Verfügbarkeit: Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques /

Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques /:

Complex electromagnetic problems using new hybridised computational techniques combining the frequency domain Method of Moments (MoM), Finite-Difference Time-Domain (FDTD) and a subgridded Finite-Difference Time-Domain (SGFDTD) method are studied and discussed in detail. The techniques are desirable...

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Weitere Verfasser:	Ramli, Khairan N. (HerausgeberIn), Abd-Alhameed, R. A. (Raed A.) (HerausgeberIn), Excell, Peter S. (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York : Nova Publishers, [2014]
Schriftenreihe:	Engineering tools, techniques and tables.
Schlagworte:	Electromagnetism > Mathematical models. Finite differences. Time-domain analysis. Numerical grid generation (Numerical analysis) Électromagnétisme > Modèles mathématiques. Différences finies. Analyse temporelle. Grilles (Analyse numérique) SCIENCE > Physics > Electricity. SCIENCE > Physics > Electromagnetism. Electromagnetism > Mathematical models Finite differences Time-domain analysis
Online-Zugang:	DE-862 DE-863
Zusammenfassung:	Complex electromagnetic problems using new hybridised computational techniques combining the frequency domain Method of Moments (MoM), Finite-Difference Time-Domain (FDTD) and a subgridded Finite-Difference Time-Domain (SGFDTD) method are studied and discussed in detail. The techniques are desirable to predict electromagnetic absorption in inhomogeneous, anisotropic and lossy dielectric materials irradiated by geometrically intricate sources. In Method of Moments modelling, the surface kernel solution is derived for 1-D, 2-D and 3-D. The electric surface patch integral formulation is solved by.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781633216822 1633216829

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MARC


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245	0	0	\|a Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques / \|c Khairan N. Ramli, Raed A. Abd-Alhameed, and Peter S. Excell, editors.
264		1	\|a New York : \|b Nova Publishers, \|c [2014]
264		4	\|c ©2014
300			\|a 1 online resource
336			\|a text \|b txt \|2 rdacontent
337			\|a computer \|b c \|2 rdamedia
338			\|a online resource \|b cr \|2 rdacarrier
490	1		\|a Engineering tools, techniques, and tables
504			\|a Includes bibliographical references and index.
588	0		\|a Print version record and CIP data provided by publisher.
505	0		\|a DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- Library of Congress Cataloging-in-Publication Data -- CONTENTS -- PREFACE -- Chapter 1: NUMERICAL SOLUTION OF MAXWELL EQUATIONS USING FDTD AND MOM -- ABSTRACT -- 1.1. BACKGROUND AND MOTIVATIONS -- 1.2. HISTORY OF FDTD -- 1.3. HISTORY OF MOM -- 1.4. STATE OF ART OF THE ORIGINAL CONTRIBUTION -- 1.5. OVERVIEW OF THE BOOK -- REFERENCES
