In this paper, we proposed a robust detecting and tracking method for mobile robot by using the Updating Hue and Saturation-histogram method (UHS-his), we also proposed standard quantitatively evaluation parameters for a general detecting and tracking method. Hue and Saturation are elements of HSV color space. The UHS-his method can be used indoors and outdoors as the robust detecting and tracking method of the person following robot. To use the UHS-his method as the robust detecting and tracking method for a person following robot, the method is also required to be stable for tracking and adaptive for fast moving. Therefore, the standard quantitative evaluation parameters of stable and adaptive tracking are necessary. There are no standard evaluation methods for detecting and tracking by a color camera. We proposed two parameters for the standard quantitative evaluation of detecting and tracking by an image processing. One is "Tracking Error" to evaluate the stability of the general detecting and tracking method. The other is "Limit Speed" to evaluate the adaptivity of the method. The UHS-his method is compared with the existing tracking method by using the proposed standard quantitative evaluation parameters. The results of evaluations show that Tracking Error of the UHS-his method is up to 1/5 of the existing tracking method and Limit Speed of the UHS-his method is up to 10 times fast of the existing tracking method. The experimental results suggest that the UHS-his method is stable for tracking and adaptive for fast moving.
[1]
Hiroshi Mizoguchi,et al.
Quantitative evaluation methods of robust detecting and tracking with color camera under illumination changes
,
2010,
2010 IEEE International Conference on Systems, Man and Cybernetics.
[3]
Dorin Comaniciu,et al.
Real-time tracking of non-rigid objects using mean shift
,
2000,
Proceedings IEEE Conference on Computer Vision and Pattern Recognition. CVPR 2000 (Cat. No.PR00662).
[4]
Jin Hyung Kim,et al.
Texture-Based Approach for Text Detection in Images Using Support Vector Machines and Continuously Adaptive Mean Shift Algorithm
,
2003,
IEEE Trans. Pattern Anal. Mach. Intell..
[5]
K. Itoh,et al.
Development of a Person Following Mobile Robot in Complicated Background by Using Distance and Color Information
,
2006,
IECON 2006 - 32nd Annual Conference on IEEE Industrial Electronics.
[6]
O. Akihisa,et al.
Trajectory control for groups of humans by deploying a team of mobile robots
,
2005,
ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005..