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Crowd Density Estimation Based on Local Binary Pattern Co-Occurrence Matrix | IEEE Conference Publication | IEEE Xplore
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Crowd Density Estimation Based on Local Binary Pattern Co-Occurrence Matrix

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Zhe Wang; Hong Liu; Yueliang Qian; Tao Xu
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Abstract:

Crowd density estimation is important for intelligent video surveillance. Many methods based on texture features have been proposed to solve this problem. Most of the exi...Show More

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Abstract:

Crowd density estimation is important for intelligent video surveillance. Many methods based on texture features have been proposed to solve this problem. Most of the existing algorithms only estimate crowd density on the whole image while ignore crowd density in local region. In this paper, we propose a novel texture descriptor based on Local Binary Pattern (LBP) Co-occurrence Matrix (LBPCM) for crowd density estimation. LBPCM is constructed from several overlapping cells in an image block, which is going to be classified into different crowd density levels. LBPCM describes both the statistical properties and the spatial information of LBP and thus makes full use of LBP for local texture features. Additionally, we both extract LBPCM on gray and gradient images to improve the performance of crowd density estimation. Finally, the sliding window technique is used to detect the potential crowded area. The experimental results show the proposed method has better performance than other texture based crowd density estimation methods.
Published in: 2012 IEEE International Conference on Multimedia and Expo Workshops
Date of Conference: 09-13 July 2012
Date Added to IEEE Xplore: 16 August 2012
ISBN Information:
DOI: 10.1109/ICMEW.2012.71
Conference Location: Melbourne, VIC, Australia
Citations are not available for this document.
Contents

I. INTRODUCTION

With the growth of population and the worldwide urbanization, crowd phenomenon has become more and more frequent. Crowd density estimation is an important issue in intelligent video surveillance, which becomes an important research approach of computer vision in recent years. Polus et al.[1] first introduce the level of services for a pedestrian flow, which is widely adopted. Based on this idea, crowd density can be defined as: free flow, restricted flow, dense flow and jammed flow. In real world surveillance application, different crowd density levels maybe need different attention.

Cites in Papers - |

Cites in Papers - IEEE (14)

Select All
1.
Songchenchen Gong, El-Bay Bourennane, Xuecan Yang, "MFNet: Multi-feature convolutional neural network for high-density crowd counting", 2020 11th IEEE Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON), pp.0384-0390, 2020.
Show Article
Google Scholar
2.
Hairong Dong, Min Zhou, Qianling Wang, Xiaoxia Yang, Fei-Yue Wang, "State-of-the-Art Pedestrian and Evacuation Dynamics", IEEE Transactions on Intelligent Transportation Systems, vol.21, no.5, pp.1849-1866, 2020.
Show Article
Google Scholar
3.
Neeta Anil Nemade, V. V. Gohokar, "Feature based approach for Efficient Crowd Density Estimation", 2019 International Conference on Innovative Trends and Advances in Engineering and Technology (ICITAET), pp.130-134, 2019.
Show Article
Google Scholar
4.
Mohamed Amine Marnissi, Hajer Fradi, Jean-Luc Dugelay, "On the Discriminative Power of Learned vs. Hand-Crafted Features for Crowd Density Analysis", 2019 International Joint Conference on Neural Networks (IJCNN), pp.1-8, 2019.
Show Article
Google Scholar
5.
Huicheng Zheng, Zijian Lin, Jiepeng Cen, Zeyu Wu, Yadan Zhao, "Cross-Line Pedestrian Counting Based on Spatially-Consistent Two-Stage Local Crowd Density Estimation and Accumulation", IEEE Transactions on Circuits and Systems for Video Technology, vol.29, no.3, pp.787-799, 2019.
Show Article
Google Scholar
6.
Xiaoyu Liu, Denning Campbell, Zhenyu Guo, "Single image density map estimation based on multi-column CNN and boosting", 2017 IEEE Global Conference on Signal and Information Processing (GlobalSIP), pp.1393-1396, 2017.
Show Article
Google Scholar
7.
Abhilash K. Pai, A. K. Karunakar, U. Raghavendra, "A Novel Crowd Density Estimation Technique using Local Binary Pattern and Gabor Features", 2017 14th IEEE International Conference on Advanced Video and Signal Based Surveillance (AVSS), pp.1-6, 2017.
Show Article
Google Scholar
8.
Neeta A. Nemade, V. V. Gohokar, "A survey of video datasets for crowd density estimation", 2016 International Conference on Global Trends in Signal Processing, Information Computing and Communication (ICGTSPICC), pp.389-395, 2016.
Show Article
Google Scholar
9.
Muhammad Saqib, Sultan Daud Khan, Michael Blumenstein, "Texture-based feature mining for crowd density estimation: A study", 2016 International Conference on Image and Vision Computing New Zealand (IVCNZ), pp.1-6, 2016.
Show Article
Google Scholar
10.
Sishi Liu, Kefan Xie, "Research on Crowd Gathering Risk Identification Based on Cell Sensor and Face Recognition", 2015 International Conference on Industrial Informatics - Computing Technology, Intelligent Technology, Industrial Information Integration, pp.201-204, 2015.
Show Article
Google Scholar
11.
Hajer Fradi, Jean-Luc Dugelay, "Crowd density map estimation based on feature tracks", 2013 IEEE 15th International Workshop on Multimedia Signal Processing (MMSP), pp.040-045, 2013.
Show Article
Google Scholar
12.
Hajer Fradi, Jean-Luc Dugelay, "A new multiclass SVM algorithm and its application to crowd density analysis using LBP features", 2013 IEEE International Conference on Image Processing, pp.4554-4558, 2013.
Show Article
Google Scholar
13.
Zeyu Wu, Huicheng Zheng, Jing Wang, "Pedestrian Counting Based on Crowd Density Estimation and Lucas-Kanade Optical Flow", 2013 Seventh International Conference on Image and Graphics, pp.471-476, 2013.
Show Article
Google Scholar
14.
Hajer Fradi, Xuran Zhao, Jean-Luc Dugelay, "Crowd density analysis using subspace learning on local binary pattern", 2013 IEEE International Conference on Multimedia and Expo Workshops (ICMEW), pp.1-6, 2013.
Show Article
Google Scholar