505	8		\|a ""Chapter 2: FDTD TECHNIQUE FOR FIELD TRUNCATION""""2.1. INTRODUCTION""; ""2.2. FDTD UPDATING STENCILS""; ""2.3. NUMERICAL DISPERSION""; ""2.4. INCIDENT WAVE SOURCE CONDITIONS""; ""2.5. ABSORBING BOUNDARY CONDITIONS (ABC)""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 3: SURFACE KERNEL SOLUTION OF THE METHOD OF MOMENTS""; ""ABSTRACT""; ""3.1. INTRODUCTION""; ""3.2.MAXWELLâ€?S EQUATIONS""; ""3.3.MOMENT METHOD""; ""3.4. ONE-DIMENSIONAL ANTENNAS""; ""3.5. TWO-DIMENSIONAL ANTENNAS""; ""3.6. THREE-DIMENSIONAL ANTENNAS""; ""3.7. NORMAL-MODE HELICAL ANTENNA""; ""3.8. SURFACE CURRENT FORMULATION""
505	8		\|a 3.9. EVALUATION OF IMPEDANCE MATRIX ELEMENTS3.10. SOLUTION FOR SINGULARITY -- 3.11. SIMULATION AND RESULTS -- CONCLUSION -- REFERENCES -- APPENDIX A -- APPENDIX B -- Chapter 4: QUASI-STATIC FINITE-DIFFERENCE TIME-DOMAIN SUBGRIDDING TECHNIQUE -- ABSTRACT -- 4.1. INTRODUCTION -- 4.2. QUASI-STATIC THEOREM -- 4.3. VALIDATION OF SUBGRIDDING METHOD -- 4.4. INTERACTION BETWEEN OHTL AND BURIED PIPELINE -- 4.5. NEAR FIELD SIMULATION -- CONCLUSION -- REFERENCES -- Chapter 5: EFFECT OF ANISOTROPIC MAGNETO-CHIRALITY ON MICROSTRIP RESONATOR CHARACTERISTICS
505	8		\|a ""ABSTRACT""""5.1. INTRODUCTION""; ""5.2. THEORETICAL FORMULATION""; ""5.3. GREENâ€?S TENSOR EVALUATION""; ""5.4. INTEGRAL EQUATION SOLUTION""; ""5.5. HALF-POWER BANDWIDTH""; ""5.6. SURFACE WAVES INVESTIGATION""; ""5.7. COMPLEX MEDIA PARAMETER EFFECT ON THE INPUT IMPEDANCE""; ""5.8. RECTANGULAR MICROSTRIP ANTENNA WITH UNIAXIAL BIANISOTROPIC CHIRAL SUBSTRATE-SUPERSTRATE""; ""5.9. ASYMMETRICAL EFFECTS OF BIANISOTROPIC SUBSTRATE-SUPERSTRATE SANDWICH STRUCTURE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 6: INTERACTION OF EMFIELDS TO THE HUMAN BODY USING HYBRID COMPUTATIONAL METHOD""
505	8		\|a ""ABSTRACT""""6.1. INTRODUCTION""; ""6.2. HYBRID MOM-FDTD-SGFDTD THEORETICAL FORMULATION""; ""6.3. VALIDATION OF RADIATED FIELD""; ""6.4. HYBRID MODEL TECHNIQUE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 7: QUASI-STATIC FDTD SCHEME FOR ELECTRICALLY-SMALL REGIONS IN FREE SPACE, LOSSLESS AND LOSSY PENETRABLE MEDIA""; ""7.1. INTRODUCTION""; ""7.2. ANALYTICAL SOLUTION""; ""7.3.MODIFIED BERENGERâ€?S PML""; ""7.4. VERIFICATION METHOD""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 8: COMPUTATION OF ELECTROMAGNETIC FIELD INSIDE A TISSUE USING QUASI-STATIC AND LUMPED-ELEMENT FDTD SCHEME""
520			\|a Complex electromagnetic problems using new hybridised computational techniques combining the frequency domain Method of Moments (MoM), Finite-Difference Time-Domain (FDTD) and a subgridded Finite-Difference Time-Domain (SGFDTD) method are studied and discussed in detail. The techniques are desirable to predict electromagnetic absorption in inhomogeneous, anisotropic and lossy dielectric materials irradiated by geometrically intricate sources. In Method of Moments modelling, the surface kernel solution is derived for 1-D, 2-D and 3-D. The electric surface patch integral formulation is solved by.
650		0	\|a Electromagnetism \|x Mathematical models.
650		0	\|a Finite differences. \|0 http://id.loc.gov/authorities/subjects/sh85048348
650		0	\|a Time-domain analysis. \|0 http://id.loc.gov/authorities/subjects/sh88000505
650		0	\|a Numerical grid generation (Numerical analysis) \|0 http://id.loc.gov/authorities/subjects/sh85093245
650		6	\|a Électromagnétisme \|x Modèles mathématiques.
650		6	\|a Différences finies.
650		6	\|a Analyse temporelle.
