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15 July 2002 Unitary geometry numerical modeling for wireless communication diversity schemes
Bruno R. Andriamanalimanana
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Proceedings Volume 4716, Enabling Technologies for Simulation Science VI; (2002) https://doi.org/10.1117/12.474941
Event: AeroSense 2002, 2002, Orlando, FL, United States
Abstract
Antenna diversity promises to provide high data rates with low error probabilities in wireless communication. An important step for realizing these promises centers around the design of efficient space-time codes for multiple-antenna links. The case of mobile communication is particularly challenging. The use of complex representations of finite algebraic groups has recently been shown by some researchers to be a promising avenue for the design of space-time codes. This paper provides some background on the interplay between group representation theory and wireless communication. Then, it examines the potential contributions of finite groups of Lie type and finite unitary geometry to space-time coding. Java technologies are used for the implementation of our numerical experimentation platform.
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Bruno R. Andriamanalimanana "Unitary geometry numerical modeling for wireless communication diversity schemes", Proc. SPIE 4716, Enabling Technologies for Simulation Science VI, (15 July 2002); https://doi.org/10.1117/12.474941
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KEYWORDS
Matrices
Antennas
Wireless communications
Java
Spherical lenses
Receivers
Signal to noise ratio
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