Document Type
Conference Paper
Journal/Book Title/Conference
SPIE Defense + Security 2016
Publisher
SPIE
Location
Baltimore, MD
Publication Date
5-14-2016
First Page
1
Last Page
9
Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial 4.0 License
Abstract
Along-track interferometry (ATI) has the ability to generate high-quality synthetic aperture radar (SAR) images and concurrently detect and estimate the positions of ground moving target indicators (GMTI) with moderate processing requirements. This paper focuses on several different ATI system configurations, with an emphasis on low-cost configurations employing no active electronic scanned array (AESA). The objective system has two transmit phase centers and four receive phase centers and supports agile adaptive radar behavior. The advantages of multistatic, multiple input multiple output (MIMO) ATI system configurations are explored. The two transmit phase centers can employ a ping-pong configuration to provide the multistatic behavior. For example, they can toggle between an up and down linear frequency modulated (LFM) waveform every other pulse. The four receive apertures are considered in simple linear spatial configurations. Simulated examples are examined to understand the trade space and verify the expected results. Finally, actual results are collected with the Space Dynamics Laboratorys (SDL) FlexSAR system in diverse configurations. The theory, as well as the simulated and actual SAR results, are presented and discussed.
Recommended Citation
Knight, Chad; Deming, Ross; and Gunther, Jake, "Multi-Static MIMO Along-Track Interferometry (ATL)" (2016). Space Dynamics Laboratory Publications. Paper 249.
https://digitalcommons.usu.edu/sdl_pubs/249