Preventing Override Trip Algorithm based on Quantum Entanglement in Coal Mine High-Voltage Grid

doi:10.23940/ijpe.18.05.p21.10231029

Abstract

Abstract:

In the traditional preventing override trip system, the preventing override trip issue is still not resolved very well because of the transmission delay problem. Based on the characteristic of quantum entanglement, a quantum preventing override trip algorithm is proposed, which can allow the power monitoring system to quickly obtain the switch’s over current fault information and effectively prevent override trip of the coal mine high-voltage grid. The simulation results show that the quantum override trip algorithm uses less time to obtain fault information of all switches and saves more time to finish protection setting when compared with traditional algorithms. So, the quantum preventing override trip algorithm can better solve the problem of transmission delay and can effectively improve the reliability of preventing override trip system.

Submitted on January 29, 2018; Revised on March 3, 2018; Accepted on April 20, 2018
References: 14

Xinliang Wang, Zhigang Guo, Qianhui Yang, and Jianing Zou. Preventing Override Trip Algorithm based on Quantum Entanglement in Coal Mine High-Voltage Grid [J]. Int J Performability Eng, 2018, 14(5): 1023-1029.

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

References 0

	C. H. Bennett, G. Brassard, C. Crepeau, R. Jozsa, A. Peres, W. K. Wootters. “Teleporting an Unknown Quantum State Via Dual Classical and Einstein-Podolsky-Rosen Channels” [J]. Phys. Rev. Lett., 1993, 70.
	D. Bouwmeester, J. W. Pan, K. Mattle, M. Eibl, H. Weinfurtor, A. Zeiling. “Experimental Quantum Teleportation” [J]. Nature, 1997, 390:575-579.
	S. L. Braunstein, H. J. Kimble. “Teleportation of Continuous Quantum Variables” [J]. Phys. Rev. Lett., 1998, 80: 869-872.
	W. J. Li, L. Song, W. C. Zhang, etc. “The Application Study of Equipment of Prevent Skip-Level Interview of Coal Mine Power Supply Based on Optic-Fibre Digital Communication” [J]. Embedded technology, 2011, 37(4): 26-32.
	Y. C Luan, J. W. Liu. “Analysis and Discussion of Causes of Override Trip on Coal Mine” [J]. Industry and mine automation, 2009, (3): 82-84.
	L. P. Shi, W. Y. Zhao, Z. M. Jiang, etc. “Scheme of Avoiding Override Trip in Mine Underground” [J]. Coal Mine Safety, 2012. 8: 115-117.
	X. Y. Tian. “Fault Protection Override Trip Causes and Solutions of 10KV” [J]. Electrical Applications, 2008, 27(2): 31-33.
	C. P. Yang, G. C. Guo. “Multiparticle Generalization of Teleportation” [J]. Chin. Phys. Lett., 2000, 17: 162-164.
	C. X. Yin, X. Q. Pan. “Studying on Override Trip of Coal Mine” [J]. Coal Science and Technology, 2011(6): 66-69.
	X. G. Zhang, H. M. Li, H. Ji, H. S. Zeng. “Controlled Teleportation of Multi-Qudit Quantum Information” [J]. Chin. Phys., 2007, 16.
	S. B. Zheng. “Scheme for Approximate Conditional Teleportation of An Unknown Atomic State Without the Bell-State Measurement” [J]. Phys. Rev. A, 2004, 69.
	Z. C. Zheng. “Research on Override Trip Causes of Tao er Coal Network”[J]. China Science and Technology Information. 2011, (15): 19-22.
	N. R. Zhou, B. Y. Zeng, L. J. Wang, L. H. Gong. “Selective Automatic Repeat Quantum Synchronous Communication Protocol Based on Quantum Entanglement” [J]. Acta Phys. Sin, 2010, 59(4).
	N. R. Zhou, G. H. Zeng, L. H. Gong, S. Q. Liu. “Quantum Communication Protocol for Data Link Layer Based on Entanglement” [J]. Acta Phys. Sin, 2007, 56(9): 55-58.