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Characteristics modes : theory and applications in antenna engineering / Yikai Chen, Chao-Fu Wang, Temasek Laboratories, National University of Singapore.

By: Contributor(s): Material type: TextTextPublisher: Hoboken, New Jersey : John Wiley and Sons, Inc., 2015Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781119038887
  • 111903888X
  • 9781119038894
  • 1119038898
  • 9781119038900
  • 1119038901
  • 1119038421
  • 9781119038429
Subject(s): Genre/Form: Additional physical formats: Print version:: Characteristics modes.DDC classification:
  • 621.382/4 23
LOC classification:
  • TK7871.6
Other classification:
  • TEC008000
Online resources:
Contents:
TITLE PAGE; TABLE OF CONTENTS; LIST OF FIGURES; LIST OF TABLES; PREFACE; 1 INTRODUCTION; 1.1 BACKGROUNDS; 1.2 AN INTRODUCTION TO CHARACTERISTIC MODE THEORY; 1.3 CHARACTERISTIC MODES IN ANTENNA ENGINEERING; 1.4 CHARACTERISTIC MODES IN SCATTERING COMPUTATION; 1.5 OUTLINE OF THIS BOOK; REFERENCES; 2 CHARACTERISTIC MODE THEORY FOR PEC BODIES; 2.1 BACKGROUNDS; 2.2 SURFACE INTEGRAL EQUATIONS; 2.3 METHOD OF MOMENTS; 2.4 EFIE BASED CM FORMULATION; 2.5 MFIE BASED CM FORMULATION; 2.6 CFIE-BASED CM FORMULATION; 2.7 APPLICABILITY OF THE CM FORMULATIONS; 2.8 COMPUTATION OF CHARACTERISTIC MODES
2.9 NUMERICAL EXAMPLES2.10 A FIRST GLANCE ON CM EXCITATIONS; 2.11 SUMMARY; REFERENCES; 3 CHARACTERISTIC MODE THEORY FOR ANTENNAS IN MULTILAYERED MEDIUM; 3.1 BACKGROUNDS; 3.2 CM FORMULATION FOR PEC STRUCTURES IN MULTILAYERED MEDIUM; 3.3 RELATIONSHIP BETWEEN CAVITY MODEL AND CHARACTERISTIC MODES; 3.4 PHYSICAL INVESTIGATIONS ON MICROSTRIP PATCH ANTENNAS; 3.5 APPLICATIONS TO CIRCULARLY POLARIZED MICROSTRIP ANTENNA DESIGN; 3.6 CONCLUSIONS; REFERENCES; 4 CHARACTERISTIC MODE THEORY FOR DIELECTRIC RESONATORS; 4.1 BACKGROUNDS; 4.2 CM FORMULATIONS FOR DIELECTRIC BODIES
4.3 ANALYSIS AND DESIGN OF DRAS USING CM THEORY4.4 COMPUTATIONAL EFFICIENCY; 4.5 CONCLUSIONS; REFERENCES; 5 CHARACTERISTIC MODE THEORY FOR N-PORT NETWORKS; 5.1 BACKGROUNDS; 5.2 CHARACTERISTIC MODE FORMULATIONS FOR N-PORT NETWORKS; 5.3 REACTIVELY CONTROLLED ANTENNA ARRAY DESIGNS USING CHARACTERISTIC MODES; 5.4 YAGI-UDA ANTENNA DESIGNS USING CHARACTERISTIC MODES; 5.5 WIDEBAND ARRAY EXCITATION DESIGN USING CHARACTERISTIC MODES; 5.6 CONCLUSIONS; REFERENCES; 6 PLATFORM-INTEGRATED ANTENNA SYSTEM DESIGN USING CHARACTERISTIC MODES; 6.1 BACKGROUNDS
6.2 ELECTRICALLY SMALL UAV ANTENNA SYSTEM DESIGN USING CHARACTERISTIC MODES6.3 HF BAND SHIPBOARD ANTENNA SYSTEM DESIGN USING CHARACTERISTIC MODES; 6.4 CONCLUSIONS; REFERENCES; INDEX; END USER LICENSE AGREEMENT
Summary: "This book examines the characteristic mode (CM) theory for various electromagnetic structures as well as their applications in antenna engineering. The book covers the theoretical developments, numerical implementations, and the applications of the various CM theories. The authors provide antenna scientists and engineers with the theoretical developments, numerical implementations, and design methodologies of the CM theory. The readers will find the basic coverage of all aspects of the CM theory, which provides the background needed when they desire to solve their challenging antenna design problems using the CM theory. This book will cover the following topics in seven chapters: -- A detailed overview of the CM research history and the very important milestones; -- A comprehensive introduction of the CM theories for various electromagnetic structures including: PEC bodies, structures in multilayered medium, dielectric bodies, and N-port networks -- Numerical implementation of the CM theories and the related algorithms; -- Systematic CM-based approaches to design low frequency platform mounted antenna systems; -- Novel feeding structures to excite the antenna platform as the radiator; -- CM-based microstrip antenna, dielectric resonant antenna, and antenna array designs; -- Experimental verifications illustrating the versatility of the CM theory in antenna engineering "-- Provided by publisher.
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Includes bibliographical references and index.

