The Simulation of Lane Based on Magnetic Markers Guidance in Laboratory

Wei Wang

doi:10.4028/www.scientific.net/AMR.823.370

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 823The Simulation of Lane Based on Magnetic Markers...

The Simulation of Lane Based on Magnetic Markers Guidance in Laboratory

Abstract:

It is a high expense that the experiment of the testing vehicle based on magnetic markers carrying on outdoors. The distribution and movement of magnetic markers were simulated by direct-current electromagnet, using single chip microcomputer and power amplifier to control direct-current electromagnet. It cuts down the expense of experiment. This dissertation is focus on mainly the design of lane simulator. In the lane simulator, every 0.5m arranged a direct-current electromagnet. When the speed is 80km/h,the electrifying time of the direct-current electromagnet is 0.025s. And the electric voltage of the direct-current electromagnet is 24v, and the magnetic field intensity of the direct-current electromagnet is 12000Gs.

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Periodical:

Advanced Materials Research (Volume 823)

Pages:

370-373

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.823.370

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Online since:

October 2013

Authors:

Wei Wang

Keywords:

Guidance, Magnetic Marker, Single-Chip Microcomputer (SCM)

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References

[1] Wang Chunyan, Wu Chaozhong, Ding Zhensong. Study on hardware controlling system for lane-following on intelligent highway with embedded magnetic nails. Journal of Highway and Transportation Research and Development. 2003. 2.

Google Scholar

[2] Yang Libing, Yan Xinping, Wu Chaozhong. Research on Control System Based on Magnetic Markers. Journal of Wuhan University of Technology. 2002. 8.

Google Scholar

[3] Cao Hui. Experimentation Analysis of Magnetic Marker. Doctoral Dissertation of Wuhan University of Technology. 2007. 6.

Google Scholar

[4] Cao Hui, Wu Chaozhong, Bai Zhihu. Experimentation Analysis of Magnetic Marker Flux Density. Computer and Communications. 2007. 2.

Google Scholar

[5] Hu Hancai. Singlechip microcomputer principle and interface technology[M]. Tsinghua University press. 2010. 6.

Google Scholar

[6] John. F Wakerly. Digital Design Principles and Practice. New Jersey: Prentice-Hall. (1990).

Google Scholar

[7] Rao. Guthikonda. V Microprocessors and Microcomputer System. Van Nostrand Reinhold Company. (1982).

Google Scholar