Dr. David Tahmoush
at APL
SPIE Involvement:
Conference Program Committee | Author | Instructor
Publications (29)

Proceedings Article | 12 April 2021 Presentation + Paper
Proc. SPIE. 11742, Radar Sensor Technology XXV
KEYWORDS: Radar, Unmanned aerial vehicles, Doppler effect, Optical simulations, Beam analyzers

Proceedings Article | 12 May 2016 Paper
Proc. SPIE. 9844, Automatic Target Recognition XXVI
KEYWORDS: Data modeling, Databases, Argon, Video, Pattern recognition, Feature extraction, Computer vision technology, Head, Machine vision, RGB color model

Proceedings Article | 16 June 2015 Paper
Proc. SPIE. 9494, Next-Generation Robotics II; and Machine Intelligence and Bio-inspired Computation: Theory and Applications IX
KEYWORDS: Imaging systems, Sensors, Databases, Video, Robotics, Clouds, 3D modeling, Robots, Motion analysis, Situational awareness sensors

Proceedings Article | 1 June 2015 Paper
Proc. SPIE. 9460, Airborne Intelligence, Surveillance, Reconnaissance (ISR) Systems and Applications XII
KEYWORDS: Radar, Doppler effect, LIDAR, Sensors, Databases, Video, Computer simulations, Video surveillance, RGB color model, Data fusion

Proceedings Article | 21 May 2015 Paper
Proc. SPIE. 9461, Radar Sensor Technology XIX; and Active and Passive Signatures VI
KEYWORDS: Radar, Doppler effect, Imaging systems, LIDAR, Databases, Video, 3D modeling, 3D metrology, Analytical research, 3D image processing

Showing 5 of 29 publications
Conference Committee Involvement (13)
Radar Sensor Technology XXVI
3 April 2022 | Orlando, Florida, United States
Radar Sensor Technology XXV
12 April 2021 | Online Only, Florida, United States
Radar Sensor Technology XXIV
27 April 2020 | Online Only, California, United States
Radar Sensor Technology XXIII
15 April 2019 | Baltimore, Maryland, United States
Radar Sensor Technology XXII
16 April 2018 | Orlando, Florida, United States
Showing 5 of 13 Conference Committees
Course Instructor
SC1031: Radar Micro-Doppler Signatures - Principles and Applications
This course explains basic principles and applications of the micro-Doppler signatures of radar targets. A micro-Doppler signature is a distinctive characteristic of the intricate frequency modulations generated from each component part of a target and is represented in the joint time and Doppler frequency domain. Micro-Doppler signatures provide unique target features that are complementary to those made available by existing methods. The primary goals of the course are to describe the radar micro-Doppler effect, the mathematical and dynamic models of targets with various motions and the analysis of micro-Doppler signatures. The course will present current applications of radar micro-Doppler signature analysis to target detection, characterization, and classification. Radar data returned from rigid body motion and non-rigid body motion will be used in the presentation examples as well as simulations. Examples are shown from state-of-the-art radars in both anechoic chambers and realistic environments.
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