RADAR IMAGING LABORATORY
The Radar Imaging Lab offers the capabilities for examining and providing proof-of-concept of existing and newly devised imaging techniques using real data.
The Radar Imaging Lab provides fully automated Doppler and scattered field measurements in fully controlled, semi-controlled, and uncontrolled indoor environments over a wide frequency range.
It is equipped with a coherent pulse-Doppler ultrawideband imaging radar system and a powerful two-dimensional RF scanning system that allows large aperture, large bandwidth full-polarization imaging of stationary, rotating, and moving objects behind both exterior and interior grade walls. The Lab houses two linear positioners, each 6m long, that can emulate accelerating, vibrating, and constant velocity motion profiles. The Radar Imaging Lab also has resources to perform measurement of the electrical properties (dielectric constant and loss tangent) of materials using a network analyzer.
Areas of Expertise
- Through-the-Wall Imaging and Urban Sensing
- High-Resolution Imaging Systems
- Radar Signal Processing
- Array signal processing
- Indoor Source Localization
- Compressive Radar Sensing
- Over-the-Horizon Radar
Facilities
- Agilent ENA 5071B Vector Network Analyzers
- Agilent ESG E4438C Vector Signal Generator
- Agilent 33220A Arbitrary Waveform Generator
- Agilent Infiniium 54855A Digital Oscilloscope
- Damaskos Inc. Field Probe 2D Scanner, Model 7X7Y
- UWB Pulse-Doppler Radar System with 8-element Vivaldi Array, 1.5-4.5GHz operational frequency range
- BAE Systems H-1479 Wideband Horn Antennas
- ETS-Lindgren 3164-04 Dual-Polarized Wideband Quad-Ridge Antennas
- 20' Long Computer Controlled Linear Positioners by Exonics Systems
- Variety of Reflectors (Dihedrals, Trihedrals, Spheres)
- Antenna Mounts and Tripods
- Agilent 85071E Materials Measurement Software
- Dual-Processor Dell Workstations
- Matlab/Simulink
Director
Dr. Moeness Amin, Professor,
Department of Electrical and Computer Engineering
