Direct solution for fixed source location using well-posed TDOA and FDOA measurements 被引量：6

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摘要 Based on the time differences of arrival(TDOA) and frequency differences of arrival(FDOA) measurements of the given planar stationary radiation source, the joint TDOA/FDOA location algorithm which solves the location of the target directly is proposed. Compared with weighted least squares(WLS) methods,the proposed algorithm is also suitable for well-posed conditions,and gets rid of the dependence on the constraints of Earth's surface. First of all, the solution formulas are expressed by the radial range. Then substitute it into the equation of the radial range to figure out the radial range between the target and the reference station. Finally use the solution expression of the target location to estimate the location of the target accurately. The proposed algorithm solves the problem that WLS methods have a large positioning error when the number of observation stations is not over-determined. Simulation results show the effectiveness of the proposed algorithm, including effectively increasing the positioning accuracy and reducing the number of observatories.

作者 LIU Congfeng YUN Jinwei SU Juan

机构地区 Research Institute of Electronic Countermeasure

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2020年第4期666-673,共8页 系统工程与电子技术（英文版）

基金 supported by the National Natural Science Foundation of China(61402365 61271300) the 13th Five-Year Weaponry PreResearch Project。

关键词 passive location joint time differences of arrival/frequency differences of arrival(TDOA/FDOA)location direct solution stationary emitter well-posed equations

分类号 TN95 [电子电信—信号与信息处理]

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2020年第4期

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