Research Topics

Research Topics

IEEE Transactions on Radar Systems (T-RS) considers research advances in the following topic areas

  • Radar surveillance (e.g. MTI)
  • Radar direction-finding (e.g. monopulse)
  • Radar localization & mapping
  • Radar and radiometric imaging (e.g. scanning, SAR, ISAR, InSAR)
  • Radar tracking 
  • Sensor fusion (involving radar)
  • Radar-based motion tracking (e.g. human / animal / robot motions)
  • Airborne/space-based radar
  • Maritime/coastal radar
  • Air/space surveillance
  • Air traffic control radar
  • Weather radar
  • Secondary radar systems and applications (e.g. transponders, RFID systems, wireless location systems)
  • Automotive/vehicle radar, ADAS, sense-and-avoid, radar for unmanned/autonomous platforms
  • Commercial/industrial radar applications (e.g. body scanning, building technology, hand gesture recognition)
  • Medical/biological radar applications
  • Wearable radar
  • Radar systems for space exploration
  • Radar for planetary exploration
  • Subsurface radar imaging
  • Radar remote sensing (e.g. radiometry, scatterometry, imaging)
  • Multifunction radar (e.g. SAR/MTI)
  • Quantum radar
  • Advanced radar architectures
  • Radar-specific subsystems/components (e.g. radar system-on-a-chip, RFIC and circuit design)
  • Radar calibration (array, antenna phase center, cross coupling, transfer function, offset, etc.)
  • Reconfigurable antennas, metamaterials (specific to radar)
  • Fully digital arrays for radar
  • Radar polarimetry
  • Low SWaP-C radar
  • Software-defined radar
  • Radar spectrum sharing (e.g. cohabitation or dual-function radar/communications; emphasis on radar aspects)
  • mm-wave/THz radar
  • Ultrawideband radar
  • Passive radar & illuminators of opportunity
  • Bistatic radar
  • Multistatic, networked & distributed radar
  • Radar detection & estimation (e.g. interference/clutter covariance, CFAR)
  • Radar signal & array processing (e.g. STAP, adaptive beamforming, compressed sensing)
  • Radar waveform diversity & MIMO (e.g. noise radar, frequency-diverse arrays)
  • Machine learning for radar
  • Radar resource management 
  • Automated/cognitive sensing
  • Bio-inspired radar capabilities
  • Nonlinear modelling, effects, and linearization for radar
  • Radar-based material characterization (e.g. ellipsometry, non-destructive evaluation)
  • Signatures, characterization, identification (e.g. micro-Doppler)
  • Complex propagation/scattering environments (e.g. over-the-horizon, ground/foliage/ice penetration, thru-wall)
  • Radar environment simulation / radar test systems
  • Clutter modeling (e.g. sea scatter)
  • Radar in interference-rich environments
  • Radar EW