"This book examines the characteristic mode (CM) theory for various electromagnetic structures as well as their applications in antenna engineering. The book covers the theoretical developments, numerical implementations, and the applications of the various CM theories. The authors provide antenna scientists and engineers with the theoretical developments, numerical implementations, and design methodologies of the CM theory. The readers will find the basic coverage of all aspects of the CM theory, which provides the background needed when they desire to solve their challenging antenna design problems using the CM theory. This book will cover the following topics in seven chapters: -- A detailed overview of the CM research history and the very important milestones; -- A comprehensive introduction of the CM theories for various electromagnetic structures including: PEC bodies, structures in multilayered medium, dielectric bodies, and N-port networks -- Numerical implementation of the CM theories and the related algorithms; -- Systematic CM-based approaches to design low frequency platform mounted antenna systems; -- Novel feeding structures to excite the antenna platform as the radiator; -- CM-based microstrip antenna, dielectric resonant antenna, and antenna array designs; -- Experimental verifications illustrating the versatility of the CM theory in antenna engineering "-- Provided by publisher.

Print version record and CIP data provided by publisher.

TITLE PAGE; TABLE OF CONTENTS; LIST OF FIGURES; LIST OF TABLES; PREFACE; 1 INTRODUCTION; 1.1 BACKGROUNDS; 1.2 AN INTRODUCTION TO CHARACTERISTIC MODE THEORY; 1.3 CHARACTERISTIC MODES IN ANTENNA ENGINEERING; 1.4 CHARACTERISTIC MODES IN SCATTERING COMPUTATION; 1.5 OUTLINE OF THIS BOOK; REFERENCES; 2 CHARACTERISTIC MODE THEORY FOR PEC BODIES; 2.1 BACKGROUNDS; 2.2 SURFACE INTEGRAL EQUATIONS; 2.3 METHOD OF MOMENTS; 2.4 EFIE BASED CM FORMULATION; 2.5 MFIE BASED CM FORMULATION; 2.6 CFIE-BASED CM FORMULATION; 2.7 APPLICABILITY OF THE CM FORMULATIONS; 2.8 COMPUTATION OF CHARACTERISTIC MODES

2.9 NUMERICAL EXAMPLES2.10 A FIRST GLANCE ON CM EXCITATIONS; 2.11 SUMMARY; REFERENCES; 3 CHARACTERISTIC MODE THEORY FOR ANTENNAS IN MULTILAYERED MEDIUM; 3.1 BACKGROUNDS; 3.2 CM FORMULATION FOR PEC STRUCTURES IN MULTILAYERED MEDIUM; 3.3 RELATIONSHIP BETWEEN CAVITY MODEL AND CHARACTERISTIC MODES; 3.4 PHYSICAL INVESTIGATIONS ON MICROSTRIP PATCH ANTENNAS; 3.5 APPLICATIONS TO CIRCULARLY POLARIZED MICROSTRIP ANTENNA DESIGN; 3.6 CONCLUSIONS; REFERENCES; 4 CHARACTERISTIC MODE THEORY FOR DIELECTRIC RESONATORS; 4.1 BACKGROUNDS; 4.2 CM FORMULATIONS FOR DIELECTRIC BODIES

4.3 ANALYSIS AND DESIGN OF DRAS USING CM THEORY4.4 COMPUTATIONAL EFFICIENCY; 4.5 CONCLUSIONS; REFERENCES; 5 CHARACTERISTIC MODE THEORY FOR N-PORT NETWORKS; 5.1 BACKGROUNDS; 5.2 CHARACTERISTIC MODE FORMULATIONS FOR N-PORT NETWORKS; 5.3 REACTIVELY CONTROLLED ANTENNA ARRAY DESIGNS USING CHARACTERISTIC MODES; 5.4 YAGI-UDA ANTENNA DESIGNS USING CHARACTERISTIC MODES; 5.5 WIDEBAND ARRAY EXCITATION DESIGN USING CHARACTERISTIC MODES; 5.6 CONCLUSIONS; REFERENCES; 6 PLATFORM-INTEGRATED ANTENNA SYSTEM DESIGN USING CHARACTERISTIC MODES; 6.1 BACKGROUNDS

6.2 ELECTRICALLY SMALL UAV ANTENNA SYSTEM DESIGN USING CHARACTERISTIC MODES6.3 HF BAND SHIPBOARD ANTENNA SYSTEM DESIGN USING CHARACTERISTIC MODES; 6.4 CONCLUSIONS; REFERENCES; INDEX; END USER LICENSE AGREEMENT

Electrical & Electronic Engineering