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出 处:《空军工程大学学报(自然科学版)》2016年第6期52-57,共6页Journal of Air Force Engineering University(Natural Science Edition)
基 金:国家自然科学基金(612742011;61102109)
摘 要:针对单平台难以临空高超声速飞行器进行全程连续探测、稳定跟踪的问题,构建了基于多平台多传感器协同探测跟踪体系。通过对临空高超声速飞行器作战特性、探测需求的详细分析,提出了由天基、临空基、空基和地/还基平台组成的天临空地/海多平台协同探测体系,重点分析了体系结构和探测时序及过程;搭建了天临空地/海协同探测仿真平台,通过STK对平台静态部署和动目标检测的效果进行了仿真分析。仿真结果验证了天临空地/海多平台协同探测体系在探测空域、时效性等方面具有较大优势,能够有效弥补单平台的不足,为未来探测跟踪此类目标提供了技术支撑。Aimed at the problem that a sing ble tracking of near space hypersonic veh e-platform is hard cle, a cooperative based on multi-platform. The space-near space-air-ground/sea to perform the continuous detection and sta- detection and tracking model is structured cooperative detection system is put forward, the construction, time scheme and detection process are analyzed according to analysis of the combat char- acteristics and detection demands of NSHV. The cooperative detection platform is built up, and the static deploying and dynamic target detecting effect are analyzed by STK. The advantages of detection range and timeliness are verified with the simulation results, and these advantages make up the weakness of the sin- gle platform effectively. This will supply detecting and tracking this target in the future with an important technology foundation.
关 键 词:临空高超声速飞行器 探测需求 天临空地/海协同探测 STK
分 类 号:TP212.9[自动化与计算机技术—检测技术与自动化装置]
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