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Journal Nonlinear World №11 for 2013 г.
Article in number:
Application of modern spatiotemporal multi-channel signal transmission and reception methods and algorithms for efficiency increase of informational radio-systems
Keywords: signal detector multichannel radio-system information transmission channel fractals
Authors:
M.N. Andrianov - Ph.D. (Eng.), Senior Research Scientist, Kotel'nikov Institute of Radioengineering and Electronics (IRE) of Russian Academy of Sciences, Moscow. E-mail: mihail-andrian@mail.ru
A.A. Potapov - Dr.Sc. (Phys.-Math.), Professor, Academician of RAES named by A.M. Prokhorov and RANS, Chief Research Scientist, Kotel'nikov Institute of Radioengineering and Electronics (IRE) of Russian Academy of Sciences, Moscow
Abstract:
The spatiotemporal diversity for a transmitter is increasing linearly information transmitting system throughput while diversity for a receiver enlarges the throughput logarithmically enlarging the signal-to-noise ratio. Spatiotemporal coding allows to high increase of information transmitting reliability under fading, provides high quality of information transmission by diversity gain, above all with latticed codes using. However the spatiotemporal codes don-t makes possible the significant increase of data transmission speed unlike the spatial multiplexing algorithms. Consideration given to key problems and questions arising in use of high-speed spatial multi-channel MIMO systems with spatially distributed receiving antennas and transmitting antennas. Transmission channels spectral efficiency (throughput) increasing methods are presented and conclusion is given about applicability of fractal-scaling signal processing methods, corresponding algorithms and fractal detectors technology in all the stages of new generation informational MIMO systems synthesis.
Pages: 759-770
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