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Boundary detection using unbiased sparseness-constrained colour-opponent response and superpixel contrast

Gang WANG, Yong-guang Chen, Min Gao, Suo-chang Yang, Fu-qiang Feng and Bernard De Baets (UGent)
(2020) IET IMAGE PROCESSING. 14(13). p.2976-2986
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Abstract
Boundaries play a crucial role in various image-based tasks, but many existing non-learning-based boundary detection methods underperform in recognising authentic boundaries from a complex background. In this study, the authors address this problem using the sparseness-constrained colour-opponent response and the superpixel contrast. First, building on the biologically inspired colour-opponency mechanism, the authors elaborate a method to compute the unbiased sparseness-constrained colour-opponent response. In this procedure, locations showing colour variations are enhanced, while the textural locations are preliminarily suppressed by the cue of local sparseness measure. Second, with the help of superpixel segmentation, the authors present an effective approach to obtain the superpixel contrast map. This approach helps to exploit the object shape information in suppressing textures. Consequently, the authors propose a non-learning-based method to detect boundaries in images, combining the unbiased sparseness-constrained colour-opponent response and the overall superpixel contrast map. Experiment results on widely adopted datasets manifest that the authors method outperforms most of the competing methods. In particular, compared with the state-of-the-art surround-modulation method, the proposed method obtains a comparable performance while consuming much less runtime.
Keywords
image texture, edge detection, image segmentation, image colour analysis, image resolution, biologically inspired colour-opponency mechanism, unbiased sparseness-constrained colour-opponent response, colour variations, local sparseness measure, superpixel contrast map, unbiased sparseness-constrained color-opponent response, image-based tasks, authentic boundaries, nonlearning-based boundary detection methods, EDGE-DETECTION, CONTOUR-DETECTION, ENHANCEMENT

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MLA
WANG, Gang, et al. “Boundary Detection Using Unbiased Sparseness-Constrained Colour-Opponent Response and Superpixel Contrast.” IET IMAGE PROCESSING, vol. 14, no. 13, 2020, pp. 2976–86, doi:10.1049/iet-ipr.2019.0949.
APA
WANG, G., Chen, Y., Gao, M., Yang, S., Feng, F., & De Baets, B. (2020). Boundary detection using unbiased sparseness-constrained colour-opponent response and superpixel contrast. IET IMAGE PROCESSING, 14(13), 2976–2986. https://doi.org/10.1049/iet-ipr.2019.0949
Chicago author-date
WANG, Gang, Yong-guang Chen, Min Gao, Suo-chang Yang, Fu-qiang Feng, and Bernard De Baets. 2020. “Boundary Detection Using Unbiased Sparseness-Constrained Colour-Opponent Response and Superpixel Contrast.” IET IMAGE PROCESSING 14 (13): 2976–86. https://doi.org/10.1049/iet-ipr.2019.0949.
Chicago author-date (all authors)
WANG, Gang, Yong-guang Chen, Min Gao, Suo-chang Yang, Fu-qiang Feng, and Bernard De Baets. 2020. “Boundary Detection Using Unbiased Sparseness-Constrained Colour-Opponent Response and Superpixel Contrast.” IET IMAGE PROCESSING 14 (13): 2976–2986. doi:10.1049/iet-ipr.2019.0949.
Vancouver
1.
WANG G, Chen Y, Gao M, Yang S, Feng F, De Baets B. Boundary detection using unbiased sparseness-constrained colour-opponent response and superpixel contrast. IET IMAGE PROCESSING. 2020;14(13):2976–86.
IEEE
[1]
G. WANG, Y. Chen, M. Gao, S. Yang, F. Feng, and B. De Baets, “Boundary detection using unbiased sparseness-constrained colour-opponent response and superpixel contrast,” IET IMAGE PROCESSING, vol. 14, no. 13, pp. 2976–2986, 2020.
@article{8681676,
  abstract     = {{Boundaries play a crucial role in various image-based tasks, but many existing non-learning-based boundary
detection methods underperform in recognising authentic boundaries from a complex background. In this study, the authors address this problem using the sparseness-constrained colour-opponent response and the superpixel contrast. First, building on the biologically inspired colour-opponency mechanism, the authors elaborate a method to compute the unbiased sparseness-constrained colour-opponent response. In this procedure, locations showing colour variations are enhanced, while the textural locations are preliminarily suppressed by the cue of local sparseness measure. Second, with the help of superpixel segmentation, the authors present an effective approach to obtain the superpixel contrast map. This approach helps to exploit the object shape information in suppressing textures. Consequently, the authors propose a non-learning-based method to detect boundaries in images, combining the unbiased sparseness-constrained colour-opponent response and the overall superpixel contrast map. Experiment results on widely adopted datasets manifest that the authors method outperforms most of the competing methods. In particular, compared with the state-of-the-art surround-modulation method, the proposed method obtains a comparable performance while consuming much less runtime.}},
  author       = {{WANG, Gang and Chen, Yong-guang and Gao, Min and Yang, Suo-chang and Feng, Fu-qiang and De Baets, Bernard}},
  issn         = {{1751-9659}},
  journal      = {{IET IMAGE PROCESSING}},
  keywords     = {{image texture,edge detection,image segmentation,image colour analysis,image resolution,biologically inspired colour-opponency mechanism,unbiased sparseness-constrained colour-opponent response,colour variations,local sparseness measure,superpixel contrast map,unbiased sparseness-constrained color-opponent response,image-based tasks,authentic boundaries,nonlearning-based boundary detection methods,EDGE-DETECTION,CONTOUR-DETECTION,ENHANCEMENT}},
  language     = {{eng}},
  number       = {{13}},
  pages        = {{2976--2986}},
  title        = {{Boundary detection using unbiased sparseness-constrained colour-opponent response and superpixel contrast}},
  url          = {{http://doi.org/10.1049/iet-ipr.2019.0949}},
  volume       = {{14}},
  year         = {{2020}},
}
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