EFFICIENT RANGE ALIGNMENT ALGORITHM FOR REAL-TIME RANGE-DOPPLER ALGORITHM | Zendy

JooHo Jung | Zendy; Si-Ho Kim | Zendy; JiHoon Bae | Zendy; KyungTae Kim | Zendy; SangHong Park | Zendy

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EFFICIENT RANGE ALIGNMENT ALGORITHM FOR REAL-TIME RANGE-DOPPLER ALGORITHM

Author(s) -

JooHo Jung,

Si-Ho Kim,

JiHoon Bae,

KyungTae Kim,

SangHong Park

Publication year - 2017

Publication title -

progress in electromagnetics research c

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.341

H-Index - 34

ISSN - 1937-8718

DOI - 10.2528/pierc17090103

Subject(s) - algorithm , range (aeronautics) , computer science , doppler effect , engineering , physics , aerospace engineering , astronomy

When deriving a range-Doppler image or a time-frequency image of a fast-maneuvering target at long range, existing range alignment methods yield poor results due to the large numbers of range profiles (RPs) and range bins that are required for this task. This paper proposes a threestep range alignment method to overcome the problems of these existing methods and to yield focused images: (1) coarse alignment using the interpolated center of mass of each RP, (2) fine alignment with an integer step using an entropy cost function, and (3) fine-tuning using particle swarm optimization. Compared to existing methods, the proposed method is computationally more efficient and provides better image focus.

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