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首页> 外文会议>Targets and Backgrounds: Characterization and Representation II >Innovative quick-look technique for the characterization and flight performance evaluation of theater ballistic missile (TBM) and strategic target systems
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Innovative quick-look technique for the characterization and flight performance evaluation of theater ballistic missile (TBM) and strategic target systems

机译:用于战场弹道导弹(TBM)和战略目标系统的表征和飞行性能评估的创新速查技术

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Abstract: This paper provides a description of an innovative 'Quick-look' technique (process) for the characterization and evaluation of the flight performance of Theater Ballistic Missile (TBM) and Strategic Target Systems. The methodology for processing real-time flight target telemetry data and integrating those data items into a visualization-based, Quick-Look Analysis Process (QLAP) is presented with highlights of the results obtained from a typical flight test. Emphasis is placed on providing visualization-based data products which 'jump start' the post-flight-test data evaluation process through the correlation of a robust first-principles target model developed with the USASSDC Optical Signatures Code (OSC 18.3) to determine (pre-mission) a priori target performance parameters and correlating these data to the actual flight target performance. Processed thermal, flight dynamics, orientation and angular rates telemetry data are treated as 'truth data inputs' for the OSC-18.3 simulation of the 'real-world, flight test behavior' of the test target system. Results from this process include a video tape with visualizations of temperature and radiance maps of the target system as 'viewed' from the perspective of each optical or radar corollary sensor participating in the flight test. Also included in this paper are examples of the efficacy of using this methodology for pre-mission optimization of the data collection plans for each corollary optical or radar sensor. !14
机译:摘要:本文描述了一种创新的“快速查看”技术(过程),用于表征和评估战区弹道导弹(TBM)和战略目标系统的飞行性能。介绍了用于处理实时飞行目标遥测数据并将这些数据项集成到基于可视化的快速查找分析过程(QLAP)的方法,并着重介绍了从典型飞行测试中获得的结果。重点放在提供基于可视化的数据产品上,这些数据产品通过使用USASSDC光学签名代码(OSC 18.3)开发的强大的第一性原理目标模型的相关性来“跳跃”飞行后的数据评估过程,以确定(预先-mission)先验目标性能参数,并将这些数据与实际飞行目标性能相关联。处理后的热,飞行动力学,方向和角速率遥测数据被视为“真相数据输入”,用于OSC-18.3模拟测试目标系统的“真实世界,飞行测试行为”。该过程的结果包括一个录像带,从参与飞行测试的每个光学或雷达推论传感器的角度“可视化”显示目标系统的温度和辐射度图。本文还包括使用此方法进行每个任务光学或雷达传感器的数据采集计划的任务前优化的功效示例。 !14

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