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100   $a20151105h20162016  uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aLow-frequency electromagnetic modeling for electrical and biological systems using MATLAB /$fSergey N. Makarov, Gregory M. Noetscher, Ara Nazarian
210  1$aHoboken, New Jersey :$cWiley,$d2016.
210  4$d©2016
215   $a1 online resource (619 p.)
300   $aDescription based upon print version of record.
311   $a1-119-05259-9 
311   $a1-119-05256-4 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aTitle 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
327   $aPROBLEMS2.2 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
327   $aPart 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
327   $a5.2 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
327   $aChapter 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
327   $a8.4 APPLICATION EXAMPLE: EIT
606   $aELF electromagnetic fields$xMathematical models
606   $aElectromagnetic devices$xComputer simulation
606   $aElectromagnetism$xComputer simulation
606   $aBioelectromagnetism$xComputer simulation
608   $aElectronic books.
615  0$aELF electromagnetic fields$xMathematical models.
615  0$aElectromagnetic devices$xComputer simulation.
615  0$aElectromagnetism$xComputer simulation.
615  0$aBioelectromagnetism$xComputer simulation.
676   $a621.382/24028553
700   $aMakarov$b Sergey N.$0763002
702   $aNoetscher$b Gregory M.$f1978-
702   $aNazarian$b Ara$f1971-
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910464036003321
996   $aLow-frequency electromagnetic modeling for electrical and biological systems using MATLAB$92080813
997   $aUNINA