650		6	\|a Grilles (Analyse numérique)
650		7	\|a SCIENCE \|x Physics \|x Electricity. \|2 bisacsh
650		7	\|a SCIENCE \|x Physics \|x Electromagnetism. \|2 bisacsh
650		7	\|a Electromagnetism \|x Mathematical models \|2 fast
650		7	\|a Finite differences \|2 fast
650		7	\|a Numerical grid generation (Numerical analysis) \|2 fast
650		7	\|a Time-domain analysis \|2 fast
700	1		\|a Ramli, Khairan N., \|e editor.
700	1		\|a Abd-Alhameed, R. A. \|q (Raed A.), \|e editor. \|0 http://id.loc.gov/authorities/names/n2014043953
700	1		\|a Excell, Peter S., \|e editor.
758			\|i has work: \|a Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCFP3CTcJV6TvvMfmycVJym \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|t Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques. \|d New York : Nova Publishers, [2014] \|z 9781611220131 \|w (DLC) 2014029133
830		0	\|a Engineering tools, techniques and tables. \|0 http://id.loc.gov/authorities/names/no2011012899
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contents	DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- Library of Congress Cataloging-in-Publication Data -- CONTENTS -- PREFACE -- Chapter 1: NUMERICAL SOLUTION OF MAXWELL EQUATIONS USING FDTD AND MOM -- ABSTRACT -- 1.1. BACKGROUND AND MOTIVATIONS -- 1.2. HISTORY OF FDTD -- 1.3. HISTORY OF MOM -- 1.4. STATE OF ART OF THE ORIGINAL CONTRIBUTION -- 1.5. OVERVIEW OF THE BOOK -- REFERENCES ""Chapter 2: FDTD TECHNIQUE FOR FIELD TRUNCATION""""2.1. INTRODUCTION""; ""2.2. FDTD UPDATING STENCILS""; ""2.3. NUMERICAL DISPERSION""; ""2.4. INCIDENT WAVE SOURCE CONDITIONS""; ""2.5. ABSORBING BOUNDARY CONDITIONS (ABC)""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 3: SURFACE KERNEL SOLUTION OF THE METHOD OF MOMENTS""; ""ABSTRACT""; ""3.1. INTRODUCTION""; ""3.2.MAXWELLâ€?S EQUATIONS""; ""3.3.MOMENT METHOD""; ""3.4. ONE-DIMENSIONAL ANTENNAS""; ""3.5. TWO-DIMENSIONAL ANTENNAS""; ""3.6. THREE-DIMENSIONAL ANTENNAS""; ""3.7. NORMAL-MODE HELICAL ANTENNA""; ""3.8. SURFACE CURRENT FORMULATION"" 3.9. EVALUATION OF IMPEDANCE MATRIX ELEMENTS3.10. SOLUTION FOR SINGULARITY -- 3.11. SIMULATION AND RESULTS -- CONCLUSION -- REFERENCES -- APPENDIX A -- APPENDIX B -- Chapter 4: QUASI-STATIC FINITE-DIFFERENCE TIME-DOMAIN SUBGRIDDING TECHNIQUE -- ABSTRACT -- 4.1. INTRODUCTION -- 4.2. QUASI-STATIC THEOREM -- 4.3. VALIDATION OF SUBGRIDDING METHOD -- 4.4. INTERACTION BETWEEN OHTL AND BURIED PIPELINE -- 4.5. NEAR FIELD SIMULATION -- CONCLUSION -- REFERENCES -- Chapter 5: EFFECT OF ANISOTROPIC MAGNETO-CHIRALITY ON MICROSTRIP RESONATOR CHARACTERISTICS ""ABSTRACT""""5.1. INTRODUCTION""; ""5.2. THEORETICAL FORMULATION""; ""5.3. GREENâ€?S TENSOR EVALUATION""; ""5.4. INTEGRAL EQUATION SOLUTION""; ""5.5. HALF-POWER BANDWIDTH""; ""5.6. SURFACE WAVES INVESTIGATION""; ""5.7. COMPLEX MEDIA PARAMETER EFFECT ON THE INPUT IMPEDANCE""; ""5.8. RECTANGULAR MICROSTRIP ANTENNA WITH UNIAXIAL BIANISOTROPIC CHIRAL SUBSTRATE-SUPERSTRATE""; ""5.9. ASYMMETRICAL EFFECTS OF BIANISOTROPIC SUBSTRATE-SUPERSTRATE SANDWICH STRUCTURE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 6: INTERACTION OF EMFIELDS TO THE HUMAN BODY