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CN 34-1054/N

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Features selection for video smoke detection using random forest

  • 1.

    Department of Automation, University of Science and Technology of China, Hefei 230027, China

  • 2.

    State Key Laboratory of Fire Science, University of Science and Technology of China, Hefei 230027, China

Funds:  Supported in part by National Natural Science Foundation of China (61422307, 61673361).
Cite this:
https://doi.org/10.3969/j.issn.0253-2778.2017.08.004
More Information
  • Author Bio:

    WEN Zebo, male, born in 1992, Master candidate. Research field: Control theory. E-mail: dilong@mail.ustc.edu.cn

  • Corresponding author: KANG Yu
  • Received Date: 09 October 2016
  • Rev Recd Date: 07 November 2016
  • Publish Date: 31 August 2017
    Abstract

  • Abstract

    Using the random forest algorithm, a video smoke detection method with features selection was proposed. The method first extracted four original smoke image features including color features in RGB space, wavelet high frequency sub-images, multi-scale local max saturation, and multi-scale dark channel to input the random forest(RF). Then it utilized haze image formation model to make the synthetic smoke images from non-smoke images and partitions these images into blocks as the samples for RF. Thirdly, it trained RF to get the selected features from the original features and used support vector machine(SVM) to get a classifier which recognizes the smoke blocks and the non-smoke blocks. And then the smoke region candidate can be extracted from video images by the classifier. Finally, the method analyzed the detected smoke region with the features of the growth rate and the perimeter to area ratio to make the final decision on video smoke detection. The experimental results show that the proposed method can detect the smoke timely and give a fire alarm with a lower false-alarm rate.

