E3A1057289). (Corresponding author: Kwanghoon Sohn.)

Publisher Copyright:
© 2020 IEEE.

All Science Journal Classification (ASJC) codes

Software
Computer Vision and Pattern Recognition
Signal Processing

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10.1109/ICIP40778.2020.9190767

Cite this

Kim, H., Joung, S., Kim, I. J., & Sohn, K. (2020). Shape-Adaptive Kernel Network for Dense Object Detection. In 2020 IEEE International Conference on Image Processing, ICIP 2020 - Proceedings (pp. 2046-2050). [9190767] (Proceedings - International Conference on Image Processing, ICIP; Vol. 2020-October). IEEE Computer Society. https://doi.org/10.1109/ICIP40778.2020.9190767

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title = "Shape-Adaptive Kernel Network for Dense Object Detection",

abstract = "Dense object detectors that are applied over a regular, dense grid have advanced and drawn their attention in recent days. Their fully convolutional nature greatly advances the computational efficiency of object detectors compared to the two-stage detectors. However, the lack of the ability to adjust shape variation on a regular grid is still limited. In this paper we introduce a new framework, shape-adaptive kernel network, to handle spatial manipulation of input data in convolutional kernel space. At the heart of out approach is to align the original kernel space recovering shape variation of each input feature on regular grid. To this end, we propose a shape-adaptive kernel sampler to adjust dynamic convolutional kernel conditioned on input. To increase the flexibility of geometric transformation, a cascade refinement module is designed, which first estimates the global transformation grid and then estimates local offset in convolutional kernel space. Our experiments demonstrate the effectiveness of the shape-adaptive kernel network for dense object detection on various benchmarks.",

author = "Hanjae Kim and Sunghun Joung and Kim, {Ig Jae} and Kwanghoon Sohn",

note = "Funding Information: This research was supported by RD program for Advanced Integrated-intelligence for Identification (AIID) through the National Research Foundation of KOREA(NRF) funded by Ministry of Science and ICT (NRF-2018M3E3A1057289). (Corresponding author: Kwanghoon Sohn.) Publisher Copyright: {\textcopyright} 2020 IEEE.; 2020 IEEE International Conference on Image Processing, ICIP 2020 ; Conference date: 25-09-2020 Through 28-09-2020",

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doi = "10.1109/ICIP40778.2020.9190767",

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Kim, H, Joung, S, Kim, IJ & Sohn, K 2020, Shape-Adaptive Kernel Network for Dense Object Detection. in 2020 IEEE International Conference on Image Processing, ICIP 2020 - Proceedings., 9190767, Proceedings - International Conference on Image Processing, ICIP, vol. 2020-October, IEEE Computer Society, pp. 2046-2050, 2020 IEEE International Conference on Image Processing, ICIP 2020, Virtual, Abu Dhabi, United Arab Emirates, 20/9/25. https://doi.org/10.1109/ICIP40778.2020.9190767

Shape-Adaptive Kernel Network for Dense Object Detection. / Kim, Hanjae; Joung, Sunghun; Kim, Ig Jae et al.

2020 IEEE International Conference on Image Processing, ICIP 2020 - Proceedings. IEEE Computer Society, 2020. p. 2046-2050 9190767 (Proceedings - International Conference on Image Processing, ICIP; Vol. 2020-October).

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

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N1 - Funding Information: This research was supported by RD program for Advanced Integrated-intelligence for Identification (AIID) through the National Research Foundation of KOREA(NRF) funded by Ministry of Science and ICT (NRF-2018M3E3A1057289). (Corresponding author: Kwanghoon Sohn.) Publisher Copyright: © 2020 IEEE.

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N2 - Dense object detectors that are applied over a regular, dense grid have advanced and drawn their attention in recent days. Their fully convolutional nature greatly advances the computational efficiency of object detectors compared to the two-stage detectors. However, the lack of the ability to adjust shape variation on a regular grid is still limited. In this paper we introduce a new framework, shape-adaptive kernel network, to handle spatial manipulation of input data in convolutional kernel space. At the heart of out approach is to align the original kernel space recovering shape variation of each input feature on regular grid. To this end, we propose a shape-adaptive kernel sampler to adjust dynamic convolutional kernel conditioned on input. To increase the flexibility of geometric transformation, a cascade refinement module is designed, which first estimates the global transformation grid and then estimates local offset in convolutional kernel space. Our experiments demonstrate the effectiveness of the shape-adaptive kernel network for dense object detection on various benchmarks.

AB - Dense object detectors that are applied over a regular, dense grid have advanced and drawn their attention in recent days. Their fully convolutional nature greatly advances the computational efficiency of object detectors compared to the two-stage detectors. However, the lack of the ability to adjust shape variation on a regular grid is still limited. In this paper we introduce a new framework, shape-adaptive kernel network, to handle spatial manipulation of input data in convolutional kernel space. At the heart of out approach is to align the original kernel space recovering shape variation of each input feature on regular grid. To this end, we propose a shape-adaptive kernel sampler to adjust dynamic convolutional kernel conditioned on input. To increase the flexibility of geometric transformation, a cascade refinement module is designed, which first estimates the global transformation grid and then estimates local offset in convolutional kernel space. Our experiments demonstrate the effectiveness of the shape-adaptive kernel network for dense object detection on various benchmarks.

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Shape-Adaptive Kernel Network for Dense Object Detection

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