USING HYBRID COMPUTATIONAL METHOD"" ""ABSTRACT""""6.1. INTRODUCTION""; ""6.2. HYBRID MOM-FDTD-SGFDTD THEORETICAL FORMULATION""; ""6.3. VALIDATION OF RADIATED FIELD""; ""6.4. HYBRID MODEL TECHNIQUE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 7: QUASI-STATIC FDTD SCHEME FOR ELECTRICALLY-SMALL REGIONS IN FREE SPACE, LOSSLESS AND LOSSY PENETRABLE MEDIA""; ""7.1. INTRODUCTION""; ""7.2. ANALYTICAL SOLUTION""; ""7.3.MODIFIED BERENGERâ€?S PML""; ""7.4. VERIFICATION METHOD""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 8: COMPUTATION OF ELECTROMAGNETIC FIELD INSIDE A TISSUE USING QUASI-STATIC AND LUMPED-ELEMENT FDTD SCHEME""
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ASYMMETRICAL EFFECTS OF BIANISOTROPIC SUBSTRATE-SUPERSTRATE SANDWICH STRUCTURE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 6: INTERACTION OF EMFIELDS TO THE HUMAN BODY USING HYBRID COMPUTATIONAL METHOD""</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">""ABSTRACT""""6.1. INTRODUCTION""; ""6.2. HYBRID MOM-FDTD-SGFDTD THEORETICAL FORMULATION""; ""6.3. VALIDATION OF RADIATED FIELD""; ""6.4. HYBRID MODEL TECHNIQUE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 7: QUASI-STATIC FDTD SCHEME FOR ELECTRICALLY-SMALL REGIONS IN FREE SPACE, LOSSLESS AND LOSSY PENETRABLE MEDIA""; ""7.1. INTRODUCTION""; ""7.2. ANALYTICAL SOLUTION""; ""7.3.MODIFIED BERENGERâ€?S PML""; ""7.4. 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id	ZDB-4-EBA-ocn890139381
illustrated	Illustrated
indexdate	2025-03-18T14:21:58Z
institution	BVB
isbn	9781633216822 1633216829
language	English
lccn	2020677125
oclc_num	890139381
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physical	1 online resource
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publishDate	2014
publishDateSearch	2014
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publisher	Nova Publishers,
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series	Engineering tools, techniques and tables.
series2	Engineering tools, techniques, and tables
spelling	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques / Khairan N. Ramli, Raed A. Abd-Alhameed, and Peter S. Excell, editors. New York : Nova Publishers, [2014] ©2014 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Engineering tools, techniques, and tables Includes bibliographical references and index. Print version record and CIP data provided by publisher. DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- Library of Congress Cataloging-in-Publication Data -- CONTENTS -- PREFACE -- Chapter 1: NUMERICAL SOLUTION OF MAXWELL EQUATIONS USING FDTD AND MOM -- ABSTRACT -- 1.1. BACKGROUND AND MOTIVATIONS -- 1.2. HISTORY OF FDTD -- 1.3. HISTORY OF MOM -- 1.4. STATE OF ART OF THE ORIGINAL CONTRIBUTION -- 1.5. OVERVIEW OF THE BOOK -- REFERENCES ""Chapter 2: FDTD TECHNIQUE FOR FIELD TRUNCATION""""2.1. INTRODUCTION""; ""2.2. FDTD UPDATING STENCILS""; ""2.3. NUMERICAL DISPERSION""; ""2.4. INCIDENT WAVE SOURCE CONDITIONS""; ""2.5. ABSORBING BOUNDARY CONDITIONS (ABC)""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 3: SURFACE KERNEL SOLUTION OF THE METHOD OF