Topics

• Electromagnetic fields and guided waves, Wave propagation in complex media, scattering, RCS, clutter, and polarimetry
• Active and passive components, analog and digital components for radar and electronic systems
• Math modeling, simulation, signal processing, and data interpretation, including polarimetric and Doppler techniques
• Primary and secondary, passive and active radar systems and subsystems
• Beam-Forming, Signal Generation and Reception: Digital beam-forming, MIMO detection, MIMO processing
• Multi-sensor architectures: network systems, passive, and MIMO radars, multi-sensor and multi-static systems, data fusion, cooperative radar
• Subsurface and near field techniques: GPR and Through-the-Wall surveillance, foliage penetrating radar, detection of landmines, biomedical imaging
• Radar detection, measurements, tracking, classification and identification including robust and multi-dimensional detection, robust estimation techniques, compressive sensing, and sparse representations
• Airborne and spaceborne surveillance systems
• Remote sensing of Land/Atmosphere
• Data and image processing and representation: High resolution processing, 1D, 2D and 3D target imaging, MTI/STAP/SAR processing and techniques, tomography, polarimetry, interferometry
• Acoustic and radio-acoustic systems
• SAR and ISAR
• Nanoelectronics in advanced signal processing, microwave and radar applications
• Radar and electronic system applications: Meteorological, Biomedical, Security and Defense, Automotive, Industrial and others
• Metamaterials in radar and electronic systems
• Electronic equipment for light air vehicles and UAV
• Innovative Radar Concepts: cognitive radar and bio-inspired radar, software defined radar, etc.
• Educational and historical aspects