Abstract
This paper proposes an extrapolation-RELAX estimator based on spectrum partitioning (SP) for the direction of arrival (DOA) estimation of frequency-modulated continuous-wave (FMCW) radar. The FMCW radar employs fast Fourier transform (FFT)-based digital beamforming (DBF) for the DOA estimation owing to its low complexity and easy implementation. However, the DBF algorithm has a disadvantage of low angle resolution. To improve the angle resolution, super-resolution algorithms such as multiple signal classification (MUSIC) and estimation of signal parameters via rotational invariance techniques (ESPRIT) are proposed. However, these algorithms require the high signal-to-noise ratio (SNR) to meet the required performance. To overcome this drawback of super-resolution algorithms, the SP-based extrapolation method has been proposed. However, this algorithm still has the problem that the resolution performance degrades owing to the insufficient number of actual antenna arrays. To solve this problem, we propose the SP-based extrapolation-RELAX algorithm for DOA estimation of FMCW radar. Through extrapolation, the proposed structure solves the problem of insufficient number of arrays, resulting in high reliability of SP results. When the extrapolation algorithm is used to generate the input signal of the RELAX algorithm, the RELAX method improves the performance of the DOA estimation. To confirm the effectiveness of the proposed estimation, we compare the Monte Carlo simulation and root-mean-square error results of the proposed and conventional algorithms. To verify the performance of the proposed algorithm in practical conditions, experiments were performed using the FMCW radar module within a chamber and in an indoor environment.
Highlights
For a long time, several studies on radar sensors have been reported [1]–[4]
In order to solve this problem of spectrum partitioning (SP)-based extrapolation, we propose SP-based extrapolation-RELAX algorithm for direction of arrival (DOA) estimation of frequency-modulated continuous-wave (FMCW) radar
PROPOSED EXTRAPOLATION-RELAX ESTIMATOR BASED ON SPECTRUM PARTITIONING FOR DOA ESTIMATION OF FMCW RADAR This section proposes an extrapolation-RELAX estimator based on SP for DOA estimation of the FMCW radar
Summary
Several studies on radar sensors have been reported [1]–[4]. Radar sensors allow for the safe detection of targets because they are less sensitive to environmental conditions such as heavy rain, snow, and fog compared to other sensors such as cameras and LiDAR [5]. In conventional FMCW radar systems, FFT-based algorithms with low complexity are used to extract multiple parameters such as distance, Doppler information, or angle in order to obtain portability and low cost. In the case of various applications for FMCW radar, the number of actual antenna arrays still has a limitation in that the resolution performance of SP-based extrapolation is insufficient. In order to solve this problem of SP-based extrapolation, we propose SP-based extrapolation-RELAX algorithm for DOA estimation of FMCW radar. After the received signal is applied into SP, extrapolation is applied to each partition result of the SP to increase the number of virtual arrays because the extrapolation algorithm can overcome the disadvantages of the low-resolution DBF based on FFT for DOA information.
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