A new statistical wideband spatio-temporal channel model for 5-GHz band WLAN systems

A new statistical wideband spatio-temporal channel model for 5-GHz band WLAN systems

In this paper, a new statistical wideband indoor channel model which incorporates both the clustering of multipath components (MPCs) and the correlation between the spatial and temporal domains is proposed. The model is derived based on measurement data collected at a carrier frequency of 5.2 GHz in...

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Veröffentlicht in:IEEE journal on selected areas in communications 2003-02, Vol.21 (2), p.139-150
Hauptverfasser: Chia-Chin Chong, Chor-Min Tan, Laurenson, D.I., McLaughlin, S., Beach, M.A., Nix, A.R.
Format: Artikel
Sprache:eng
Schlagworte:
Antenna measurements
Channels
Clustering
Clustering algorithms
Clusters
Correlation
Density
Frequency domain analysis
Frequency estimation
Frequency measurement
Mathematical models
Parameter estimation
Performance analysis
Probability density functions
Spatial resolution
Studies
Wideband
Wireless LAN
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container_end_page 150
container_issue 2
container_start_page 139
container_title IEEE journal on selected areas in communications
container_volume 21
creator Chia-Chin Chong
Chor-Min Tan
Laurenson, D.I.
McLaughlin, S.
Beach, M.A.
Nix, A.R.
description In this paper, a new statistical wideband indoor channel model which incorporates both the clustering of multipath components (MPCs) and the correlation between the spatial and temporal domains is proposed. The model is derived based on measurement data collected at a carrier frequency of 5.2 GHz in three different indoor scenarios and is suitable for performance analysis of HIPERLAN/2 and IEEE 802.11a systems that employ smart antenna architectures. MPC parameters are estimated using the super-resolution frequency domain space-alternating generalized expectation maximization (FD-SAGE) algorithm and clusters are identified in the spatio-temporal domain by a nonparametric density estimation procedure. The description of the clustering observed within the channel relies on two classes of parameters, namely, intercluster and intracluster parameters which characterize the cluster and MPC, respectively. All parameters are described by a set of empirical probability density functions (pdfs) derived from the measured data. The correlation properties are incorporated in two joint pdfs for cluster and MPC positions, respectively. The clustering effect also gives rise to two classes of channel power density spectra (PDS)-intercluster and intracluster PDS-which are shown to exhibit exponential and Laplacian functions in the delay and angular domains, respectively. Finally, the model validity is confirmed by comparison with two existing models reported in the literature.
doi_str_mv 10.1109/JSAC.2002.807347
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The clustering effect also gives rise to two classes of channel power density spectra (PDS)-intercluster and intracluster PDS-which are shown to exhibit exponential and Laplacian functions in the delay and angular domains, respectively. 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subjects Antenna measurements
Channels
Clustering
Clustering algorithms
Clusters
Correlation
Density
Frequency domain analysis
Frequency estimation
Frequency measurement
Mathematical models
Parameter estimation
Performance analysis
Probability density functions
Spatial resolution
Studies
Wideband
Wireless LAN
title A new statistical wideband spatio-temporal channel model for 5-GHz band WLAN systems
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