Simulation Design of Robot Localization and Navigation System

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Research Article

Simulation Design of Robot Localization and Navigation System

Qiang Song and Lingxia Liu

ABSTRACT

In order to effectively solve the problems of robot navigation, positioning and accumulative error correction, this study presents a kind of improved robot localization and navigation algorithm. Robot navigation is an important research field of robotics, it is the key of mobile robot to completely realize the independence of technology and accurate localization is the important problem which must be solved at first to complete navigation tasks. The experimental results show that the error of the improved method is smaller; therefore the formulation of robotic strategy route is more convenient and reliable.

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How to cite this article:

Qiang Song and Lingxia Liu, 2013. Simulation Design of Robot Localization and Navigation System. Journal of Applied Sciences, 13: 2213-2216.

DOI: 10.3923/jas.2013.2213.2216

URL: https://scialert.net/abstract/?doi=jas.2013.2213.2216

REFERENCES

Khatib, O., 1986. Real-time obstacle avoidance for manipulators and mobile robots. Int. J. Robot. Res., 5: 90-98.
CrossRef  |  Direct Link  |

Lei, B. and W. Li, 2007. A fuzzy behaviours fusion algorithm for mobile robot real-time path planning in unknown environment. Proceedings of the IEEE International Conference on Integration Technology, March 20-24, 2007, Shenzhen, pp: 173-177.

Lei, B., 2006. The research of multi mobile robot path planning in dynamic environment. Wuhan University of Technology.

Li, S., 1999. Fuzzy Control, Nerve Control and Intelligent Control Theory. Harbin Industrial University Press, Harbin.

Neda, Z., 2000. The sound of many bands clapping. Nature, 403: 849-850.

Olfati-Saber, R. and R.M. Murray, 2004. Consensus problems in networks of agents with switching topology and time-delays. IEEE Trans. Autom. Control, 49: 1520-1533.
CrossRef  |  Direct Link  |

Olfati-Saber, R., J.A. Fax and R.M. Murray, 2007. Consensus and cooperation in networked multi-agent systems. Proc. IEEE, 95: 215-233.
CrossRef  |  Direct Link  |

Ren, W., R.W. Beard and E.M. Atkins, 2005. A survey of consensus problems in multi-agent coordination. Proceedings of the American Control Conference, June 8-10, 2005, Baltimore, MD., pp: 1859-1864.

Rui, Y., X. Jiang and X. Liu, 2007. Research on AS-R mobile robot path planning based on ant colony algorithm. Mech. Electrical Eng., 35: 73-75.

Sun, Z., 2007. Intelligent Control Theory and Technology. Tsinghua University Press, Beijing.

Yi, H. and B. Zhang, 2010. The graphical method of the path planning problem based on the topology. Robot, 12: 20-24.

Yung, N.H.C. and Y. Cang, 1999. An intelligent mobile vehicle navigator based on fuzzy logic and reinforcement learning. IEEE Trans Syst. Man Cybernetics Part B: Cybernetic, 29: 314-320.
CrossRef  |