杂乱
仰角(弹道)
计算机科学
方位角
干涉测量
雷达
多普勒效应
空时自适应处理
遥感
地质学
连续波雷达
雷达成像
数学
电信
光学
物理
天文
几何学
作者
T.B. Hale,Michael A. Temple,Michael C. Wicks,John F. Raquet,Mark E. Oxley
出处
期刊:IEE proceedings
[Institution of Electrical Engineers]
日期:2002-01-01
被引量:3
标识
DOI:10.1049/ip-rsn:20020077
摘要
Radar space–time adaptive processing (STAP) techniques have classically focused on azimuth–Doppler adaptivity while placing minimal emphasis on elevation. Elevation beamforming offers significant clutter suppression improvement, allowing further suppression of interference sources having identical Doppler and azimuth. This work incorporates elevation adaptivity through an interferometric approach, greatly improving clutter suppression while providing an often overlooked target height discrimination capability. A mathematical construct encapsulating the multistage processing framework is developed for the proposed technique. This framework allows extension of the traditional factored time–space (FTS) technique into the azimuth–Doppler–elevation hypercube and represents a subclass of more generalised hybrid methods. The proposed concept is validated through results based on simulated airborne radar data. Target detection improvement of the order of 25 dB, when compared to standard two-dimensional FTS processing, is demonstrated for an 8×8 nonuniform rectangular array. Elevation pattern data are provided to illustrate achievable null width/depth capabilities. These data also indicate target height discrimination is inherently provided and further development is warranted.
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