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دانشجوعلاقه‌مند یادگیری
کتابخوان حرفه‌ایلذت مطالعه
نویسندهالهام‌گیری

Modelling Organs, Tissues, Cells and Devices: Using MATLAB and COMSOL Multiphysics (Lecture Notes in Bioengineering)

Socrates Dokos (auth.)

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تحویل فوری
پرداخت امن
ضمانت فایل
پشتیبانی

مشخصات کتاب

سال انتشار
۲۰۱۷
فرمت
PDF
زبان
انگلیسی
حجم فایل
۱۷٫۹ مگابایت
شابک
9783642548000، 9783642548017، 3642548008، 3642548016

دربارهٔ کتاب

This book presents a theoretical and practical overview of computational modeling in bioengineering, focusing on a range of applications including electrical stimulation of neural and cardiac tissue, implantable drug delivery, cancer therapy, biomechanics, cardiovascular dynamics, as well as fluid-structure interaction for modelling of organs, tissues, cells and devices. It covers the basic principles of modeling and simulation with ordinary and partial differential equations using MATLAB and COMSOL Multiphysics numerical software. The target audience primarily comprises postgraduate students and researchers, but the book may also be beneficial for practitioners in the medical device industry. 3.4 Ode Solver Implementations In Matlab And Comsol3.5 Further Reading; References; 4 Distributed Systems Modelling With Partial Differential Equations; 4.1 Modelling With Pdes; 4.1.1 The Gradient; 4.1.2 The Divergence; 4.1.3 The Curl; 4.1.4 The Divergence Theorem; 4.1.5 Conservation Law Formulation; 4.1.6 The Laplacian; 4.1.7 Pde Boundary Conditions; 4.2 Basic Analytical And Numerical Solution Techniques; 4.2.1 Separation Of Variables; 4.2.2 Finite Difference Method; 4.2.3 Method Of Lines; 4.3 Further Reading; References; 5 The Finite Element Method; 5.1 Finite Elements For 1d Systems 5.1.1 Weak Form Pde Equivalent5.1.2 Basis Function Approximation; 5.1.3 Higher-order Basis Functions; 5.2 Finite Elements For 2d/3d Systems; 5.2.1 Weak Form Description; 5.2.2 Basis Function Approximation; 5.3 Fem Numerical Implementation; 5.3.1 Assembly Of System Matrices; 5.3.2 Gaussian Quadrature; 5.3.3 Non-linear Systems; 5.4 Further Reading; References; Part Ii Bioengineering Applications; 6 Modelling Electrical Stimulation Of Tissue; 6.1 Electrical Stimulation; 6.1.1 Maxwell's Equations; 6.1.2 Electrostatic Formulations; 6.1.3 Volume Conductor Theory 6.1.4 Example: Cell Culture Electric Field Stimulator6.1.5 Example: Access Resistance Of Electrode Disc; 6.2 Modelling Electrical Activity Of Tissues; 6.2.1 Continuum Models Of Excitable Tissues; 6.2.2 Example: Modelling Spiral-wave Reentry In Cardiac Tissue; 6.2.3 Modelling Pdes/odes On Boundaries, Edges And Points; 6.2.4 Example: Axonal Stimulation Using Nerve Cuff Electrodes; 6.3 Further Reading; References; 7 Models Of Diffusion And Heat Transfer; 7.1 Diffusion; 7.1.1 Fick's Laws Of Diffusion; 7.1.2 Example: Diffusion And Uptake Into A Spherical Cell; 7.1.3 Convective Transport Socrates Dokos. Includes Bibliographical References And Index. Preface; Contents; Acronyms; Part I Bioengineering Modelling Principles, Methods And Theory; 1 Introduction To Modelling In Bioengineering; 1.1 Modelling And Simulation In Medicine And Biology; 1.2 The Modelling Process; 1.3 Mathematical Model Types; 1.3.1 Linear Versus Non-linear; 1.3.2 Dynamic Versus Static; 1.3.3 Deterministic Versus Stochastic; 1.3.4 Continuous Versus Discrete; 1.3.5 Rule-based; 1.4 Dimensional Analysis; 1.4.1 Dimensions And Units; 1.4.2 Buckingham -theorem; 1.5 Model Scaling; References; 2 Lumped Parameter Modelling With Ordinary Differential Equations5058 2.1 Overview Of Ordinary Differential Equations2.2 Linear Odes; 2.3 Ode Systems; 2.3.1 Example Model 1: Cardiac Mechanics; 2.3.2 Example Model 2: Hodgkin--huxley Model Of Neural Excitation; 2.4 Further Reading; References; 3 Numerical Integration Of Ordinary Differential Equations; 3.1 Taylor's Theorem; 3.2 One-step Methods; 3.2.1 Backward-euler Method; 3.2.2 Trapezoidal Method; 3.2.3 Runge--kutta Methods; 3.2.4 The Generalized-α Method; 3.3 Multistep Methods; 3.3.1 Predictor-corrector Methods; 3.3.2 Backward Differentiation Formulas; 3.3.3 Numerical Differentiation Formulas Front Matter....Pages i-xiii Front Matter....Pages 1-1 Introduction to Modelling in Bioengineering....Pages 3-28 Lumped Parameter Modelling with Ordinary Differential Equations....Pages 29-53 Numerical Integration of Ordinary Differential Equations....Pages 55-104 Distributed Systems Modelling with Partial Differential Equations....Pages 105-157 The Finite Element Method....Pages 159-197 Front Matter....Pages 199-199 Modelling Electrical Stimulation of Tissue....Pages 201-235 Models of Diffusion and Heat Transfer....Pages 237-261 Solid Mechanics....Pages 263-303 Fluid Mechanics....Pages 305-341 Back Matter....Pages 343-502

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