论文部分内容阅读
军事训练中的一个关键问题是仿真先进的空一地雷达系统,这是许多飞行任务的组成部分。高分辨多卜勒波束锐化和合成孔径雷达有能力提出此种挑战,因为仿真的分辨力受限于数字式地块数据和DRLMS处理能力。本文讨论了这些高分辨模型的要求和影响将表DRLMS的先进雷达系统的其它特点。叙述了作将来仿真器基线的F-16DRLMS,并考查了F-16DRLMS结构,重点放在处理能力、设计灵活性和功能模块化上面。比较先进雷达系统的要求和当前F-16DRLMS的能力,表明地面块数据库分辨力不高是主要担心的事。接着讨论了几种与当前结构兼容的提高地面块数据库方法,还证明了F-16DRLMS方法对将来的雷达仿真也是有效的。
A key issue in military training is the simulation of an advanced air-ground radar system, which is part of many missions. High-resolution Doppler beamsplitter and synthetic aperture radars have the ability to pose this challenge because the resolution of the simulation is limited by digital parcel data and DRLMS processing capabilities. This article discusses the additional features of advanced radar systems that will address the requirements and impact of these high-resolution models on the DRLMS table. Describes the F-16DRLMS as a baseline for future simulators and examines the F-16DRLMS architecture with an emphasis on processing power, design flexibility, and functional modularity. Comparing the requirements of an advanced radar system with the capabilities of the current F-16DRLMS shows that resolving power in terrestrial block databases is a major concern. Next, we discuss several ways to improve the terrestrial block database that are compatible with the current structure and also prove that the F-16DRLMS method is also effective for future radar simulations.