DocumentCode
25890
Title
Deterministic and Experimental Indoor mmW Channel Modeling
Author
Martinez-Ingles, Maria-Teresa ; Gaillot, Davy P. ; Pascual-Garcia, Juan ; Molina-Garcia-Pardo, Jose-Maria ; Lienard, Martine ; Rodriguez, Jose-Victor
Author_Institution
Dept. Tecnol. de la Informacion y las Comun., Univ. Politec. de Cartagena, Murcia, Spain
Volume
13
fYear
2014
fDate
2014
Firstpage
1047
Lastpage
1050
Abstract
This letter presents an extensive multidimensional analysis of line-of-sight (LOS) experimental data and simulations at 60 GHz over a 9-GHz bandwidth. Numerical versions of the measured multiple-input-multiple-output (MIMO) channel transfer functions were obtained with a ray-tracing engine that includes single-order diffuse scattering. The received power, RMS delay spread (DS), and maximum excess delay (MED) computed from both measured and simulated data indicate that diffuse scattering improves ray-tracing-based modeling. Moreover, the multipath components (MPCs) extracted from both sets of data using the high-resolution estimator RiMAX were statistically compared. The analysis of the results shows that even a raw description of the environment can be used to predict millimeter-wave (mmW) propagation with ray tracing.
Keywords
MIMO communication; electromagnetic wave scattering; millimetre wave propagation; multipath channels; numerical analysis; ray tracing; wireless channels; DS; LOS experimental data; MED; MIMO channel transfer function; MPC extraction; RMS delay spread; extensive multidimensional analysis; frequency 60 GHz; high-resolution estimator RiMAX; indoor mmW channel modeling; line-of-sight experimental data; maximum excess delay; millimeter-wave propagation; mmW propagation; multipath component extraction; multiple-input-multiple-output channel transfer function; ray-tracing-based modeling; single-order diffuse scattering; Antenna measurements; Bandwidth; Computational modeling; Data models; Delays; Power measurement; Scattering; Channel modeling; RiMAX; millimeter-wave (mmW); ray tracing;
fLanguage
English
Journal_Title
Antennas and Wireless Propagation Letters, IEEE
Publisher
ieee
ISSN
1536-1225
Type
jour
DOI
10.1109/LAWP.2014.2327054
Filename
6823110
Link To Document