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Performance of Chirp Parameter Estimation in the Fractional Fourier Domains and an Algorithm for Fast Chirp-Rate Estimation
This article addresses the problem of fast and accurate chirp signal parameter estimation in fractional Fourier domains. By employing a perturbation analysis, it is shown that the fractional Fourier transform can be used as an effective tool to yield an asymptotically minimum-variance unbiased estim...
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| Published in: | IEEE transactions on aerospace and electronic systems 2020-10, Vol.56 (5), p.3685-3700 |
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| Main Authors: | , |
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| cites | cdi_FETCH-LOGICAL-c293t-9b3e43c6db69182d919052a541467be4b8539c247315a61aac844748916b810a3 |
| container_end_page | 3700 |
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| container_title | IEEE transactions on aerospace and electronic systems |
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| creator | Aldimashki, Omair Serbes, Ahmet |
| description | This article addresses the problem of fast and accurate chirp signal parameter estimation in fractional Fourier domains. By employing a perturbation analysis, it is shown that the fractional Fourier transform can be used as an effective tool to yield an asymptotically minimum-variance unbiased estimator of the chirp parameters. Furthermore, it is shown that the asymptotic performance of the fractional-Fourier-transform-based chirp-rate estimator depends only on the actual chirp rate, not the initial frequency. Consequently, the chirp-rate estimation can be done in only one-dimensional search space, which greatly reduces the computational cost. In order to validate theoretical outcomes, we propose a fast and powerful method for the estimation of chirp rates in the fractional Fourier domains based on the golden section search. Extensive computer simulations confirm the theoretical results by demonstrating that the estimation performance of the chirp rate achieves the Cramer-Rao lower bound for both single- and multicomponent chirps. Consequently, we assert that the proposed method of chirp parameter estimation in the fractional Fourier domains is the minimum-variance unbiased estimator, requiring minimal computational cost. |
| doi_str_mv | 10.1109/TAES.2020.2981268 |
| format | article |
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By employing a perturbation analysis, it is shown that the fractional Fourier transform can be used as an effective tool to yield an asymptotically minimum-variance unbiased estimator of the chirp parameters. Furthermore, it is shown that the asymptotic performance of the fractional-Fourier-transform-based chirp-rate estimator depends only on the actual chirp rate, not the initial frequency. Consequently, the chirp-rate estimation can be done in only one-dimensional search space, which greatly reduces the computational cost. In order to validate theoretical outcomes, we propose a fast and powerful method for the estimation of chirp rates in the fractional Fourier domains based on the golden section search. Extensive computer simulations confirm the theoretical results by demonstrating that the estimation performance of the chirp rate achieves the Cramer-Rao lower bound for both single- and multicomponent chirps. Consequently, we assert that the proposed method of chirp parameter estimation in the fractional Fourier domains is the minimum-variance unbiased estimator, requiring minimal computational cost.</description><identifier>ISSN: 0018-9251</identifier><identifier>EISSN: 1557-9603</identifier><identifier>DOI: 10.1109/TAES.2020.2981268</identifier><identifier>CODEN: IEARAX</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Algorithms ; Asymptotic properties ; Chirp ; Chirp rate ; Chirp signals ; Computational efficiency ; Computing costs ; Domains ; Estimation ; Fourier transforms ; fractional fourier transform (FrFT) ; golden section search (GSS) ; linear-frequency-modulated (LFM) parameter estimation ; Lower bounds ; Parameter estimation ; Perturbation methods ; Radar ; radon–wigner transform ; Time-frequency analysis ; Transforms</subject><ispartof>IEEE transactions on aerospace and electronic systems, 2020-10, Vol.56 (5), p.3685-3700</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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By employing a