Statistical characteristics of an ensemble of ultrawideband communications channels under the conditions of multipath signal propagation in rooms

The estimates of data rates in the ultrawideband direct chaotic scheme of data transmission in rooms, which can be achieved at a specified level of error probability under the conditions of multipath signal propagation in wireless communications networks, are presented. The estimates have been obtai...

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Bibliographic Details
Published in:Journal of communications technology & electronics 2009-03, Vol.54 (3), p.313-322
Main Authors: Kuz’min, L. V., Morozov, V. A.
Format: Article
Language:English
Subjects:
Approximation
Codes
Communications Engineering
Communications networks
Communications systems
Communications technology
Data transmission
Dynamic Chaos in Radiophysics and Electronics
Energy
Engineering
Estimates
Networks
Noise
Propagation
Receivers & amplifiers
Statistical analysis
Studies
Wireless communications
Wireless networks
Working groups
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Summary:The estimates of data rates in the ultrawideband direct chaotic scheme of data transmission in rooms, which can be achieved at a specified level of error probability under the conditions of multipath signal propagation in wireless communications networks, are presented. The estimates have been obtained via direct numerical simulation of energy reception of chaotic signals at the output of communications channels. The channel impulse responses were formed according to the statistical model developed by the IEEE 802.15 working group for indoor applications. In the approximation of a dominant reverberation interference (multipath propagation), the portion of channels making it possible to transmit data with rates from 10 to 50 Mb/s and the practically important error probability ( P b ∼ 10 −5 −10 −4 ) is determined for the chaotic signal bandwidths Δ f = 500 and 2000 MHz. It have been first revealed that, in the given ensemble of channels, the small portion of channels (5–20%) with high levels of error probability P b substantially affects the dependence of the error probability averaged over the given type of channels ( ( R )) on the transmission rate. It has been demonstrated that quantity ( R ) is the practically important characteristic of noise immunity for the significant portion (∼80–95%) of channels of the given type.
ISSN:1064-2269
1555-6557
DOI:10.1134/S1064226909030097