Browse > Article

Moving Object Trajectory based on Kohenen Network for Efficient Navigation of Mobile Robot  

Jin, Tae-Seok (Department of Mechatronics Engineering, DongSeo University)
Publication Information
Journal of information and communication convergence engineering / v.7, no.2, 2009 , pp. 119-124 More about this Journal
Abstract
In this paper, we propose a novel approach to estimating the real-time moving trajectory of an object is proposed in this paper. The object's position is obtained from the image data of a CCD camera, while a state estimator predicts the linear and angular velocities of the moving object. To overcome the uncertainties and noises residing in the input data, a Extended Kalman Filter(EKF) and neural networks are utilized cooperatively. Since the EKF needs to approximate a nonlinear system into a linear model in order to estimate the states, there still exist errors as well as uncertainties. To resolve this problem, in this approach the Kohonen networks, which have a high adaptability to the memory of the input-output relationship, are utilized for the nonlinear region. In addition to this, the Kohonen network, as a sort of neural network, can effectively adapt to the dynamic variations and become robust against noises. This approach is derived from the observation that the Kohonen network is a type of self-organized map and is spatially oriented, which makes it suitable for determining the trajectories of moving objects. The superiority of the proposed algorithm compared with the EKF is demonstrated through real experiments.
Keywords
Object Tracking; Detection; CCD camera; Image processing; Kohenen Network;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Shi, K. L. Chan, T. F. Wong, Y. K. Ho, S. L.: Speed Estimation of an Induction Motor Drive Using an Optimized Extended Kalman Filter. IEEE Transactions on Industrial Electronics, vol. 49, no. 1, pp.124-133, 2002   DOI   ScienceOn
2 Ramachandra, K. V.: A Kalman tracking filter for estimating position, velocity and acceleration from noisy measurements of a 3-D radar. Electro. Technology, vol. 33, pp. 66-76, 1989
3 DeCruyenaere, J. P. Hafez, H. M.: A comparison between Kalman filters and recurrent neural networks. Neural Networks, IJCNN., Int'l Joint Conf., vol. 4, pp.247-251, 1992
4 Sorensen, O.: Neural networks for non-linear control. Control Applications, Proceedings of the Third IEEE Conference on, pp. 161-166,1994   DOI
5 Roberts, J. M. Mills, D. J. Charnley, D. Harris, C. J.: Improved Kalman filter initialization using neuro- fuzzy estimation. Int'l. Conf. on Artificial Neural Networks, pp. 329-334,1995
6 Gonzalez, Rafael G. Woods, Richard E.: Digital Image Processing. Addison-Wesley, pp.47-51, 1993
7 Allen, P. K. Tmcenko, A. Yoshimi, B. Michelman, P.: Trajectory filtering and prediction for automated tracking and grasping of a moving object. IEEE International Conference on Robotics and Automation,pp. 1850-1856, 1992   DOI
8 Chen, Y.Y. Young, K. Y.: An intelligent radar predictor for high-speed moving-target tracking. TENCON '02. Proceedings. IEEE Region 10 Conference on Computers, Communications, Control and Power Engineering, vol. 3, pp. 1638-1641,2002
9 Ma, Y. Kosecka, J. Sastry, S.S.: Vision guided navigation for a nonholonomic mobile robot. IEEE Transaction on Robotics and Automation, vol. 15, no. 3, pp. 521-536,1999   DOI   ScienceOn
10 Sorenson, H. W.: Kalman filtering techniques. Advances in Control Systems Theory and Applications, vol. 3, pp. 219-292,1966
11 Ren C. Ruo and Kuo L. Su, "A Review of Highlevel Multisensor Fusion: Approaches and applications," Proc. Of IEEE Int'I. Conf. On Multisensor Fusion and Integration for Intelligent Systems, pp. 25-31, Taipei, Taiwan, 1999   DOI
12 Park, J. W. Park, J. H. Hur, H. R. Lee, J. M.: Kiyoharu Tagawa, and Hiromassa H.: Capturing a Moving Object using an Active Camera mounted on a Mobile Robot. Proc. of the 5th Int 'I Symp. on Artificial Life and Robotics, pp. 609-612, 2002
13 Russell, F. Berg.: Estimation and prediction for maneuvering target trajectories. IEEE Trans. on Automation Control, vol. AC-38, pp. 294-304, 1983.
14 Kim, Wan C. Hwang, Cheol H. Choi, Su H. Lee, Jang M.: Efficient Tracking of a Moving Object Using Optimal Representative Blocks. ICCAS 2002, International Conference on Control, Automation and Systems, pp. 264-269,2002
15 Kalman, R. E.: A new approach to linear filtering and prediction problems. Trans., ASME, J. Basic Eng, Series 82D, pp. 35-45, 1960
16 Partsinevelos, P. Stefanidis, A. Agouris, P.: Automated spatiotemporal scaling for video generalization. Proc. of Int'l. Conf on Image Processing, vol.1, pp. 177-180, 2001   DOI