Open AccessArray self‐calibration for sky‐wave over‐the‐horizon radar with gain‐phase errors
Author(s) -
Zhang Baiqiang,
Xie Junhao
Publication year - 2019
Publication title -
the journal of engineering
Language(s) - English
Resource type - Journals
ISSN - 2051-3305
DOI - 10.1049/joe.2019.0228
Subject(s) - computer science , calibration , phase (matter) , over the horizon radar , radar , disjoint sets , sky , meteor (satellite) , algorithm , interval (graph theory) , horizon , echo (communications protocol) , remote sensing , optics , physics , mathematics , telecommunications , geology , statistics , quantum mechanics , astronomy , meteorology , computer network , combinatorics , astrophysics
This study proposes a novel algorithm for sky‐wave over‐the‐horizon (OTH) radar array self‐calibration with angle‐independent gain‐phase errors. The proposed method exploits backscattered echo from an ionised meteor trail, which can be considered as disjoint sources of opportunity for their spatial and temporal fluctuations during coherent processing interval (CPI). Moreover, this novel self‐calibration algorithm can non‐iteratively and jointly estimate the gain‐phase errors as well as the directions of arrival (DOA) of all the echoes even in large array errors. Simulations illustrate the good performance and efficiency of the method.