DocumentCode
993310
Title
Modeling of wide-band MIMO radio channels based on NLoS indoor measurements
Author
Yu, Kai ; Bengtsson, Mats ; Ottersten, Björn ; McNamara, Darren ; Karlsson, Peter ; Beach, Mark
Author_Institution
Dept. of Signals, R. Inst. of Technol., Stockholm, Sweden
Volume
53
Issue
3
fYear
2004
fDate
5/1/2004 12:00:00 AM
Firstpage
655
Lastpage
665
Abstract
In this paper, we first verify a previously proposed Kronecker-structure-based narrow-band model for nonline-of-sight (NLoS) indoor multiple-input-multiple-output (MIMO) radio channels based on 5.2-GHz indoor MIMO channel measurements. It is observed that, for the narrow-band case, the measured channel coefficients are complex Gaussian distributed and, consequently, we focus on a statistical description using the first- and second-order moments of MIMO radio channels. It is shown that the MIMO channel covariance matrix can be well approximated by the Kronecker product of the covariance matrices, seen from the transmitter and receiver, respectively. A narrow-band model for NLoS indoor MIMO channels is thus verified by these results. As for the wide-band case, it is observed that the average power-delay profile of each element of the channel impulse response matrix fits the exponential decay curve and that the Kronecker structure of the second-order moments can be extended to each channel tap. A wide-band MIMO channel model is then proposed, combining a simple COST 259 single-input-single-output channel model and the Kronecker structure. Monte Carlo simulations are used to generate indoor MIMO channel realizations according to the models discussed. The results are compared with the measured data using the channel capacity and good agreement is found.
Keywords
Gaussian distribution; MIMO systems; Monte Carlo methods; antenna arrays; channel capacity; covariance matrices; indoor radio; multipath channels; Gaussian distribution; Kronecker product; Kronecker structure; Kronecker-structure based narrowband model; Monte Carlo simulations; NLoS indoor measurements; antenna arrays; channel capacity; covariance matrix; exponential decay curve; impulse-response matrix; multipath channels; multiple-input multiple-output channels; nonline-of-sight; power-delay profile; receiver; single-input single-output channel model; transmitter; wideband MIMO radio channels; Antenna measurements; Block codes; Broadband antennas; Channel capacity; Covariance matrix; MIMO; Narrowband; Radio transmitters; Receivers; Wideband; Antenna arrays; MIMO; channel capacity; channel modeling; channels; measured channel data; multipath channels; multiple-input–multiple-output;
fLanguage
English
Journal_Title
Vehicular Technology, IEEE Transactions on
Publisher
ieee
ISSN
0018-9545
Type
jour
DOI
10.1109/TVT.2004.827164
Filename
1300860
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