Performance evaluation of combined methods for the estimation of fading coefficients of uncorrelated signal sources in multipath propagation
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Date
2014
Authors
Ahmad Aminu
Mustafa Seçmen
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Electrical and Electronics Engineers Inc.
Open Access Color
Green Open Access
Yes
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Publicly Funded
No
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Abstract
In this study we consider the challenge of estimation of fading coefficients for uncorrelated sources in the presence of multipath propagation. The combination of Joint Approximate Diagonalization of Eigenmatrices (JADE) and some well-known high-resolution algorithms such as Multiple Signal Classification (MUSIC) Minimum norm (Min-norm) and Modified Forward Backward Linear Prediction (MFBLP) are utilized to estimate the fading coefficients of a challenging environment containing many correlated signals. The results are compared with Estimation of Signal Parameters by Rotational Invariance Techniques (ESPRIT) based method in the literature. Several independent trials are performed and it is shown that the combined method of JADE and MFBLP has satisfactory fading coefficient performance even at very low signal-to-noise (SNR) levels and low number of antenna elements and data sample. © 2021 Elsevier B.V. All rights reserved.
Description
Keywords
Correlated Signals, Direction Of Arrival, Fading Coefficients, Multipath Propagation, Antennas, Computer Music, Direction Of Arrival, Multipath Propagation, Signal To Noise Ratio, Silicate Minerals, Correlated Signals, Fading Coefficients, Forward Backward Linear Predictions, High Resolution Algorithm, Joint Approximate Diagonalization Of Eigen-matrices, Multiple Signal Classification, Rotational Invariance Techniques (esprit), Uncorrelated Sources, Signal Analysis, Antennas, Computer music, Direction of arrival, Multipath propagation, Signal to noise ratio, Silicate minerals, Correlated signals, Fading coefficients, Forward backward linear predictions, High resolution algorithm, Joint approximate diagonalization of eigen-matrices, Multiple signal classification, Rotational invariance techniques (ESPRIT), Uncorrelated sources, Signal analysis
Fields of Science
0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
Citation
WoS Q
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OpenCitations Citation Count
2
Source
11th International Conference on Electronics Computer and Computation ICECCO 2014
Volume
Issue
Start Page
1
End Page
4
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Scopus : 2
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