Numerical Dosimetric Assessment using the FDTD Method

Research output: Contribution to journalConference articleResearchpeer review

Authors

  • D. Manteuffel
  • F. Gustrau
  • W. Simon

External Research Organisations

  • IMST GmbH
View graph of relations

Details

Original languageEnglish
Pages (from-to)237-240
Number of pages4
JournalITG-Fachbericht
Issue number178
Publication statusPublished - 2003
Externally publishedYes
EventINICA 2003: International ITG-Conference on Antennas - Berlin, Germany
Duration: 17 Sept 200319 Sept 2003

Abstract

Different European and international standards (e.g. ICNIRP guidelines, ANSI C95.1 standard, European Council Recommendation) define basic restrictions and reference levels for human safety in electromagnetic fields. In order to check compliance between electronic equipment and basic restrictions in human safety standards additional standards exist that specify more detailed requirements for the testing. Most of these standards are based on measurements, e.g. the European standard EN 50361 for safety of mobile phones. However there is a growing number of standards that specify requirements for numerical methods, e.g. the European standard EN 50357 for devices used in radio-frequency identification, electronic article surveillance and similar applications. This paper lists today's possibilities and limitations in numerical dosimetric assessment by showing a variety of applications. Since numerical dosimetric assessment can be used is a very early stage of development the examples are not limited to strict compliance testing but also to get a better insight in physical phenomena such as coupling mechanisms between the electronic device and the user. Special attention is given to the validation of the software and the phantom models of the human body and the influence on the results.

ASJC Scopus subject areas

Cite this

Numerical Dosimetric Assessment using the FDTD Method. / Manteuffel, D.; Gustrau, F.; Simon, W.
In: ITG-Fachbericht, No. 178, 2003, p. 237-240.

Research output: Contribution to journalConference articleResearchpeer review

Manteuffel, D, Gustrau, F & Simon, W 2003, 'Numerical Dosimetric Assessment using the FDTD Method', ITG-Fachbericht, no. 178, pp. 237-240.
Manteuffel, D., Gustrau, F., & Simon, W. (2003). Numerical Dosimetric Assessment using the FDTD Method. ITG-Fachbericht, (178), 237-240.
Manteuffel D, Gustrau F, Simon W. Numerical Dosimetric Assessment using the FDTD Method. ITG-Fachbericht. 2003;(178):237-240.
Manteuffel, D. ; Gustrau, F. ; Simon, W. / Numerical Dosimetric Assessment using the FDTD Method. In: ITG-Fachbericht. 2003 ; No. 178. pp. 237-240.
Download
@article{855111ff02ab4cb8badac6aeae874abb,
title = "Numerical Dosimetric Assessment using the FDTD Method",
abstract = "Different European and international standards (e.g. ICNIRP guidelines, ANSI C95.1 standard, European Council Recommendation) define basic restrictions and reference levels for human safety in electromagnetic fields. In order to check compliance between electronic equipment and basic restrictions in human safety standards additional standards exist that specify more detailed requirements for the testing. Most of these standards are based on measurements, e.g. the European standard EN 50361 for safety of mobile phones. However there is a growing number of standards that specify requirements for numerical methods, e.g. the European standard EN 50357 for devices used in radio-frequency identification, electronic article surveillance and similar applications. This paper lists today's possibilities and limitations in numerical dosimetric assessment by showing a variety of applications. Since numerical dosimetric assessment can be used is a very early stage of development the examples are not limited to strict compliance testing but also to get a better insight in physical phenomena such as coupling mechanisms between the electronic device and the user. Special attention is given to the validation of the software and the phantom models of the human body and the influence on the results.",
author = "D. Manteuffel and F. Gustrau and W. Simon",
year = "2003",
language = "English",
pages = "237--240",
number = "178",
note = "INICA 2003: International ITG-Conference on Antennas ; Conference date: 17-09-2003 Through 19-09-2003",

}

Download

TY - JOUR

T1 - Numerical Dosimetric Assessment using the FDTD Method

AU - Manteuffel, D.

AU - Gustrau, F.

AU - Simon, W.

PY - 2003

Y1 - 2003

N2 - Different European and international standards (e.g. ICNIRP guidelines, ANSI C95.1 standard, European Council Recommendation) define basic restrictions and reference levels for human safety in electromagnetic fields. In order to check compliance between electronic equipment and basic restrictions in human safety standards additional standards exist that specify more detailed requirements for the testing. Most of these standards are based on measurements, e.g. the European standard EN 50361 for safety of mobile phones. However there is a growing number of standards that specify requirements for numerical methods, e.g. the European standard EN 50357 for devices used in radio-frequency identification, electronic article surveillance and similar applications. This paper lists today's possibilities and limitations in numerical dosimetric assessment by showing a variety of applications. Since numerical dosimetric assessment can be used is a very early stage of development the examples are not limited to strict compliance testing but also to get a better insight in physical phenomena such as coupling mechanisms between the electronic device and the user. Special attention is given to the validation of the software and the phantom models of the human body and the influence on the results.

AB - Different European and international standards (e.g. ICNIRP guidelines, ANSI C95.1 standard, European Council Recommendation) define basic restrictions and reference levels for human safety in electromagnetic fields. In order to check compliance between electronic equipment and basic restrictions in human safety standards additional standards exist that specify more detailed requirements for the testing. Most of these standards are based on measurements, e.g. the European standard EN 50361 for safety of mobile phones. However there is a growing number of standards that specify requirements for numerical methods, e.g. the European standard EN 50357 for devices used in radio-frequency identification, electronic article surveillance and similar applications. This paper lists today's possibilities and limitations in numerical dosimetric assessment by showing a variety of applications. Since numerical dosimetric assessment can be used is a very early stage of development the examples are not limited to strict compliance testing but also to get a better insight in physical phenomena such as coupling mechanisms between the electronic device and the user. Special attention is given to the validation of the software and the phantom models of the human body and the influence on the results.

UR - http://www.scopus.com/inward/record.url?scp=0141533133&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0141533133

SP - 237

EP - 240

JO - ITG-Fachbericht

JF - ITG-Fachbericht

SN - 0932-6022

IS - 178

T2 - INICA 2003: International ITG-Conference on Antennas

Y2 - 17 September 2003 through 19 September 2003

ER -