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南京师范大学学报（工程技术版）[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2018年04期

Page:

80-

Research Field:

计算机工程

Publishing date:

Info

Title:

Analysis and Application of Redundancy CharacteristicsBased on Python Language

Author(s):

Qiu Ju; Ye Zhifeng; Zhao Yongping

Library,Nanjing University of Aeronautics & Astronautics,Nanjing 211106,China

Keywords:

Python; redundancy; fly control system; reliability

PACS:

V19

DOI:

10.3969/j.issn.1672-1292.2018.04.012

Abstract:

In view of the requirements of all aspects of the redundancy flight control computer system,the redundancy flight control computer system based on Python development language is introduced. A new concept, pretreatment concept is put forward on the basis of this idea,the structure models of the hardware three redundancy and software three redundancy are established. Among them,in the software three-redundancy architecture model,three versions of software are developed in different languages. The first software and second software are developed by Python,the third software is developed by C language,each other being the backup software on the three computers. The results show that the method can reduce the cost of development and the homomorphic failure rate while improving the reliability and failure maintenance rate.

References:

[1] 杨开全,叶志锋,万云. 基于ARM微控制器的 FPGA配置及应用[J]. 测控技术,2007,26(7):62-65.
YANG K Q,YE Z F,WAN Y. Configuration and application of FPGA based on ARM micro-controlle[J]. Measurement & control technology,2007,26(7):62-65.(in Chinese)
[2]施坤娣. 飞机构造与强度基础[M]. 北京:航空工业出版社,1989:5.
SHI K D. Aircraft structure and strength foundation[M]. Beijing:Aviation Industry Press,1989:5.(in Chinese)
[3]姚一平. 可靠性及余度技术[M]. 北京:航空工业出版社,1995.
YAO Y P. Reliability and redundancy technology[M]. Beijing:Aviation Industry Press,1995.(in Chinese)
[4]杨伟,章卫国,杨朝旭,等. 容错飞行控制系统[M]. 西安:西北工业大学出版社,2006.
YANG W,ZHANG W G,YANG Z X,et al. Fault tolerant flight control system[M]. Xi’an:Northwestern Polytechnical University Press,2006.(in Chinese)
[5]刘小雄,陈怀民,账卫国. 自监控二余度飞控计算机系统设计[J]. 测控技术,2005,24(7):72-75.
LIU X X,CHEN H M,ZHANG W G. Design of self-monitoring dual redundancy flight control computer systems[J]. Measurement & control technology,2005,24(7):72-75.(in Chinese)
[6]刘小雄,章卫国,黄宜军. 解析余度关键技术研究与发展趋势[J]. 计算机测量与控制,2005,13(7):710-713.
LIU X X,ZHANG W G,HANG Y J.Research methods and development of analytical redundancy technology[J]. Computer measurement & control,2005,13(7):710-713.(in Chinese)
[7]翟小花. 余度飞行控制系统低成本方案研究[D]. 南京:南京航空航天大学,2005.
ZHAI X H. Research on a low cost solution for redundant flight control system[D]. Nanjing:Nanjing University of Aeronautics and Astronautics,2005.(in Chinese)
[8]丁志平. 一种基于FPGA的航空总线容错机制设计[J]. 微型机与应用,2015,34(10); 20-24.
DING Z P.A new avionics bus fault tolerance mechanism design based on FPGA[J]. Microcomputer & its applications,2015,34(10):20-24.(in Chinese)
[9]YANG J X,ZHANG J. Research on test of airborne dual-redundant data bus of 1553B[J]. Computer measurement & control,2010,18:1962-1963.
[10]EDWARD H P. The electric jet:F-35 uses high-speed data bus; F-35’s vehicle network integrates flight controls,propulsion and subsystem processing[J]. Aviation week and space technology,2007,166(6):56.
[11]BAZHENON S G,LYSENKOVA N B. Selection method of monitoring algorithm thresholds for airliner’s digital fly-by-wire control system[J]. TsAGI science journal,2015,46(1):63-74.
[12]XUE Y,YAO Z Q,NIU W. The distributed dissimilar redundancy architecture of fly-by-wire flight control system[C]//Proceedings of 2016 12th International Conference on Computational Intelligence and Security. IEEE,2016.
[13]HUTTO A J. Flight-test report on the heavy-lift helicopter flight-control system[J]. Journal of the American helicopter society,1976,21(1):32-40.
[14]LIU X X,ZHANG W G,LI G W. Redundancy techniques for fly-by-wire flight control systems[J]. Aircraft design,2006,21(1):35-38.
[15]GOUPIL P. Oscillatory failure case detection in the A380 electrical flight control system by analytical redundancy[J]. Control engineering practice,2010,18(9):1110-1119.
[16]YEH Y C. Triple-triple redundant 777 primary flight computer[J]. Aerospace applications conference,1996,1(1):293-307.

Memo

Memo:

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Common functions

Last Update: 2018-12-30