Cites in Papers - Other Publishers (16)

1.
Yi Zhang, Wei Song, Mingyue Shao, Xiangchun Liu, "MRSNet: Multi-Resolution Scale Feature Fusion-Based Universal Density Counting Network", Sensors, vol.24, no.18, pp.5974, 2024.
CrossRef Google Scholar
2.
Dongyao Jia, Chuanwang Zhang, Bing Zhang, "Crowd density classification method based on pixels and texture features", Machine Vision and Applications, vol.32, no.2, 2021.
CrossRef Google Scholar
3.
Tao Zhang, Mingming Zhang, Bin Yang, Yan Zhao, Artificial Intelligence and Security, vol.1252, pp.699, 2020.
CrossRef
4.
Santosh Kumar Tripathy, Rajeev Srivastava, "A real-time two-input stream multi-column multi-stage convolution neural network (TIS-MCMS-CNN) for efficient crowd congestion-level analysis", Multimedia Systems, vol.26, no.5, pp.585, 2020.
CrossRef Google Scholar
5.
Fujian Feng, Shuang Liu, Yongzheng Pan, Xin He, Jiayin Wei, Lin Wang, "Crowd density estimation method based on floor area", Journal of Physics: Conference Series, vol.1651, pp.012060, 2020.
CrossRef Google Scholar
6.
Gong Songchenchen, El-Bay Bourennane, Modelling and Implementation of Complex Systems, vol.64, pp.219, 2019.
CrossRef
7.
Neeta A. Nemade, V. V. Gohokar, Information and Communication Technology, vol.625, pp.101, 2018.
CrossRef
8.
Merve AYYUCE KIZRAK, Bulent BOLAT, "Derin O?renme ile Kalabal?k Analizi Uzerine Detayl? Bir Arast?rma", Bilisim Teknolojileri Dergisi, vol.11, no.3, pp.263, 2018.
CrossRef Google Scholar
9.
C. Nagananthini, B. Yogameena, Proceedings of International Conference on Computer Vision and Image Processing, vol.459, pp.487, 2017.
CrossRef
10.
Jiaojiao Yuan, Hong Bao, Haitao Lou, Cheng Xu, "A Method for People Counting Using Low-level Features Based on SVR with PSO Optimization", Journal of Communications, pp.617, 2017.
CrossRef Google Scholar
11.
Junjie Ma, Yaping Dai, Kaoru Hirota, "A Survey of Video-Based Crowd Anomaly Detection in Dense Scenes", Journal of Advanced Computational Intelligence and Intelligent Informatics, vol.21, no.2, pp.235, 2017.
CrossRef Google Scholar
12.
Rima Chaker, Zaher Al Aghbari, Imran N. Junejo, "Social network model for crowd anomaly detection and localization", Pattern Recognition, vol.61, pp.266, 2017.
CrossRef Google Scholar
13.
Shao-Yun Pan, Jie Guo, Zheng Huang, "An Improved Convolutional Neural Network on Crowd Density Estimation", ITM Web of Conferences, vol.7, pp.05009, 2016.
CrossRef Google Scholar
14.
Hajer Fradi, Jean-Luc Dugelay, "Towards crowd density-aware video surveillance applications", Information Fusion, vol.24, pp.3, 2015.
CrossRef Google Scholar
15.
Dimitrios Chrysostomou, Georgios Ch. Sirakoulis, Antonios Gasteratos, "A bio-inspired multi-camera system for dynamic crowd analysis", Pattern Recognition Letters, vol.44, pp.141, 2014.
CrossRef Google Scholar
16.
Elena Gonzalez, Antonio Fernandez, Francesco Bianconi, "General Framework for Rotation Invariant Texture Classification Through Co-occurrence of Patterns", Journal of Mathematical Imaging and Vision, vol.50, no.3, pp.300, 2014.
CrossRef Google Scholar
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