T. Sveinsson scite author profile

Abstract-We present models for the ultrawideband (UWB) channel delay profile in indoor environments, based on the processing of two large sets of measured data. Both measurement sets are for a center frequency of 5 GHz, but the bandwidths are very different-1.25 GHz and 6 GHz. We model both line-of-sight (LOS) and nonline-of-sight (NLOS) paths, and do so for both single-family homes and commercial buildings. Also, we consider both the profile at a receiver point, which we call the multipath intensity profile (MIP), and the locally spatially averaged profile, which we call the power delay profile (PDP). For both cases, we find that the profile for NLOS paths can be modeled as a decaying exponential times a noise-like variation with lognormal statistics and that, for LOS paths, the profile has the same form plus a strong component at the minimum delay. The model consists of statistical descriptions of the parameters of these functions, including the effects of transmit-receive (T-R) distance and of variations from building to building. We show simulation results for a few cases to demonstrate that the model accurately predicts key properties of the measured channels, such as the distribution of rms delay spread.

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UWB indoor path loss model for residential and commercial buildings

Ghassemzadeh

Greenstein

Kavcic

et al. 2003

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An empirical indoor path loss model for ultra-wideband channels

et al. 2003

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UWB indoor delay profile model for residential and commercial environments

Ghassemzadeh

Greenstein

Kavcic

et al. 2003

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Coexistence of Ultra-Wideband Systems with IEEE-802.11a Wireless LANs

Bellorado

Ghassemzadeh

Greenstein

et al.

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T. Sveinsson

UWB Delay Profile Models for Residential and Commercial Indoor Environments

UWB indoor path loss model for residential and commercial buildings

An empirical indoor path loss model for ultra-wideband channels

UWB indoor delay profile model for residential and commercial environments

Coexistence of Ultra-Wideband Systems with IEEE-802.11a Wireless LANs

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