结合ORB特征和色彩模型的视觉跟踪算法<sup>*</sup>

doi:10.16451/j.cnki.issn1003-6059.201501012

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摘要

为解决CAMShift算法在色彩相似背景下跟踪失效的问题，提出一种结合ORB特征点和目标色彩模型的视觉跟踪算法.运用ORB特征匹配检测目标的初始位置，提出自适应的色彩分割阈值算法以提高目标的色彩模型精度，并在跟踪过程中通过ORB特征点包含信息对搜索窗口进行修正.然后对目标的丢失增加判断方法，并且建立迭代更新的特征模板用于重新定位丢失目标.实验结果证明，与CAMShift算法和基于特征提取的同类改进算法相比，该算法在目标快速运动场景下的跟踪具有较好的鲁棒性，能够对错误的跟踪结果进行判断并修正，并在计算效率上得到较大的提升.

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	钟华民
	王伟
	张慧华

关键词 ：视觉跟踪, ORB特征, CAMShift跟踪, 特征模板

Abstract：

To solve the problem of invalid tracking by traditional CAMShift owing to the background with similar colors, a dynamic visual tracking algorithm is proposed combining ORB feature and color model of the object. The ORB feature is applied to extract the initial position of the object, and a adaptive color-threshold segmentation algorithm is proposed to improve the accuracy of color model for the object. Besides, the information of ORB feature points is used to revise the search window in the tracking procedure, which improves the tracking accuracy and robustness. Furthermore, a new method is proposed to estimate whether the moving object is missing, and an iteratively updated feature template is built to relocate the disappeared target. The experiments on video sequence images demonstrate that the proposed algorithm outperforms CAMShift and other improved algorithms based on feature extraction. When the target moves at high speed, the proposed algorithm has good robustness and can find out the wrong tracking result and correct it. Moreover, the computational efficiency rises greatly to ensure the real-time performance.

Key words： Visual Tracking ORB Feature CAMShift Tracking Feature Template

收稿日期: 2013-08-12

ZTFLH:

TP 391.4

基金资助:

国家自然科学基金项目(No.61174051)、高等学校博士学科点新教师基金项目(No.20113514120007)资助

作者简介: 钟华民，男，1990年生，硕士研究生，主要研究方向为目标跟踪、图像处理.E-mail:ninjas@sjtu.edu.cn.王伟(通讯作者)，女，1961年生，博士，副教授，主要研究方向为模式识别、图像处理.E-mail:wwang@sjtu.edu.cn.张慧华，女，1992年生，本科生.

引用本文:

钟华民，王伟，张慧华. 结合ORB特征和色彩模型的视觉跟踪算法^*[J]. 模式识别与人工智能, 2015, 28(1): 90-96. ZHONG Hua-Min, WANG Wei, ZHANG Hui-Hua. Visual Tracking Algorithm Combining ORB Feature and Color Model. , 2015, 28(1): 90-96.

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http://manu46.magtech.com.cn/Jweb_prai/CN/10.16451/j.cnki.issn1003-6059.201501012 或 http://manu46.magtech.com.cn/Jweb_prai/CN/Y2015/V28/I1/90

[1] Ohlmeyer E J, Menon P K. Applications of the Particle Filter for Multi-object Tracking and Classification // Proc of the American Control Conference. Washington, USA, 2013: 6181-6186
[2] Niknejad H T, Takeuchi A, Mita S, et al. On-Road Multivehicle Tracking Using Deformable Object Model and Particle Filter with Improved Likelihood Estimation. IEEE Trans on Intelligent Transportation Systems, 2012, 13(2): 748-758
[3] Quast K, Kaup A. Shape Adaptive Mean Shift Object Tracking Using Gaussian Mixture Models // Adami N, Cavallaro A, Leonardi R, et al. Analysis, Retrieval and Delivery of Multimedia Content. New York, USA: Springer-Verlag, 2013: 107-122
[4] Beyan C, Temizel A. Adaptive Mean-Shift for Automated Multi Object Tracking. IET Computer Vision, 2012, 6(1): 1-12
[5] Babenko B, Yang M H, Belongie S. Visual Tracking with Online Multiple Instance Learning // Proc of the IEEE Conference on Computer Vision and Pattern Recognition. Miami, USA, 2009: 983-990
[6] Kalal Z, Mikolajczyk K, Matas J. Tracking-Learning-Detection. IEEE Trans on Pattern Analysis and Machine Intelligence, 2012, 34(7): 1409-1422
[7] Zhang K H, Zhang L, Yang M H. Real-Time Compressive Tracking // Proc of the 12th European Conference on Computer Vision. Flo-rence, Italy, 2012, III: 864-877
[8] Bradski G R, Clara S. Computer Vision Face Tracking for Use in a Perceptual User Interface. Intel Technology Journal, 1998, Q2: 1-15
[9] Exner D, Bruns E, Kurz D, et al. Fast and Robust CAMShift Tracking // Proc of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops. San Francisco, USA, 2010: 9-16
[10] Sun K, Liu S R. Combined Algorithm with modified Camshift and Kalman Filter for Multi-object Tracking. Information and Control, 2009, 38(1): 9-14 (in Chinese)
(孙凯,刘士荣.多目标跟踪的改进Camshift/卡尔曼滤波组合算法.信息与控制, 2009, 38(1): 9-14
[11] Qiu X N, Liu S R, Liu F. An Adaptive Kernel-Based Target Tracking Method Based on Multiple Features Fusion. IEEJ Transactions on Electrical and Electronic Engineering, 2012, 7(1): 91-97
[12] Lowe D G. Distinctive Image Features from Scale-Invariant Keypoints. International Journal of Computer Vision, 2004, 60(2): 91-110
[13] Zhao Y J, Pei H L, Zhou H B. Improved Vision-Based Algorithm for Unmanned Aerial Vehicles Autonomous Landing. Journal of Multimedia, 2013, 8(2): 90-97
[14] Bay H, Ess A, Tuytelaars T, et al. Speeded-Up Robust Features (SURF). Computer Vision and Image Understanding, 2008, 110(3): 346-359
[15] Rublee E, Rabaud V, Konolige K, et al. ORB: An Efficient Alternative to SIFT or SURF // Proc of the IEEE International Conference on Computer Vision. Barcelona, Spain, 2011: 2564-2571
[16] Rosten E, Porter R, Drummond T. Faster and Better: A Machine Learning Approach to Corner Detection. IEEE Trans on Pattern Analysis and Machine Intelligence, 2010, 32(1): 105-119
[17] Calonder M , Lepetit V, Strecha C, et al. BRIEF: Binary Robust Independent Elementary Features // Proc of the 11th European Conference on Computer Vision. Heraklion, Greece, 2010, IV: 778-792
[18] Fischler M A, Bolles R C. Random Sample Consensus: A Paradigm for Model Fitting with Applications to Image Analysis and Automated Cartography. Communications of the ACM, 1981, 24(6): 381-395