Indoor radio channel characterization and modeling for a 5.2-GHz body worn receiver

K. I. Ziri-Castro; W. G. Scanlon; N. E. Evans

doi:10.1109/LAWP.2004.836119

Indoor radio channel characterization and modeling for a 5.2-GHz body worn receiver

K. I. Ziri-Castro
, W. G. Scanlon
, N. E. Evans

Research output: Contribution to journal › Article › peer-review

Abstract

Wireless local area network applications may include the use of body worn or handportable terminals. For the first time, this paper compares measurements and simulations of a narrowband 5.2-GHz radio channel incorporating a fixed transmitter and a mobile bodyworn receiver. Two indoor environments were considered, an 18-m long corridor and a 42-m² office. The modeling technique was a site-specific ray-tracing simulator incorporating the radiation pattern of the bodyworn receiver. In the corridor, the measured body-shadowing effect was 5.4 dB, while it was 15.7 dB in the office. First- and second-order small-scale fading statistics for the measured and simulated results are presented and compared with theoretical Rayleigh and lognormal distributions. The root mean square error in the cumulative distributions for the simulated results was less than 0.74% for line-of-sight conditions and less than 1.4% for nonline-of-sight conditions.

Original language	English
Pages (from-to)	219-222
Number of pages	4
Journal	IEEE Antennas and Wireless Propagation Letters
Volume	3
Issue number	1
DOIs	https://doi.org/10.1109/LAWP.2004.836119
Publication status	Published - Dec 2004
Externally published	Yes

Keywords

Bodyworn antennas
Channel characterization
Finite-difference time-domain (FDTD)
Radio propagation
Ray tracing

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10.1109/LAWP.2004.836119

Cite this

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title = "Indoor radio channel characterization and modeling for a 5.2-GHz body worn receiver",

abstract = "Wireless local area network applications may include the use of body worn or handportable terminals. For the first time, this paper compares measurements and simulations of a narrowband 5.2-GHz radio channel incorporating a fixed transmitter and a mobile bodyworn receiver. Two indoor environments were considered, an 18-m long corridor and a 42-m2 office. The modeling technique was a site-specific ray-tracing simulator incorporating the radiation pattern of the bodyworn receiver. In the corridor, the measured body-shadowing effect was 5.4 dB, while it was 15.7 dB in the office. First- and second-order small-scale fading statistics for the measured and simulated results are presented and compared with theoretical Rayleigh and lognormal distributions. The root mean square error in the cumulative distributions for the simulated results was less than 0.74\% for line-of-sight conditions and less than 1.4\% for nonline-of-sight conditions.",

keywords = "Bodyworn antennas, Channel characterization, Finite-difference time-domain (FDTD), Radio propagation, Ray tracing",

author = "Ziri-Castro, \{K. I.\} and Scanlon, \{W. G.\} and Evans, \{N. E.\}",

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AU - Ziri-Castro, K. I.

AU - Scanlon, W. G.

AU - Evans, N. E.

PY - 2004/12

Y1 - 2004/12

N2 - Wireless local area network applications may include the use of body worn or handportable terminals. For the first time, this paper compares measurements and simulations of a narrowband 5.2-GHz radio channel incorporating a fixed transmitter and a mobile bodyworn receiver. Two indoor environments were considered, an 18-m long corridor and a 42-m2 office. The modeling technique was a site-specific ray-tracing simulator incorporating the radiation pattern of the bodyworn receiver. In the corridor, the measured body-shadowing effect was 5.4 dB, while it was 15.7 dB in the office. First- and second-order small-scale fading statistics for the measured and simulated results are presented and compared with theoretical Rayleigh and lognormal distributions. The root mean square error in the cumulative distributions for the simulated results was less than 0.74% for line-of-sight conditions and less than 1.4% for nonline-of-sight conditions.

AB - Wireless local area network applications may include the use of body worn or handportable terminals. For the first time, this paper compares measurements and simulations of a narrowband 5.2-GHz radio channel incorporating a fixed transmitter and a mobile bodyworn receiver. Two indoor environments were considered, an 18-m long corridor and a 42-m2 office. The modeling technique was a site-specific ray-tracing simulator incorporating the radiation pattern of the bodyworn receiver. In the corridor, the measured body-shadowing effect was 5.4 dB, while it was 15.7 dB in the office. First- and second-order small-scale fading statistics for the measured and simulated results are presented and compared with theoretical Rayleigh and lognormal distributions. The root mean square error in the cumulative distributions for the simulated results was less than 0.74% for line-of-sight conditions and less than 1.4% for nonline-of-sight conditions.

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KW - Radio propagation

KW - Ray tracing

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Indoor radio channel characterization and modeling for a 5.2-GHz body worn receiver

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Keywords

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