Record Nr.

UNINA9910464036003321

Autore

Makarov Sergey N.

Titolo

Low-frequency electromagnetic modeling for electrical and biological systems using MATLAB / / Sergey N. Makarov, Gregory M. Noetscher, Ara Nazarian

Pubbl/distr/stampa


Hoboken, New Jersey : , : Wiley, , 2016
©2016

ISBN

1-119-05246-7

Descrizione fisica

1 online resource (619 p.)

Disciplina

621.382/24028553

Soggetti

ELF electromagnetic fields - Mathematical models

Electromagnetic devices - Computer simulation

Electromagnetism - Computer simulation

Bioelectromagnetism - Computer simulation

Electronic books.

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references at the end of each chapters and index.

Nota di contenuto

Title Page; Copyright Page; Contents; Preface; Acknowledgments; About the Companion Website; Part I Low-Frequency Electromagnetics. Computational Meshes. Computational Phantoms; Chapter 1 Classification of Low-Frequency Electromagnetic Problems. Poisson and Laplace Equations in Integral Form; INTRODUCTION; 1.1 CLASSIFICATION OF LOW-FREQUENCY ELECTROMAGNETIC PROBLEMS; PROBLEMS; 1.2 POISSON AND LAPLACE EQUATIONS, BOUNDARY CONDITIONS, AND INTEGRAL EQUATIONS; PROBLEMS; REFERENCES; Chapter 2 Triangular Surface Mesh Generation and Mesh Operations; INTRODUCTION; 2.1 TRIANGULAR MESH AND ITS QUALITY

PROBLEMS2.2 DELAUNAY TRIANGULATION. 3D VOLUME AND SURFACE MESHES; PROBLEMS; 2.3 MESH OPERATIONS AND TRANSFORMATIONS; PROBLEMS; 2.4 ADAPTIVE MESH REFINEMENT AND MESH DECIMATION; 2.5 SUMMARY OF MATLAB® SCRIPTS; PROBLEMS; REFERENCES; Chapter 3 Triangular Surface Human Body Meshes for Computational Purposes; INTRODUCTION; 3.1 REVIEW OF AVAILABLE COMPUTATIONAL HUMAN

BODY PHANTOMS AND DATASETS; 3.2 TRIANGULAR HUMAN BODY SHELL MESHES INCLUDED WITH THE TEXT; PROBLEMS; 3.3 VHP-F WHOLE-BODY MODEL INCLUDED WITH THE TEXT; PROBLEMS; REFERENCES

Part II Electrostatics of Conductors and Dielectrics. Direct Current FlowChapter 4 Electrostatics of Conductors. Fundamentals of the Methodof Moments. Adaptive Mesh Refinement; INTRODUCTION; 4.1 ELECTROSTATICS OF CONDUCTORS. MoM (SURFACE CHARGE FORMULATION); PROBLEMS; 4.2 GAUSSIAN QUADRATURES. POTENTIAL INTEGRALS. ADAPTIVE MESH REFINEMENT; PROBLEMS; 4.3 SUMMARY OF MATLAB® MODULES; REFERENCES; Chapter 5 Theory and Computation of Capacitance. ConductingObjects in External Electric Field; INTRODUCTION; 5.1 CAPACITANCE DEFINITIONS: SELF-CAPACITANCE; PROBLEMS

5.2 CAPACITANCE OF TWO CONDUCTING OBJECTSPROBLEMS; 5.3 SYSTEMS OF THREE CONDUCTING OBJECTS; PROBLEMS; 5.4 ISOLATED CONDUCTING OBJECT IN AN EXTERNAL ELECTRIC FIELD; PROBLEMS; 5.5 SUMMARY OF MATLAB® MODULES; REFERENCES; Chapter 6 Electrostatics of Dielectrics and Conductors; INTRODUCTION; 6.1 DIELECTRIC OBJECT IN AN EXTERNAL ELECTRIC FIELD; PROBLEMS; 6.2 COMBINED METAL-DIELECTRIC STRUCTURES; PROBLEMS; 6.3 APPLICATION EXAMPLE: MODELING CHARGES IN CAPACITIVE TOUCHSCREENS; PROBLEMS; 6.4 SUMMARY OF MATLAB® MODULES; REFERENCES

Chapter 7 Transmission Lines: Two-Dimensional Version of theMethod of MomentsINTRODUCTION; 7.1 TRANSMISSION LINES: VALUE OF THE ELECTROSTATIC MODEL-ANALYTICAL SOLUTIONS; PROBLEMS; 7.2 THE 2D VERSION OF THE MOM FOR TRANSMISSION LINES; PROBLEMS; 7.3 SUMMARY OF MATLAB® MODULES; REFERENCES; Chapter 8 Steady-State Current Flow; INTRODUCTION; 8.1 BOUNDARY CONDITIONS. INTEGRAL EQUATION. VOLTAGE AND CURRENT ELECTRODES; PROBLEMS; 8.2 ANALYTICAL SOLUTIONS FOR DC FLOW IN VOLUMETRIC CONDUCTING OBJECTS; PROBLEMS; 8.3 MoM ALGORITHM FOR DC FLOW. CONSTRUCTION OF ELECTRODE MESH; PROBLEMS

8.4 APPLICATION EXAMPLE: EIT