摘要
综合化航空电子系统根据应用的需求,基于已有的能力,采用综合技术,实现面向应用的任务合成,提升应用效能;面向能力的功能信息融合,提升能力品质;面向物理的操作模式综合,提升资源效率。针对新一代战机应用领域和战场作战的需求,围绕应用层面、能力层面和资源层面研究新一代综合化航空电子系统构架组成要素与建模技术,基于任务、功能、资源的生成与组织过程的分析,构建了面向现代战机不同任务目标、功能组织和系统能力的航空电子系统组织、实施构架,提出了分层的综合化航空电子系统构架——任务组织构架、功能组织构架和物理组织构架,实现了从应用空间-逻辑空间-物理空间信息处理的一致性,为新一代战机航空电子系统的综合化技术研究奠定了一定的技术基础。
Integrated avionics system is based on application requirement and its own ability, it adopts integration technology to realize the task synthesis facing to application for improving application efficiency; to realize the function information fusion facing to capability for improving capability quality; to realize operation mode integration facing to physical architecture. In this paper, aiming at new generation fight aircraft application scope and requirement of battlefield fight, around application layer, capability layer and resource layer for research on the constitution factor and modeling technology of new generation integration avionics architecture, based on the generation and organization process for task, function and resource analysis, we construct avionics system organization and operation architecture facing to different task objective, function organization and system ability of modern fight aircraft, propose hierarchy integration avionics system architecture-task organization architecture, function organization architecture and physical organization architecture, to realize the consistency among application space, logical space and physical space information technology research of new generation fight aircraft avionics dispose, and to establish the technology basis for integrated system.
出处
《航空学报》
EI
CAS
CSCD
北大核心
2014年第6期1473-1486,共14页
Acta Aeronautica et Astronautica Sinica
基金
国家"973"计划(2014CB744900)
航空科学基金(20125552053)~~
关键词
综合化航空电子
系统构架
物理构架
功能构架
任务构架
物理综合
信息融合
任务合成
integration avionics
system architecture
physical architecture
function architecture
task architecture
physical integration
information fusion
task synthesis