The Aircraft Surveillance Applications System (ASAS) consists of an Airborne Surveillance and Separation Assurance Processor (ASSAP) and Cockpit Display of Traffic Information (CDTI). While supporting generation of the Minimum Operational Performance Standards (MOPS) for ASAS, the MITRE Corporation developed a high level functional architecture and low level algorithms for the ASSAP subsystem. The sample ASSAP algorithms have been implemented in MATLAB, along with a high fidelity representation of the CDTI. The cumulative ASAS simulation has been tested and refined with a number of data sources, including operational surveillance data from flight tests performed at the William J. Hughes [FAA] Technical Center in July of 2007 and synthesized data derived from Area Navigation (RNAV) tracks recorded at Hartsfield -Jackson Atlanta International Airport in 2006. This paper describes an abbreviated ASSAP architecture in detail and presents simulation results used to formulate the subsystem standards.
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机译:飞机监视应用系统(ASAS)由机载监视和分离保证处理器(ASSAP)和交通信息驾驶舱显示(CDTI)组成。在支持为ASAS生成最低操作性能标准(MOPS)的同时,MITRE公司为ASSAP子系统开发了高级功能架构和低级算法。 ASSAP示例算法已在MATLAB中实现,并且CDTI的保真度很高。累积的ASAS模拟已通过许多数据源进行了测试和完善,包括2007年7月在William J. Hughes [FAA]技术中心进行的飞行测试获得的运营监视数据,以及从区域导航(RNAV)航迹获得的综合数据记录在2006年哈特斯菲尔德-杰克逊亚特兰大国际机场。本文详细描述了缩写的ASSAP体系结构,并提供了用于制定子系统标准的仿真结果。
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