中文

Journal of Shanghai University >

2019 , Vol. 25 >Issue 5: 712 - 721

DOI: https://doi.org/10.12066/j.issn.1007-2861.1988

Research Paper

Fast pedestrian detection algorithm based on BING-casDPM

Expand
  • School of Mechatronic Engineering and Automation,Shanghai University, Shanghai 200444, China

Received date: 2017-08-17

  Online published: 2019-10-31

Fold

Abstract

Pedestrian detection is a hot research field in computer vision technology, and it has important applications in automobile assisted driving and video surveillance. In view of the fact that traditional deformable part model (DPM) uses a sliding window for pedestrian detection and is time-consuming in the background area, a fast pedestrian detection algorithm based on BING-casDPM is proposed. Firstly, a cascaded support vector machine (SVM) classifier is trained based on the binarized normed gradients (BING) feature. The candidate areas containing all kinds of objects as seen on the test image are quickly calibrated through the classifier. Then, the detected box is extracted according to the characteristics of candidate windows, and finally pedestrians are accurately detected from the detected box using casDPM model with the result being returned to the original image. The experiment results show that the algorithm proposed in this paper is about 16 times faster than the classical DPM model, and about 40% faster than the casDPM model in terms of the speed of detection when detection rate remains stable.

Key words: pedestrian detection; binarized normed gradient(BING); detected box; star-cascade deformable part model (casDPM)

Cite this article

Yanwei HU, Meihua XU, Aiying GUO . Fast pedestrian detection algorithm based on BING-casDPM[J]. Journal of Shanghai University, 2019 , 25(5) : 712 -721 . DOI: 10.12066/j.issn.1007-2861.1988

References

[1] 许言午, 曹先彬, 乔红 . 行人检测系统研究新进展及关键技术展望[J]. 电子学报, 2008,36(5):368-376.
[2] Geronimo D, Lopez A, Sappa A , et al. Survey of pedestrian detection for advanced driver assistance systems[J]. IEEE Trans on Pattern Analysis and Machine Intelligence, 2010,32(7):1239-1258.
[3] Aggarwal J, Ryoo M . Human activity analysis: a review[J]. ACM Computing Surveys, 2011,43(3):1-47.
[4] 杨恒, 王超, 姜文涛 , 等. 基于随机背景建模的目标检测算法[J]. 应用光学, 2015,36(6):880-887.
[5] 胡强 . 行人检测技术研究与实现[D]. 辽宁锦州: 辽宁工业大学, 2016: 9-10.
[6] Viola P, Jones M . Rapid object detection using a boosted cascade of simple features[C]// Proceedings of the 2001 IEEE Computer Society Conference on Computer Vision and Pattern Recognition. 2001.
[7] Viola P, Jones M J . Robust real-time face detection[J]. International Journal of Computer Vision, 2004,57(2):137-154.
[8] Dalal N, Triggs B . Histograms of oriented gradients for human detection[C]// 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05). 2005: 886-893.
[9] Zhu Q, Yeh M C, Cheng K T , et al. Fast human detection using a cascade of histograms of oriented gradients[C]// Proc IEEE CVPR. 2006: 1491-1498.
[10] Wojek C, Schiele B . A performance evaluation of single and multi-feature peopledetection[C]// Proc DAGM. 2008.
[11] Felzenszwalb P, McAllester D, Ramanan D . A discriminatively trained, multiscale, deformable part model[C]// IEEE Conference on Computer Vision and Pattern Recognition. 2008: 1-8.
[12] Felzenszwalb P, Girshick R, McAllester D , et al. Cascade object detection with deformable part models[C]// Computer Vision and Pattern Recognition. 2010: 2241-2248.
[13] Dubout C, Fleuret F . Exact acceleration of linear object detectors[M]. Berlin: Springer Heidelberg, 2012: 301-311.
[14] Cheng M M, Zhang Z M, Lin W Y , et al. BING: binarized normed gradients for objectness estimation at 300 fps [C]// IEEE Conference on Computer Vision and Pattern Recognition. 2014: 3286-3293.
[15] Alexe B, Deselaers T, Ferrari V . Measuring the objectness of image windows[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2012,34(11):2189-2202.
[16] Hare S, Saffari A, Torr P H S . Efficient online structured output learning for keypoint-based object tracking[C]// IEEE Conference on Computer Vision and Pattern Recognition. 2012: 1894-1901.
[17] Zheng S, Sturgess P, Torr P H S . Approximate structured output learning for constrained local models with application to real-time facial feature detection and tracking on low-power devices[C]// IEEE International Conference and Workshops on Automatic Face and Gesture Recognition. 2013: 1-8.
[18] Yan J J, Lei Z, Wen L Y , et al. The fastest deformable part model for object detec-tion[C]// Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2014: 2497-2504.
[19] 韦皓瀚, 曹国, 金挺 , 等. 改进星型级联可形变部件模型的行人检测[J]. 中国图象图形学报, 2017,22(2):170-178.
Options
Outlines

/