DocumentCode
3023583
Title
Green´s Function Estimation in Homogeneous and Scattering Medium for Time Reversal Signal Processing (TRSP) Communication
Author
Quy Nguyen Dinh ; Woon-Seng Gan
fYear
2007
fDate
1-5 July 2007
Firstpage
20
Lastpage
20
Abstract
Time reversal signal processing (TRSP) is a new approach to mitigate the multiple path (multipath) interference in reverberation environment. TRSP has smaller computation resource than classical equalization since TRSP uses phase conjugation technique for compensating distortion. Thus, TRSP technique is applied in receiver for enhancing transmitted code information sequence in communication systems in a highly reverberant environment. The time reversal (TR) operation can be performed either on transmission or reception using estimated Green´s function that is spatio-temporal channel response. Thus, Green´s function estimation is the first step to set up TR communication. In this paper, Green´s function estimation is proposed in homogeneous and scattering medium to establish the feasibility of TRSP in communication. The proposed system can estimate Green´s function with minimal computation and better accuracy.
Keywords
Green´s function methods; estimation theory; optical phase conjugation; reverberation; signal processing; Green function estimation; code information sequence; communication systems; compensating distortion; homogeneous medium; multipath interference; phase conjugation; reverberation environment; scattering medium; spatio-temporal channel response; time reversal signal processing communication; Acoustic scattering; Adaptive signal processing; Communication channels; Green´s function methods; Interference; Matched filters; Phase distortion; Reverberation; Signal processing; Transmitters; Green´s function; homogeneous; scattering; time reversal communication; time reversal receiver; time reversal signal processing;
fLanguage
English
Publisher
ieee
Conference_Titel
Digital Telecommunications, 2007. ICDT '07. Second International Conference on
Conference_Location
San Jose, CA
Print_ISBN
0-7695-2910-0
Electronic_ISBN
0-7695-2910-0
Type
conf
DOI
10.1109/ICDT.2007.56
Filename
4270586
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