Computer Science ›› 2018, Vol. 45 ›› Issue (9): 94-98.doi: 10.11896/j.issn.1002-137X.2018.09.014

• NASAC 2017 • Previous Articles     Next Articles

Signal Model of Automatic Testing Technology for Airborne Equipment

HU Jing-hui, WU Ji, MENG Han, LIU Chao, YANG Hai-yan   

  1. School of Computer Science and Engineering,Beihang University,Beijing 100191,China
  • Received:2017-12-05 Online:2018-09-20 Published:2018-10-10

Abstract: In the airborne equipment testing,exact definition and detection of various test signals is a key factor to ensure safety flight.This paper presented a signal model for the test requirements description of automatic test airborne equipment.In the research,the signals involved in the test requirements of the airborne equipment were categorized,the signals transmitted between the test equipment and the equipment under test were regarded as a set of action including parameters,and a signal model for automatic test airborne equipment requirements was established.The model aims to address the problem of the signal specification description in the airborne equipment automatic test equipment area of current industry.This paper illustrated the characteristics and feasibility of the signal model through a typical case study.

Key words: Airborne equipment testing, Automatic test equipment, Signal model

CLC Number: 

  • TP311.5
[1]BOGLIETTI A,CAVAGNINO A,TENCONI S,et al.The Safety Critical Electric Machines and Drives in the more Electric Aircraft:A Survey [C]∥IEEE Industrial Electronics 2009.Italy,2009:2587-2594.
[2]DU X,TANG D Q,YANG Y C.Development of the Automatic Testing and Fault Diagnosis Technology for Airborne Equipment[J].Computer Measurement and Control,2003,11(1):5-8.
[3]XIN D B,AI B.Research on Airborne RS422 Bus Acquisition
Technology [J].China Science and Technology Information,2016,28(21):73-74.
[4]LI R,LIU W G,LIU X J.Design and Implementation of a ARINC429
Bus Transmit-receive System [J].Computer Measurement and Control,2005,13(9):970-972.
[5]ZHAO Y,TANG Y Q,CHEN P,et al.Application of 1553B Bus to the Aircraft Equipment Testing Systems [J].Journal of Liao-ning Institute of Technology,2002,22(4):19-20.
[6]ROSS W A.The Impact of Next Generation Test Technology on Aviation Maintenance [C]∥IEEE Systems Readiness Technology Conference(AUTOTESTCON 2003).USA,2003:2-9.
[7]DO 160:Environmental Conditions and Test Procedures for Airborne Equipment [M].Americal:Radio Technical Commission for Aeronautics,2010.
[8]NEBUT C,FLEUREY F,LE TRAON Y,et al.Automatic Test Generation:A Use Case Driven Approach[J].IEEE Transactions on Software Engineering,2006,32(3):140-155.
[9]BRINDLEY,KEITH.Automatic Test Equipment [M].American Michigan:Newnes,2013:1-2.
[10]SUGDEN R.Why be Consistent? A Critical Analysis of Consistency Requirements in Choice Theory [J].Economica,1985,52(206):167-183.
[11]HAUBECK C,LAMERSDORF W,LADIGES J.Interaction of Model-driven Engineering and Signal-based Online Monitoring of Production System:Towards Requirement-aware Evolution [C]∥Industrial Electronics Society,IECON 2014-40th Annual Conference of the IEEE.2014:2571-2577.
[12]GAO S W,LV J H,WUNIRI Q,et al.Spacecraft Test Requirement Description and Automatic Generation Method [J].Journal of Beijing University of Aeronautics and Astronautics,2015,41(7):1275-1286.(in Chinese)
高世伟,吕江花,乌尼日其其格,等.航天器测试需求描述及其自动生成[J].北京航空航天大学学报,2015,41(7):1275-1286.
[13]CHO K,LEE W,KIM J.Reducing the Failure Bitmap Size with a Partial Solution Search Tree for the Low Cost Automatic Test Equipment [C]∥SoC Design Conference.2014:128-129.
[14]RADU M.Testing Digital Circuits Using a Mixed-Signal Automatic Test Equipment [C]∥IEEE International Conference on Automation,Quality and Testing.2014.
[15]SUN L,YANG H Y,WU J.Simulation and Real-time Analysis for Embedded Software Design Model with Consideration of Integrated Modular Avionics Platform[J].Computer Science,2015,38(12):95-97.(in Chinese)
孙磊,杨海燕,吴际.基于IMA平台的嵌入式软件设计模型仿真及实时性分析方法[J].计算机科学,2015,38(12):95-97.
[16]YUE T,BRIAND L C,LABICHE Y.Automatically Deriving a UML Analysis Model from a Use Case Model [M].Candan Ottwa:Carleton University Publisher,2010.
[17]ZHANG G,YUE T,WU J,et al.Zen-RUCM:A Tool for Supporting a Comprehensive and Extensible Use Case Modeling Framework [C]∥ACM/IEEE 16th International Conference on Model Driven Engineering Languages and Systems,Tools De-monstration.2013.
[1] SHI Wei-wen, WANG Xue-qi, FAN Kai-yin, WANG Ming-jun. Measuring Point Selection Method of Board-level Circuit Based on Multi-signal Model and Genetic Algorithm [J]. Computer Science, 2018, 45(8): 295-299.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!