Diagonally loaded SMI algorithm based on inverse matrix recursion 被引量：7

Diagonally loaded SMI algorithm based on inverse matrix recursion

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摘要 The derivation of a diagonally loaded sample-matrix inversion （LSMI） algorithm on the busis of inverse matrix recursion （i.e.LSMI-IMR algorithm） is conducted by reconstructing the recursive formulation of covariance matrix. For the new algorithm, diagonal loading is by setting initial inverse matrix without any addition of computation. In addition, a corresponding improved recursive algorithm is presented, which is low computational complexity. This eliminates the complex multiplications of the scalar coefficient and updating matrix, resulting in significant computational savings. Simulations show that the LSMI-IMR algorithm is valid. The derivation of a diagonally loaded sample-matrix inversion （LSMI） algorithm on the busis of inverse matrix recursion （i.e.LSMI-IMR algorithm） is conducted by reconstructing the recursive formulation of covariance matrix. For the new algorithm, diagonal loading is by setting initial inverse matrix without any addition of computation. In addition, a corresponding improved recursive algorithm is presented, which is low computational complexity. This eliminates the complex multiplications of the scalar coefficient and updating matrix, resulting in significant computational savings. Simulations show that the LSMI-IMR algorithm is valid.

作者 Cao Jianshu Wang Xuegang

机构地区 Coll. of Electronic Engineering

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2007年第1期160-163,共4页 系统工程与电子技术（英文版）

关键词 Robust adaptive beamforming Space-time adaptive processing （STAP） Diagonal loading Inverse matrix recursion Robust adaptive beamforming, Space-time adaptive processing （STAP）, Diagonal loading, Inverse matrix recursion

分类号 TP13 [自动化与计算机技术—控制理论与控制工程]

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Diagonally loaded SMI algorithm based on inverse matrix recursion 被引量：7

参考文献10

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