MOMENTS""; ""ABSTRACT""; ""3.1. INTRODUCTION""; ""3.2.MAXWELLâ€?S EQUATIONS""; ""3.3.MOMENT METHOD""; ""3.4. ONE-DIMENSIONAL ANTENNAS""; ""3.5. TWO-DIMENSIONAL ANTENNAS""; ""3.6. THREE-DIMENSIONAL ANTENNAS""; ""3.7. NORMAL-MODE HELICAL ANTENNA""; ""3.8. SURFACE CURRENT FORMULATION"" 3.9. EVALUATION OF IMPEDANCE MATRIX ELEMENTS3.10. SOLUTION FOR SINGULARITY -- 3.11. SIMULATION AND RESULTS -- CONCLUSION -- REFERENCES -- APPENDIX A -- APPENDIX B -- Chapter 4: QUASI-STATIC FINITE-DIFFERENCE TIME-DOMAIN SUBGRIDDING TECHNIQUE -- ABSTRACT -- 4.1. INTRODUCTION -- 4.2. QUASI-STATIC THEOREM -- 4.3. VALIDATION OF SUBGRIDDING METHOD -- 4.4. INTERACTION BETWEEN OHTL AND BURIED PIPELINE -- 4.5. NEAR FIELD SIMULATION -- CONCLUSION -- REFERENCES -- Chapter 5: EFFECT OF ANISOTROPIC MAGNETO-CHIRALITY ON MICROSTRIP RESONATOR CHARACTERISTICS ""ABSTRACT""""5.1. INTRODUCTION""; ""5.2. THEORETICAL FORMULATION""; ""5.3. GREENâ€?S TENSOR EVALUATION""; ""5.4. INTEGRAL EQUATION SOLUTION""; ""5.5. HALF-POWER BANDWIDTH""; ""5.6. SURFACE WAVES INVESTIGATION""; ""5.7. COMPLEX MEDIA PARAMETER EFFECT ON THE INPUT IMPEDANCE""; ""5.8. RECTANGULAR MICROSTRIP ANTENNA WITH UNIAXIAL BIANISOTROPIC CHIRAL SUBSTRATE-SUPERSTRATE""; ""5.9. ASYMMETRICAL EFFECTS OF BIANISOTROPIC SUBSTRATE-SUPERSTRATE SANDWICH STRUCTURE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 6: INTERACTION OF EMFIELDS TO THE HUMAN BODY USING HYBRID COMPUTATIONAL METHOD"" ""ABSTRACT""""6.1. INTRODUCTION""; ""6.2. HYBRID MOM-FDTD-SGFDTD THEORETICAL FORMULATION""; ""6.3. VALIDATION OF RADIATED FIELD""; ""6.4. HYBRID MODEL TECHNIQUE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 7: QUASI-STATIC FDTD SCHEME FOR ELECTRICALLY-SMALL REGIONS IN FREE SPACE, LOSSLESS AND LOSSY PENETRABLE MEDIA""; ""7.1. INTRODUCTION""; ""7.2. ANALYTICAL SOLUTION""; ""7.3.MODIFIED BERENGERâ€?S PML""; ""7.4. VERIFICATION METHOD""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 8: COMPUTATION OF ELECTROMAGNETIC FIELD INSIDE A TISSUE USING QUASI-STATIC AND LUMPED-ELEMENT FDTD SCHEME"" Complex electromagnetic problems using new hybridised computational techniques combining the frequency domain Method of Moments (MoM), Finite-Difference Time-Domain (FDTD) and a subgridded Finite-Difference Time-Domain (SGFDTD) method are studied and discussed in detail. The techniques are desirable to predict electromagnetic absorption in inhomogeneous, anisotropic and lossy dielectric materials irradiated by geometrically intricate sources. In Method of Moments modelling, the surface kernel solution is derived for 1-D, 2-D and 3-D. The electric surface patch integral formulation is solved by. Electromagnetism Mathematical models. Finite differences. http://id.loc.gov/authorities/subjects/sh85048348 Time-domain analysis. http://id.loc.gov/authorities/subjects/sh88000505 Numerical grid generation (Numerical analysis) http://id.loc.gov/authorities/subjects/sh85093245 Électromagnétisme Modèles mathématiques. Différences finies. Analyse temporelle. Grilles (Analyse numérique) SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Electromagnetism Mathematical models fast Finite differences fast Numerical