PERFORMANCE ANALYSIS OF ESPRIT-TYPE ALGORITHMS FOR NON-CIRCULAR SOURCES

被引：0

作者：

Steinwandt, Jens ^{[1
]}

Roemer, Florian ^{[2
]}

Haardt, Martin ^{[1
]}

机构：

[1] Ilmenau Univ Technol, Commun Res Lab, POB 100565, D-98684 Ilmenau, Germany

[2] Ilmenau Univ Technol, Digital Broadcasting Res Lab, D-98684 Ilmenau, Germany

来源：

2013 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH AND SIGNAL PROCESSING (ICASSP) | 2013年

关键词：

Performance analysis; Unitary ESPRIT; widely-linear processing; non-circular sources; DOA estimation; PERTURBATION ANALYSIS; DIRECTION; MUSIC; DECOMPOSITION; ARRIVAL;

D O I：

暂无

中图分类号：

O42 [声学];

学科分类号：

070206 ; 082403 ;

摘要：

High-resolution parameter estimation algorithms designed to benefit from the presence of non-circular (NC) source signals allow for an increased identifiability and a lower estimation error. In this paper, we present a 1-D first-order performance analysis of the NC standard ESPRIT and NC Unitary ESPRIT estimation schemes for strictly second-order (SO) non-circular sources, where NC Unitary ESPRIT has a lower complexity and a better performance in the low signal-to-noise ratio (SNR) regime. Our derived expressions are asymptotic in the effective SNR and explicit in the noise realizations, i.e., no assumptions about the noise statistics are necessary. As a main result, we show that the asymptotic performance of both NC ESPRIT-type algorithms is identical in the effective SNR and that NC Unitary ESPRIT is even applicable to array geometries without a centro-symmetric structure as required for Unitary ESPRIT.

引用

页码：3986 / 3990

页数：5

共 39 条

[1] R-Dimensional ESPRIT-Type Algorithms for Strictly Second-Order Non-Circular Sources and Their Performance Analysis
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
Del Galdo, Giovanni
IEEE TRANSACTIONS ON SIGNAL PROCESSING, 2014, 62 (18) : 4824 - 4838
[2] ASYMPTOTIC PERFORMANCE ANALYSIS OF ESPRIT-TYPE ALGORITHMS FOR CIRCULAR AND STRICTLY NON-CIRCULAR SOURCES WITH SPATIAL SMOOTHING
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
2014 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH AND SIGNAL PROCESSING (ICASSP), 2014,
[3] PERFORMANCE ANALYSIS OF ESPRIT-TYPE ALGORITHMS FOR STRICTLY NON-CIRCULAR SOURCES USING STRUCTURED LEAST SQUARES
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
2013 IEEE 5TH INTERNATIONAL WORKSHOP ON COMPUTATIONAL ADVANCES IN MULTI-SENSOR ADAPTIVE PROCESSING (CAMSAP 2013), 2013, : 316 - +
[4] Performance Analysis of Multi-Dimensional ESPRIT-Type Algorithms for Arbitrary and Strictly Non-Circular Sources With Spatial Smoothing
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
Del Galdo, Giovanni
IEEE TRANSACTIONS ON SIGNAL PROCESSING, 2017, 65 (09) : 2262 - 2276
[5] ANALYTICAL PERFORMANCE ASSESSMENT OF ESPRIT-TYPE ALGORITHMS FOR COEXISTING CIRCULAR AND STRICTLY NON-CIRCULAR SIGNALS
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
2016 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH AND SIGNAL PROCESSING PROCEEDINGS, 2016, : 2931 - 2935
[6] ESPRIT-TYPE ALGORITHMS FOR A RECEIVED MIXTURE OF CIRCULAR AND STRICTLY NON-CIRCULAR SIGNALS
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
2015 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH, AND SIGNAL PROCESSING (ICASSP), 2015, : 2809 - 2813
[7] Performance Analysis of ESPRIT-Type Algorithms for Co-Array Structures
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
2017 IEEE 7TH INTERNATIONAL WORKSHOP ON COMPUTATIONAL ADVANCES IN MULTI-SENSOR ADAPTIVE PROCESSING (CAMSAP), 2017,
[8] Two-Step Spherical Harmonics ESPRIT-Type Algorithms and Performance Analysis
Huang, Qinghua
Zhang, Lin
Fang, Yong
IEEE-ACM TRANSACTIONS ON AUDIO SPEECH AND LANGUAGE PROCESSING, 2018, 26 (09) : 1684 - 1697
[9] Analytical ESPRIT-Based Performance Study: What Can We Gain From Non-Circular Sources?
Steinwandt, Jens
Roemer, Florian
Haardt, Martin
2014 IEEE 8TH SENSOR ARRAY AND MULTICHANNEL SIGNAL PROCESSING WORKSHOP (SAM), 2014, : 17 - 20
[10] Extended Transformed Nested Arrays for DOA Estimation of Non-Circular Sources
Peng, Zhe
Ding, Yingtao
Ren, Shiwei
Wang, Xiaohua
IEEE ACCESS, 2020, 8 (08): : 162350 - 162362

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