English

Three Dimensional Velocity Measurement Using a Dual Axis Millimeter-Wave Interferometric Radar

Signal Processing 2021-12-14 v2

Abstract

In this work, a method for directly measuring target velocity in three dimensions using a dual axis correlation interferometric radar is presented. Recent advances have shown that the measurement of a target's angular velocity is possible by correlating the signals measured at spatially diverse aperture locations. By utilizing multiple orthogonal baselines and using conventional Doppler velocity methods to obtain radial velocity, a full three-dimensional velocity vector can be obtained using only three receive antennas and a single transmitter, without the need for tracking. A 41.8 GHz\text{41.8 GHz} dual axis interferometric radar with a 7.26λ7.26\lambda antenna baseline is presented along with measurements of a target moving parallel to the plane of the radar array, and of a target moving with components of both radial and tangential velocity. These experiments achieved total velocity root-mean-square errors of 41.01 mms1\text{41.01 mm}\cdot\text{s}^{-1} (10.5%10.5\%) for a target moving along a plane parallel to the array, and 45.07 mms1\text{45.07 mm}\cdot\text{s}^{-1} (13.5%13.5\%) for a target moving with components of radial and tangential motion relative to the array; estimated trajectory angle RMSEs of 10.4210.42^\circ and 5.115.11^\circ were achieved for each experiment respectively.

Keywords

Cite

@article{arxiv.2011.05512,
  title  = {Three Dimensional Velocity Measurement Using a Dual Axis Millimeter-Wave Interferometric Radar},
  author = {Jason Merlo and Eric Klinefelter and Jeffrey A. Nanzer},
  journal= {arXiv preprint arXiv:2011.05512},
  year   = {2021}
}
R2 v1 2026-06-23T20:04:07.189Z