perturbation analysis, it is shown that the fractional Fourier transform can be used as an effective tool to yield an asymptotically minimum-variance unbiased estimator of the chirp parameters. Furthermore, it is shown that the asymptotic performance of the fractional-Fourier-transform-based chirp-rate estimator depends only on the actual chirp rate, not the initial frequency. Consequently, the chirp-rate estimation can be done in only one-dimensional search space, which greatly reduces the computational cost. In order to validate theoretical outcomes, we propose a fast and powerful method for the estimation of chirp rates in the fractional Fourier domains based on the golden section search. Extensive computer simulations confirm the theoretical results by demonstrating that the estimation performance of the chirp rate achieves the Cramer-Rao lower bound for both single- and multicomponent chirps. Consequently, we assert that the proposed method of chirp parameter estimation in the fractional Fourier domains is the minimum-variance unbiased estimator, requiring minimal computational cost.</description><subject>Algorithms</subject><subject>Asymptotic properties</subject><subject>Chirp</subject><subject>Chirp rate</subject><subject>Chirp signals</subject><subject>Computational efficiency</subject><subject>Computing costs</subject><subject>Domains</subject><subject>Estimation</subject><subject>Fourier transforms</subject><subject>fractional fourier transform (FrFT)</subject><subject>golden section search (GSS)</subject><subject>linear-frequency-modulated (LFM) parameter estimation</subject><subject>Lower bounds</subject><subject>Parameter estimation</subject><subject>Perturbation methods</subject><subject>Radar</subject><subject>radon–wigner transform</subject><subject>Time-frequency analysis</subject><subject>Transforms</subject><issn>0018-9251</issn><issn>1557-9603</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><recordid>eNpNkE9LAzEQxYMoWKsfQLwEPG_N5N8mx1K7KhQsWs9LdpvalO5uTdKD-OXNskU8DMPAe483P4RugUwAiH5YTefvE0oomVCtgEp1hkYgRJ5pSdg5GhECKtNUwCW6CmGXTq44G6GfpfWbzjemrS3uNni2df6Al8abxkbr8TxE15jouha7FsetxYU3dX-bPS66o3dJ9Ng1xrUBm3adBk_3n513cdvglIwLE-IQm72ZaP8lXqOLjdkHe3PaY_RRzFez52zx-vQymy6ymmoWM10xy1kt15XUoOhagyaCGsGBy7yyvFKC6ZrynIEwEoypFec5VxpkpYAYNkb3Q-7Bd19HG2K5S8XTA6GknGstQHKZVDCoat-F4O2mPPhU1H-XQMqecdkzLnvG5Ylx8twNHmet_dNrwnKaa_YLJe93fg</recordid><startdate>20201001</startdate><enddate>20201001</enddate><creator>Aldimashki, Omair</creator><creator>Serbes, Ahmet</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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By employing a perturbation analysis, it is shown that the fractional Fourier transform can be used as an effective tool to yield an asymptotically minimum-variance unbiased estimator of the chirp parameters. Furthermore, it is shown that the asymptotic performance of the fractional-Fourier-transform-based chirp-rate estimator depends only on the actual chirp rate, not the initial frequency. Consequently, the chirp-rate estimation can be done in only one-dimensional search space, which greatly reduces the computational cost. In order to validate theoretical outcomes, we propose a fast and powerful method for the estimation of chirp rates in the fractional Fourier domains based on the golden section search. Extensive computer simulations confirm the theoretical results by demonstrating that the estimation performance of the chirp rate achieves the Cramer-Rao lower bound for both single- and multicomponent chirps. 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| fulltext | fulltext |
| identifier | ISSN: 0018-9251 |
| ispartof | IEEE transactions on aerospace and electronic systems, 2020-10, Vol.56 (5), p.3685-3700 |
| issn | 0018-9251 1557-9603 |
| language | eng |
| recordid | cdi_crossref_primary_10_1109_TAES_2020_2981268 |
| source | IEEE Electronic Library (IEL) Journals |
| subjects | Algorithms Asymptotic properties Chirp Chirp rate Chirp signals Computational efficiency Computing costs Domains Estimation Fourier transforms fractional fourier transform (FrFT) golden section search (GSS) linear-frequency-modulated (LFM) parameter estimation Lower bounds Parameter estimation Perturbation methods Radar radon–wigner transform Time-frequency analysis Transforms |
| title | Performance of Chirp Parameter Estimation in the Fractional Fourier Domains and an Algorithm for Fast Chirp-Rate Estimation |
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