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FMCW Radar Estimation Algorithm with High Resolution and Low Complexity Based on Reduced Search Area

Title
FMCW Radar Estimation Algorithm with High Resolution and Low Complexity Based on Reduced Search Area
Author(s)
Kim, Bong-seokJin, YoungseokLee, JonghunKim, Sangdong
Issued Date
2022-02
Citation
Sensors, v.22, no.3
Type
Article
Author Keywords
FMCW radarestimationsuper resolutionlow complexitysearch area
ISSN
1424-8220
Abstract
We propose a frequency-modulated continuous wave (FMCW) radar estimation algorithm with high resolution and low complexity. The fast Fourier transform (FFT)-based algorithms and multiple signal classification (MUSIC) algorithms are used as algorithms for estimating target parameters in the FMCW radar systems. FFT-based and MUSIC algorithms have tradeoff characteristics between resolution performance and complexity. While FFT-based algorithms have the advantage of very low complexity, they have the disadvantage of a low-resolution performance; that is, estimating multiple targets with similar parameters as a single target. On the other hand, subspace-based algorithms have the advantage of a high-resolution performance, but have a problem of very high complexity. In this paper, we propose an algorithm with reduced complexity, while achieving the high-resolution performance of the subspace-based algorithm by utilizing the advantages of the two algorithms; namely, the low-complexity advantage of FFT-based algorithms and the high-resolution performance of the MUSIC algorithms. The proposed algorithm first reduces the amount of data used as input to the subspace-based algorithm by using the estimation results obtained by FFT. Secondly, it significantly reduces the range of search regions considered for pseudo-spectrum calculations in the subspace-based algorithm. The simulation and experiment results show that the proposed algorithm achieves a similar performance compared with the conventional and low complexity MUSIC algorithms, despite its considerably lower complexity. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
URI
http://hdl.handle.net/20.500.11750/16902
DOI
10.3390/s22031202
Publisher
MDPI AG
Related Researcher
  • 이종훈 Lee, Jonghun
  • Research Interests Radar System Design; 레이다 설계; Detection & Estimation; 탐지; AI; 인공지능; SensorFusion; 센서융합;signal processing; 신호처리; Quantum radar;양자레이다
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Appears in Collections:
Division of Automotive Technology Advanced Radar Tech. Lab 1. Journal Articles
Division of Automotive Technology 1. Journal Articles

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