![]() Unrelenting attention to detail allows production of scale models with scaled welds, bolt heads, track links, lug nuts, rust, battle damage, and non-metallics like rubber pads, fiberglass and canvas.ĭielectricsDielectrics Characterization for Radar Scaling STL operates a world class target modeling facility, where tactical target photos and CAD models are fabricated into astonishingly high fidelity scale models. In our twenty five years of experience, our staff has acquired considerable experience in laboratory integration of state-of-the-art data acquisition, motion control, and data processing and visualization techniques.įINESCALEMODELFABRICATIONFine-Scale Model Fabrication Radar signatures collected at STL are a very cost effective way to create high-quality radar scattering imagery from scale models. ![]() The most popular measurement, the Azimuth swept ISAR produces radar backscatter imagery the closely mimics operational measurements of tactical targets on numerous fielded platforms. Using the Compact Radar Ranges at STL as part of the ERADS radar consortium, radar backscattering signatures are acquired of tactical targets ranging from ships to trucks to main battle tanks. RadarSigAcqRadar Signature Acquisition and Analysis Research Staff: Thomas Goyette, Ph.D., Guy DeMartinis, D.Eng., Jason Dickinson, M.S. STL, as part of the Expert RADar Signature Solutions (ERADS) consortium of radar signature facilities, currently operates compact ranges designed to match fielded systems at VHF, UHF, X-band, K-band, Ka-band, Ku-band, and W-band radar. By performing radar scattering measurements of high fidelity scale models inside a Compact Radar Range, the radar fingerprint, or signature, of a tactical vehicle can be produced at low cost and very high accuracy.Ī typical Compact Radar Ranges consists of three major components: the anechoic chamber (to absorb stray scatter), the target positioning system (to allow the accurate positioning of the posed target to within 0.001 degrees), and the submillimeter-wave transceiver (which transmits the submillimeter beam and receives the backscattered signature from each target). The Compact Radar Range is designed to measure scale models of actual targets using laser-based and solid-state submillimeter-wave beams. Dielectrics Characterization for Radar Scalingįor the past twenty-five years the Submillimeter-Wave Technology Laboratory (STL) has been engineering and constructing unique Compact Radar Ranges for production of radar signatures of ships, tanks, and other tactical vehicles.Radar Signature Acquisition and Analysis Research. ![]() Read more about ERADS (Expert Radar Signature Solutions).
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