Abstract
In this paper, a novel adaptive algorithm to detect and track targets with low grazing angle is addressed. For this purpose, an orthogonal frequency division multiplexing (OFDM) radar signal is employed through an edge computing framework over the radar platform. However, detecting the targets in the low grazing angle area is a great challenge due to severe multipath reflection effects. The Earth’s curvature geometry model is presented as the multipath propagation model. Based on the fact that the different scattering centers of a target resonate at different frequencies, we use the optimized OFDM waveform and propose a novel target tracking procedure for low grazing angle target tracking scenarios. The obtained results show that using an OFDM radar waveform provides a more uniform detection coverage in the presence of multipath propagation such that this will fill in the nulls. Finally, simulations are used to compare the performance of the proposed OFDM waveform with the conventional equal-power, the generalized likelihood ratio (GLR)-based and single-carrier waveforms.
Highlights
Angle of arrival (AOA) estimation in a low grazing angle is one of the most challenging problems in radar fields [1,2,3], where the multipath effect is the main problem
We have proposed a new recursive method for low grazing angle target tracking, which could fill in multipath nulls and have a good performance in low grazing angle scenarios
This paper addresses the use of an orthogonal frequency division multiplexing (OFDM) radar waveform to provide a more uniform detection coverage in the presence of multipath propagation by transmitting multiple, parallel RF subcarriers simultaneously in a single pulse to fill in the nulls
Summary
Angle of arrival (AOA) estimation in a low grazing angle is one of the most challenging problems in radar fields [1,2,3], where the multipath effect is the main problem. The authors have further investigated a hybrid MIMO radar for detecting low grazing angle targets in multipath propagation scenarios [16]. The authors presented an adaptive waveform design method based on maximizing the Mahalanobis distance to improve the target detection performance in low grazing angle situations.
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