Statistical Modeling of Scenario-Based Indoor WBAN Channels
This article presents a parametric statistical path loss (PL) model for wireless body area network (WBAN) communications in the context of a scenario-based approach for indoor environments. One of the specificities of WBANs is their numerous sources of variability (subject motion and morphology, ant...
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| Published in | IEEE transactions on antennas and propagation Vol. 72; no. 8; pp. 6549 - 6560 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.08.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Institute of Electrical and Electronics Engineers |
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| Online Access | Get full text |
| ISSN | 0018-926X 1558-2221 1558-2221 |
| DOI | 10.1109/TAP.2024.3421369 |
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| Abstract | This article presents a parametric statistical path loss (PL) model for wireless body area network (WBAN) communications in the context of a scenario-based approach for indoor environments. One of the specificities of WBANs is their numerous sources of variability (subject motion and morphology, antennas, local environment, and so on). We focus here on the influence of the environment, in the case of empty rooms. The model, developed for the first ultra wide band (UWB) sub-band (<inline-formula> <tex-math notation="LaTeX">B = </tex-math></inline-formula> [3.1, 4.8] GHz), takes into account the sizes of the rooms (assumed to be parallelepipedic and empty) and the wall characteristics (via an average reflectivity coefficient). They also involve an elaborate categorization of environments. The following methodology was implemented, to avoid time-consuming and complex experimental campaigns while still having a relatively representative and sufficient number of statistical samples: first, a simplified ray tracing (RT) code enabled a large number of different rooms to be sampled at moderate computational cost; second, part of these simulations was supported by anechoic chamber measurements; and third, the simulations were carried out using elaborate experimental designs (EDs), based on a categorization of environments and a fairly comprehensive study of building industry data. The parametric PL models obtained significantly reduce their variance. |
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| AbstractList | This article presents a parametric statistical path loss (PL) model for wireless body area network (WBAN) communications in the context of a scenario-based approach for indoor environments. One of the specificities of WBANs is their numerous sources of variability (subject motion and morphology, antennas, local environment, and so on). We focus here on the influence of the environment, in the case of empty rooms. The model, developed for the first ultra wide band (UWB) sub-band (<inline-formula> <tex-math notation="LaTeX">B = </tex-math></inline-formula> [3.1, 4.8] GHz), takes into account the sizes of the rooms (assumed to be parallelepipedic and empty) and the wall characteristics (via an average reflectivity coefficient). They also involve an elaborate categorization of environments. The following methodology was implemented, to avoid time-consuming and complex experimental campaigns while still having a relatively representative and sufficient number of statistical samples: first, a simplified ray tracing (RT) code enabled a large number of different rooms to be sampled at moderate computational cost; second, part of these simulations was supported by anechoic chamber measurements; and third, the simulations were carried out using elaborate experimental designs (EDs), based on a categorization of environments and a fairly comprehensive study of building industry data. The parametric PL models obtained significantly reduce their variance. This article presents a parametric statistical path loss (PL) model for wireless body area network (WBAN) communications in the context of a scenario-based approach for indoor environments. One of the specificities of WBANs is their numerous sources of variability (subject motion and morphology, antennas, local environment, and so on). We focus here on the influence of the environment, in the case of empty rooms. The model, developed for the first ultra wide band (UWB) sub-band ([Formula Omitted] [3.1, 4.8] GHz), takes into account the sizes of the rooms (assumed to be parallelepipedic and empty) and the wall characteristics (via an average reflectivity coefficient). They also involve an elaborate categorization of environments. The following methodology was implemented, to avoid time-consuming and complex experimental campaigns while still having a relatively representative and sufficient number of statistical samples: first, a simplified ray tracing (RT) code enabled a large number of different rooms to be sampled at moderate computational cost; second, part of these simulations was supported by anechoic chamber measurements; and third, the simulations were carried out using elaborate experimental designs (EDs), based on a categorization of environments and a fairly comprehensive study of building industry data. The parametric PL models obtained significantly reduce their variance. This article presents a parametric statistical path loss model for Wireless Body Area Network (WBAN) communications in the context of a scenario based approach for indoor environments. One of the specificities of WBANs is their numerous sources of variability (subject motion and morphology, antennas, local environment, etc.). We focus here on the influence of the environment, in the case of empty rooms. The model, developed for the first ultra wide band (UWB) sub-band (B = [3.1, 4.8] GHz), takes into account the sizes of the rooms (assumed to be parallelepipedic and empty) and the wall characteristics (via an average reflectivity coefficient). They also involve an elaborate categorization of environments. The following methodology was implemented, in order to avoid time-consuming and complex experimental campaigns while still having a relatively representative and sufficient number of statistical samples: firstly, a simplified ray tracing code enabled a large number of different rooms to be sampled at moderate computational cost; secondly, part of these simulations was supported by anechoic chamber measurements; and thirdly, the simulations were carried out using elaborate experimental designs, based on a categorization of environments and a fairly comprehensive study of building industry data. The parametric path loss models obtained significantly reduce their variance. |
| Author | Roblin, Christophe Sibille, Alain Youssef, Badre |
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| Keywords | Wireless communication Surface waves ray tracing (RT) wireless body area network (WBAN) channel Computational modeling Body area networks Radio links statistical modeling Reflection experimental design (ED) Antennas indoor on-body channel |
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| References | ref13 ref35 ref34 ref15 ref14 (ref23) 2002 Sagnard (ref27) 2006 ref11 ref33 ref10 ref2 ref1 ref17 ref19 ref18 (ref24) 1985 Roblin (ref9) (ref22) 2024 (ref12) 2002 Giri (ref26) 2013 (ref29) 2021 ref25 ref20 ref21 Wilson (ref28) 2002 ref7 Sklar (ref31) 1959; 8 ref4 ref3 ref6 Kang (ref8) 2008 Youssef (ref16) (ref32) 2015 Molisch (ref5) 2005 Gradshteyn (ref30) 2007 |
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| SubjectTerms | Anechoic chambers Antennas Body area networks Classification Computational efficiency Computational modeling Construction industry Electromagnetism Engineering Sciences experimental design (ED) Indoor environments indoor on-body channel Radio links Ray tracing ray tracing (RT) Reflection Statistical analysis statistical modeling Statistical models Surface waves wireless body area network (WBAN) channel Wireless communication |
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| Title | Statistical Modeling of Scenario-Based Indoor WBAN Channels |
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