grid generation (Numerical analysis) fast Time-domain analysis fast Ramli, Khairan N., editor. Abd-Alhameed, R. A. (Raed A.), editor. http://id.loc.gov/authorities/names/n2014043953 Excell, Peter S., editor. has work: Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques (Text) https://id.oclc.org/worldcat/entity/E39PCFP3CTcJV6TvvMfmycVJym https://id.oclc.org/worldcat/ontology/hasWork Print version: Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques. New York : Nova Publishers, [2014] 9781611220131 (DLC) 2014029133 Engineering tools, techniques and tables. http://id.loc.gov/authorities/names/no2011012899
spellingShingle	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques / Engineering tools, techniques and tables. DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- DEVELOPMENT OF COMPLEX ELECTROMAGNETIC PROBLEMS USING FDTD SUBGRIDDING IN HYBRID COMPUTATIONALTECHNIQUES -- Library of Congress Cataloging-in-Publication Data -- CONTENTS -- PREFACE -- Chapter 1: NUMERICAL SOLUTION OF MAXWELL EQUATIONS USING FDTD AND MOM -- ABSTRACT -- 1.1. BACKGROUND AND MOTIVATIONS -- 1.2. HISTORY OF FDTD -- 1.3. HISTORY OF MOM -- 1.4. STATE OF ART OF THE ORIGINAL CONTRIBUTION -- 1.5. OVERVIEW OF THE BOOK -- REFERENCES ""Chapter 2: FDTD TECHNIQUE FOR FIELD TRUNCATION""""2.1. INTRODUCTION""; ""2.2. FDTD UPDATING STENCILS""; ""2.3. NUMERICAL DISPERSION""; ""2.4. INCIDENT WAVE SOURCE CONDITIONS""; ""2.5. ABSORBING BOUNDARY CONDITIONS (ABC)""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 3: SURFACE KERNEL SOLUTION OF THE METHOD OF MOMENTS""; ""ABSTRACT""; ""3.1. INTRODUCTION""; ""3.2.MAXWELLâ€?S EQUATIONS""; ""3.3.MOMENT METHOD""; ""3.4. ONE-DIMENSIONAL ANTENNAS""; ""3.5. TWO-DIMENSIONAL ANTENNAS""; ""3.6. THREE-DIMENSIONAL ANTENNAS""; ""3.7. NORMAL-MODE HELICAL ANTENNA""; ""3.8. SURFACE CURRENT FORMULATION"" 3.9. EVALUATION OF IMPEDANCE MATRIX ELEMENTS3.10. SOLUTION FOR SINGULARITY -- 3.11. SIMULATION AND RESULTS -- CONCLUSION -- REFERENCES -- APPENDIX A -- APPENDIX B -- Chapter 4: QUASI-STATIC FINITE-DIFFERENCE TIME-DOMAIN SUBGRIDDING TECHNIQUE -- ABSTRACT -- 4.1. INTRODUCTION -- 4.2. QUASI-STATIC THEOREM -- 4.3. VALIDATION OF SUBGRIDDING METHOD -- 4.4. INTERACTION BETWEEN OHTL AND BURIED PIPELINE -- 4.5. NEAR FIELD SIMULATION -- CONCLUSION -- REFERENCES -- Chapter 5: EFFECT OF ANISOTROPIC MAGNETO-CHIRALITY ON MICROSTRIP RESONATOR CHARACTERISTICS ""ABSTRACT""""5.1. INTRODUCTION""; ""5.2. THEORETICAL FORMULATION""; ""5.3. GREENâ€?S TENSOR EVALUATION""; ""5.4. INTEGRAL EQUATION SOLUTION""; ""5.5. HALF-POWER BANDWIDTH""; ""5.6. SURFACE WAVES INVESTIGATION""; ""5.7. COMPLEX MEDIA PARAMETER EFFECT ON THE INPUT IMPEDANCE""; ""5.8. RECTANGULAR MICROSTRIP ANTENNA WITH UNIAXIAL BIANISOTROPIC CHIRAL SUBSTRATE-SUPERSTRATE""; ""5.9. ASYMMETRICAL EFFECTS OF BIANISOTROPIC SUBSTRATE-SUPERSTRATE SANDWICH STRUCTURE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 6: INTERACTION OF EMFIELDS TO THE HUMAN BODY USING HYBRID COMPUTATIONAL METHOD"" ""ABSTRACT""""6.1. INTRODUCTION""; ""6.2. HYBRID MOM-FDTD-SGFDTD THEORETICAL FORMULATION""; ""6.3. VALIDATION OF RADIATED FIELD""; ""6.4. HYBRID