    Abstract

    Using the random forest algorithm, a video smoke detection method with features selection was proposed. The method first extracted four original smoke image features including color features in RGB space, wavelet high frequency sub-images, multi-scale local max saturation, and multi-scale dark channel to input the random forest(RF). Then it utilized haze image formation model to make the synthetic smoke images from non-smoke images and partitions these images into blocks as the samples for RF. Thirdly, it trained RF to get the selected features from the original features and used support vector machine(SVM) to get a classifier which recognizes the smoke blocks and the non-smoke blocks. And then the smoke region candidate can be extracted from video images by the classifier. Finally, the method analyzed the detected smoke region with the features of the growth rate and the perimeter to area ratio to make the final decision on video smoke detection. The experimental results show that the proposed method can detect the smoke timely and give a fire alarm with a lower false-alarm rate.
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    • References(12)
  • [1]
    CHEN T H, YIN Y H, HUANG S F, et al. The smoke detection for early fire-alarming system base on video processing[C]// Proceedings of the International Conference on Intelligent Information Hiding and Multimedia. Pasadena, USA: IEEE Computer Society, 2006: 427-430.
    [2]
    TREYIN B U, DEDEOGˇLU Y, ETIN A E. Wavelet based real-time smoke detection in video[C]// European Signal Processing Conference. Antalya, Turkey: IEEE Press, 2005: 1-4.
    [3]
    ALEJANDRO O B, LEONARDO M G, GABRIEL S P, et al. Improvement of a video smoke detection based on accumulative motion orientation model[C]// Electronics, Robotics and Automotive Mechanics Conference. Cuernavaca, Morelos, Mexico: IEEE Press, 2011: 126-130.
    [4]
    YUAN F. A fast accumulative motion orientation model based on integral image for video smoke detection[J]. Pattern Recognition Letters, 2008, 29(7): 925-932.
    [5]
    XU Z G, XU J L. Automatic fire smoke detection based on image visual features[C]// International Conference on Computational Intelligence and Security Workshops. Harbin, China: IEEE Press, 2007: 316-319.
    [6]
    YANG J, CHEN F, ZHANG W D. Visual-based smoke detection using support vector machine[C]//Proceedings of the 4th International Conference on Natural Computation. Jinan, China: IEEE Press, 2008,4: 301-305.
    [7]
    HORNG W B, PENG J W. Image-based fire detection using neural networks[C]// Proceedings of the 9th Joint International Conference on Information Sciences. Kaohsiung, Taiwan, China: Atlantis Press, 2006, [2016-10-01]http://xueshu.baidu.com/s?wd=paperuri%3A%2890d519bf26ad093adab4b2c913f00ada%29&filter=sc_long_sign&tn=SE_xueshusource_2kduw22v&sc_vurl=http%3A%2F%2Fdx.doi.org%2F10.2991%2Fjcis.2006.301&ie=utf-8&sc_us=1312074543806948226.
    [8]
    TUNG T X, KIM J M. An effective four-stage smoke-detection algorithm using video images for early fire-alarm systems[J]. Fire Safety Journal, 2011, 46(5): 276-282.
    [9]
    HE K M, SUN J, TANG X O. Single image haze removal using dark channel prior[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2011, 33(12): 2341-2353.
    [10]
    TANG K, YANG J, WANG J. Investigating haze-relevant features in a learning framework for image dehazing[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. Columbus, USA: IEEE Press, 2014: 2995-3002.
    [11]
    CRIMINISI A, SHOTTON J, KONUKOGLU E. Decision forests: A unified framework for classification, regression, density estimation, manifold learning and semi-supervised learning[J]. Foundations and Trendsin Computer Graphics and Vision, 2012, 7(2-3): 81-227.
    [12]
    GENUER R, POGGI J M, TULEAU-MALOT C. Variable selection using random forests[J]. Pattern Recognition Letters, 2010, 31(14): 2225-2236.
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    [1]
    CHEN T H, YIN Y H, HUANG S F, et al. The smoke detection for early fire-alarming system base on video processing[C]// Proceedings of the International Conference on Intelligent Information Hiding and Multimedia. Pasadena, USA: IEEE Computer Society, 2006: 427-430.
    [2]
    TREYIN B U, DEDEOGˇLU Y, ETIN A E. Wavelet based real-time smoke detection in video[C]// European Signal Processing Conference. Antalya, Turkey: IEEE Press, 2005: 1-4.
    [3]
    ALEJANDRO O B, LEONARDO M G, GABRIEL S P, et al. Improvement of a video smoke detection based on accumulative motion orientation model[C]// Electronics, Robotics and Automotive Mechanics Conference. Cuernavaca, Morelos, Mexico: IEEE Press, 2011: 126-130.
    [4]
    YUAN F. A fast accumulative motion orientation model based on integral image for video smoke detection[J]. Pattern Recognition Letters, 2008, 29(7): 925-932.
    [5]
    XU Z G, XU J L. Automatic fire smoke detection based on image visual features[C]// International Conference on Computational Intelligence and Security Workshops. Harbin, China: IEEE Press, 2007: 316-319.
    [6]
    YANG J, CHEN F, ZHANG W D. Visual-based smoke detection using support vector machine[C]//Proceedings of the 4th International Conference on Natural Computation. Jinan, China: IEEE Press, 2008,4: 301-305.
    [7]
    HORNG W B, PENG J W. Image-based fire detection using neural networks[C]// Proceedings of the 9th Joint International Conference on Information Sciences. Kaohsiung, Taiwan, China: Atlantis Press, 2006, [2016-10-01]http://xueshu.baidu.com/s?wd=paperuri%3A%2890d519bf26ad093adab4b2c913f00ada%29&filter=sc_long_sign&tn=SE_xueshusource_2kduw22v&sc_vurl=http%3A%2F%2Fdx.doi.org%2F10.2991%2Fjcis.2006.301&ie=utf-8&sc_us=1312074543806948226.
    [8]
    TUNG T X, KIM J M. An effective four-stage smoke-detection algorithm using video images for early fire-alarm systems[J]. Fire Safety Journal, 2011, 46(5): 276-282.
    [9]
    HE K M, SUN J, TANG X O. Single image haze removal using dark channel prior[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2011, 33(12): 2341-2353.
    [10]
    TANG K, YANG J, WANG J. Investigating haze-relevant features in a learning framework for image dehazing[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. Columbus, USA: IEEE Press, 2014: 2995-3002.
    [11]
    CRIMINISI A, SHOTTON J, KONUKOGLU E. Decision forests: A unified framework for classification, regression, density estimation, manifold learning and semi-supervised learning[J]. Foundations and Trendsin Computer Graphics and Vision, 2012, 7(2-3): 81-227.
    [12]
    GENUER R, POGGI J M, TULEAU-MALOT C. Variable selection using random forests[J]. Pattern Recognition Letters, 2010, 31(14): 2225-2236.
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