Mathematical modeling of ultra wideband in vivo radio channel

Muhammad Ilyas; Osman Nuri Ucan; Oguz Bayat; Xiaodong Yang; Qammer H. Abbasi

doi:10.1109/ACCESS.2018.2823741

Mathematical modeling of ultra wideband in vivo radio channel

Muhammad Ilyas
, Osman Nuri Ucan
, Oguz Bayat
, Xiaodong Yang
, Qammer H. Abbasi

Altinbas University
Xidian University
University of Glasgow

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

14 Scopus citations

Abstract

This paper proposes a novel mathematical model for an in vivo radio channel at ultra-wideband frequencies (3.1-10.6 GHz), which can be used as a reference model for in vivo channel response without performing intensive experiments or simulations. The statistics of error prediction between experimental and proposed model is RMSE = 5.29, which show the high accuracy of the proposed model. Also, the proposed model was applied to the blind data, and the statistics of error prediction is RMSE = 7.76, which also shows a reasonable accuracy of the model. This model will save the time and cost on simulations and experiments, and will help in designing an accurate link budget calculation for a future enhanced system for ultra-wideband body-centric wireless systems.

Original language	English
Pages (from-to)	20848-20854
Number of pages	7
Journal	IEEE Access
Volume	6
DOIs	https://doi.org/10.1109/ACCESS.2018.2823741
State	Published - 6 Apr 2018
Externally published	Yes

Keywords

Channel characterization
implants/wearable devices
in vivo channel
mathematical modeling
wireless body area networks

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10.1109/ACCESS.2018.2823741

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@article{84261eafa045411084cdebe5f978e7b9,

title = "Mathematical modeling of ultra wideband in vivo radio channel",

abstract = "This paper proposes a novel mathematical model for an in vivo radio channel at ultra-wideband frequencies (3.1-10.6 GHz), which can be used as a reference model for in vivo channel response without performing intensive experiments or simulations. The statistics of error prediction between experimental and proposed model is RMSE = 5.29, which show the high accuracy of the proposed model. Also, the proposed model was applied to the blind data, and the statistics of error prediction is RMSE = 7.76, which also shows a reasonable accuracy of the model. This model will save the time and cost on simulations and experiments, and will help in designing an accurate link budget calculation for a future enhanced system for ultra-wideband body-centric wireless systems.",

keywords = "Channel characterization, implants/wearable devices, in vivo channel, mathematical modeling, wireless body area networks",

author = "Muhammad Ilyas and Ucan, \{Osman Nuri\} and Oguz Bayat and Xiaodong Yang and Abbasi, \{Qammer H.\}",

note = "Publisher Copyright: {\textcopyright} 2013 IEEE.",

year = "2018",

month = apr,

day = "6",

doi = "10.1109/ACCESS.2018.2823741",

language = "English",

volume = "6",

pages = "20848--20854",

journal = "IEEE Access",

issn = "2169-3536",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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T1 - Mathematical modeling of ultra wideband in vivo radio channel

AU - Ilyas, Muhammad

AU - Ucan, Osman Nuri

AU - Bayat, Oguz

AU - Yang, Xiaodong

AU - Abbasi, Qammer H.

PY - 2018/4/6

Y1 - 2018/4/6

N2 - This paper proposes a novel mathematical model for an in vivo radio channel at ultra-wideband frequencies (3.1-10.6 GHz), which can be used as a reference model for in vivo channel response without performing intensive experiments or simulations. The statistics of error prediction between experimental and proposed model is RMSE = 5.29, which show the high accuracy of the proposed model. Also, the proposed model was applied to the blind data, and the statistics of error prediction is RMSE = 7.76, which also shows a reasonable accuracy of the model. This model will save the time and cost on simulations and experiments, and will help in designing an accurate link budget calculation for a future enhanced system for ultra-wideband body-centric wireless systems.

AB - This paper proposes a novel mathematical model for an in vivo radio channel at ultra-wideband frequencies (3.1-10.6 GHz), which can be used as a reference model for in vivo channel response without performing intensive experiments or simulations. The statistics of error prediction between experimental and proposed model is RMSE = 5.29, which show the high accuracy of the proposed model. Also, the proposed model was applied to the blind data, and the statistics of error prediction is RMSE = 7.76, which also shows a reasonable accuracy of the model. This model will save the time and cost on simulations and experiments, and will help in designing an accurate link budget calculation for a future enhanced system for ultra-wideband body-centric wireless systems.

KW - Channel characterization

KW - implants/wearable devices

KW - in vivo channel

KW - mathematical modeling

KW - wireless body area networks

UR - https://www.scopus.com/pages/publications/85045183675

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DO - 10.1109/ACCESS.2018.2823741

M3 - Article

AN - SCOPUS:85045183675

SN - 2169-3536

VL - 6

SP - 20848

EP - 20854

JO - IEEE Access

JF - IEEE Access

ER -

Mathematical modeling of ultra wideband in vivo radio channel

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Keywords

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