Extending coprime sensor arrays to achieve the peak side lobe height of a full uniform linear array

被引:0
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作者
Kaushallya Adhikari
John R. Buck
Kathleen E. Wage
机构
[1] University of Massachusetts Dartmouth,Electrical and Computer Engineering Department
[2] George Mason University,Electrical and Computer Engineering Department
来源
EURASIP Journal on Advances in Signal Processing | / 2014卷
关键词
Array tapers; Coprime sensor array; Dolph-Chebyshev; Hamming; Hann; Non-uniform linear arrays; Shading;
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摘要
A coprime sensor array (CSA) is a non-uniform linear array obtained by interleaving two uniform linear arrays (ULAs) that are undersampled by coprime factors. A CSA provides the resolution of a fully populated ULA of the same aperture using fewer sensors. However, the peak side lobe level in a CSA is higher than the peak side lobe of the equivalent full ULA with the same resolution. Adding more sensors to a CSA can reduce its peak side lobe level. This paper derives analytical expressions for the number of extra sensors to be added to a CSA to guarantee that the CSA peak side lobe height is less than that of the full ULA with the same aperture. The analytical expressions are derived and compared for the uniform, Hann, Hamming, and Dolph-Chebyshev shadings.
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    Singh, S. P.
    [J]. 2017 IEEE INTERNATIONAL CONFERENCE ON ANTENNA INNOVATIONS & MODERN TECHNOLOGIES FOR GROUND, AIRCRAFT AND SATELLITE APPLICATIONS (IAIM), 2017,
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    [J]. JOURNAL OF SCIENTIFIC & INDUSTRIAL RESEARCH, 2020, 79 (04): : 312 - 314
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    Bae, JH
    Kim, KT
    Lee, JH
    Kim, HT
    Choi, JI
    [J]. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 2003, 36 (05) : 363 - 367
  • [8] Design of steerable linear and planar array geometry with non-uniform spacing for side-lobe reduction
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    [J]. IEICE TRANSACTIONS ON COMMUNICATIONS, 2005, E88B (01) : 345 - 357
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    Hardel, Gopi Ram
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    [J]. SWARM, EVOLUTIONARY, AND MEMETIC COMPUTING, (SEMCCO 2012), 2012, 7677 : 451 - 458
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