MODEL TECHNIQUE""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 7: QUASI-STATIC FDTD SCHEME FOR ELECTRICALLY-SMALL REGIONS IN FREE SPACE, LOSSLESS AND LOSSY PENETRABLE MEDIA""; ""7.1. INTRODUCTION""; ""7.2. ANALYTICAL SOLUTION""; ""7.3.MODIFIED BERENGERâ€?S PML""; ""7.4. VERIFICATION METHOD""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 8: COMPUTATION OF ELECTROMAGNETIC FIELD INSIDE A TISSUE USING QUASI-STATIC AND LUMPED-ELEMENT FDTD SCHEME"" Electromagnetism Mathematical models. Finite differences. http://id.loc.gov/authorities/subjects/sh85048348 Time-domain analysis. http://id.loc.gov/authorities/subjects/sh88000505 Numerical grid generation (Numerical analysis) http://id.loc.gov/authorities/subjects/sh85093245 Électromagnétisme Modèles mathématiques. Différences finies. Analyse temporelle. Grilles (Analyse numérique) SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Electromagnetism Mathematical models fast Finite differences fast Numerical grid generation (Numerical analysis) fast Time-domain analysis fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85048348 http://id.loc.gov/authorities/subjects/sh88000505 http://id.loc.gov/authorities/subjects/sh85093245
title	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques /
title_auth	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques /
title_exact_search	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques /
title_full	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques / Khairan N. Ramli, Raed A. Abd-Alhameed, and Peter S. Excell, editors.
title_fullStr	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques / Khairan N. Ramli, Raed A. Abd-Alhameed, and Peter S. Excell, editors.
title_full_unstemmed	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques / Khairan N. Ramli, Raed A. Abd-Alhameed, and Peter S. Excell, editors.
title_short	Development of complex electromagnetic problems using FDTD subgridding in hybrid computational techniques /
title_sort	development of complex electromagnetic problems using fdtd subgridding in hybrid computational techniques
topic	Electromagnetism Mathematical models. Finite differences. http://id.loc.gov/authorities/subjects/sh85048348 Time-domain analysis. http://id.loc.gov/authorities/subjects/sh88000505 Numerical grid generation (Numerical analysis) http://id.loc.gov/authorities/subjects/sh85093245 Électromagnétisme Modèles mathématiques. Différences finies. Analyse temporelle. Grilles (Analyse numérique) SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Electromagnetism Mathematical models fast Finite differences fast Numerical grid generation (Numerical analysis) fast Time-domain analysis fast
topic_facet	Electromagnetism Mathematical models. Finite differences. Time-domain analysis. Numerical grid generation (Numerical analysis) Électromagnétisme Modèles mathématiques. Différences finies. Analyse temporelle. Grilles (Analyse numérique) SCIENCE Physics Electricity. SCIENCE Physics Electromagnetism. Electromagnetism Mathematical models Finite differences Time-domain analysis
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