作者:蔡志勇, 赵红军
作者单位:中航通飞研究院有限公司, 广东 珠海 519040
关键词:通用飞机;航电系统;智能配线;系统集成;AG600
摘要:
为解决通用飞机复杂航电系统的集成和测试难题,研究一种在数字仿真基础上基于智能配线的航电系统集成与测试方法。基于增量式的系统集成策略分析,对航电系统的集成特点进行研究,进而对其进行分级分步处理,并提出真件逐步替代仿真件的系统集成方法。对航电系统激励响应式的传统测试方法特性进行研究,提出在测试序列基础上的基于智能配线的自动化测试,进而得出航电系统动态综合测试方法。AG600飞机航电系统集成与测试的应用结果表明:所提出的方法及平台能够大大提高航电系统集成与测试的效率。
Research on test technology of general aircraft avionics system based on intelligent wiring
CAI Zhiyong, ZHAO Hongjun
China Aviation Industry General Aircraft Institute Co., Ltd., Zhuhai 519040, China
Abstract: In order to solve the integration and testing difficulties of general aircraft complex avionics systems, an avionics system integration and testing method based on intelligent wiring is studied on the basis of digital simulation. Based on incremental system integration strategy analysis, the integration characteristics of avionics system are studied, and then the hierarchical and step-by-step processing is carried out. The system integration method of real parts replacing simulation parts is put forward. The characteristics of traditional induced response type test method for avionics system are studied and automation test based on intelligent wiring is put forward on the basis of test sequence, so as to get an avionics system dynamic comprehensive test method. The application results of AG600 aircraft avionics system integration and testing show that the proposed method and platform can greatly improve the efficiency of avionics system integration and testing.
Keywords: general aircraft;avionics system;intelligent wiring;system integration;AG600
2018, 44(6): 100-104,120 收稿日期: 2017-10-20;收到修改稿日期: 2017-12-18
基金项目:
作者简介: 蔡志勇(1967-),男,江西南昌市人,研究员,博士,研究方向为航电系统设计和试验。
参考文献
[1] SCHAENZER G. A view of trends in general aviation avionics[C]//AIAA/ICAS International Air and Space Symposium and Exposition, 2003:1-6.
[2] 王国庆, 谷青范, 王淼, 等. 新一代综合化航空电子系统架构技术研究[J]. 航空学报, 2014, 35(6):1473-1486.
[3] 丁全心. 综合模块化航空电子系统标准述评[J]. 电光与控制, 2013, 20(6):1-3.
[4] 蒋枫, 何茂源, 蒲小勃, 等. 飞机设计手册第17册航空电子系统及仪表[M]. 北京航空工业出版社, 2001:258-273.
[5] 杨云志, 罗通俊, 黄进武. 我国大型飞机航空电子系统的发展与思考[J]. 电讯技术, 2007, 47(4):1-5.
[6] 王凯, 刘涛, 周德新. 航电设备运行环境动态模拟系统设计方法研究[J]. 计算机测量与控制, 2014, 22(4):1303-1306.
[7] 李权, 陈骊醒, 高亚奎. 航空电子系统动态模拟综合环境研究[J]. 系统仿真学报, 2003, 15(2):27-29.
[8] 高艳辉, 肖前贵, 胡寿松, 等. 飞行模拟器发展中的关键技术[J]. 计算机测量与控制, 2014, 22(2) 587-590.
[9] 宁伟. 通用航空总线实时测试与分析研究[D]. 西安:西北工业大学, 2006.
[10] 杨乐平. 虚拟仪器技术概论[M]. 北京:电子工业出版社, 2003:1-25.
[11] ADS2R3. Avionics Development System 2th Generation/Release 3 User Manual(2013)[EB/OL].[2014-05-20] http://www.techsat.com.
[12] SAE. Guidelines for Development of Civil Aircraft and Systems:ARP4754A[S]. Warrendale:SAE International, 2010.
