Mathematical Modeling in Biomedical Imaging II

Mathematical Modeling in Biomedical Imaging II
Author :
Publisher : Springer Science & Business Media
Total Pages : 170
Release :
ISBN-10 : 9783642229893
ISBN-13 : 3642229891
Rating : 4/5 (93 Downloads)

Synopsis Mathematical Modeling in Biomedical Imaging II by : Habib Ammari

This volume reports on recent mathematical and computational advances in optical, ultrasound, and opto-acoustic tomographies. It outlines the state-of-the-art and future directions in these fields and provides readers with the most recently developed mathematical and computational tools. It is particularly suitable for researchers and graduate students in applied mathematics and biomedical engineering.

Mathematical Modeling in Biomedical Imaging I

Mathematical Modeling in Biomedical Imaging I
Author :
Publisher : Springer Science & Business Media
Total Pages : 244
Release :
ISBN-10 : 9783642034435
ISBN-13 : 3642034438
Rating : 4/5 (35 Downloads)

Synopsis Mathematical Modeling in Biomedical Imaging I by : Habib Ammari

This volume gives an introduction to a fascinating research area to applied mathematicians. It is devoted to providing the exposition of promising analytical and numerical techniques for solving challenging biomedical imaging problems, which trigger the investigation of interesting issues in various branches of mathematics.

Introduction to the Mathematics of Medical Imaging

Introduction to the Mathematics of Medical Imaging
Author :
Publisher : SIAM
Total Pages : 794
Release :
ISBN-10 : 0898717795
ISBN-13 : 9780898717792
Rating : 4/5 (95 Downloads)

Synopsis Introduction to the Mathematics of Medical Imaging by : Charles L. Epstein

At the heart of every medical imaging technology is a sophisticated mathematical model of the measurement process and an algorithm to reconstruct an image from the measured data. This book provides a firm foundation in the mathematical tools used to model the measurements and derive the reconstruction algorithms used in most of these modalities. The text uses X-ray computed tomography (X-ray CT) as a 'pedagogical machine' to illustrate important ideas and its extensive discussion of background material makes the more advanced mathematical topics accessible to people with a less formal mathematical education. This new edition contains a chapter on magnetic resonance imaging (MRI), a revised section on the relationship between the continuum and discrete Fourier transforms, an improved description of the gridding method, and new sections on both Grangreat's formula and noise analysis in MR-imaging. Mathematical concepts are illuminated with over 200 illustrations and numerous exercises.

Mathematical Biology II

Mathematical Biology II
Author :
Publisher : Springer Science & Business Media
Total Pages : 834
Release :
ISBN-10 : 9780387952284
ISBN-13 : 0387952284
Rating : 4/5 (84 Downloads)

Synopsis Mathematical Biology II by : James D. Murray

This richly illustrated third edition provides a thorough training in practical mathematical biology and shows how exciting mathematical challenges can arise from a genuinely interdisciplinary involvement with the biosciences. It has been extensively updated and extended to cover much of the growth of mathematical biology. From the reviews: ""This book, a classical text in mathematical biology, cleverly combines mathematical tools with subject area sciences."--SHORT BOOK REVIEWS

An Introduction to Mathematics of Emerging Biomedical Imaging

An Introduction to Mathematics of Emerging Biomedical Imaging
Author :
Publisher : Springer Science & Business Media
Total Pages : 198
Release :
ISBN-10 : 9783540795537
ISBN-13 : 3540795537
Rating : 4/5 (37 Downloads)

Synopsis An Introduction to Mathematics of Emerging Biomedical Imaging by : Habib Ammari

Biomedical imaging is a fascinating research area to applied mathematicians. Challenging imaging problems arise and they often trigger the investigation of fundamental problems in various branches of mathematics. This is the first book to highlight the most recent mathematical developments in emerging biomedical imaging techniques. The main focus is on emerging multi-physics and multi-scales imaging approaches. For such promising techniques, it provides the basic mathematical concepts and tools for image reconstruction. Further improvements in these exciting imaging techniques require continued research in the mathematical sciences, a field that has contributed greatly to biomedical imaging and will continue to do so. The volume is suitable for a graduate-level course in applied mathematics and helps prepare the reader for a deeper understanding of research areas in biomedical imaging.

Mathematical Modeling in Biomedical Imaging II

Mathematical Modeling in Biomedical Imaging II
Author :
Publisher : Springer
Total Pages : 160
Release :
ISBN-10 : 3642229913
ISBN-13 : 9783642229916
Rating : 4/5 (13 Downloads)

Synopsis Mathematical Modeling in Biomedical Imaging II by : Habib Ammari

This volume reports on recent mathematical and computational advances in optical, ultrasound, and opto-acoustic tomographies. It outlines the state-of-the-art and future directions in these fields and provides readers with the most recently developed mathematical and computational tools. It is particularly suitable for researchers and graduate students in applied mathematics and biomedical engineering.

Mathematical Methods in Image Reconstruction

Mathematical Methods in Image Reconstruction
Author :
Publisher : SIAM
Total Pages : 226
Release :
ISBN-10 : 9780898716221
ISBN-13 : 0898716225
Rating : 4/5 (21 Downloads)

Synopsis Mathematical Methods in Image Reconstruction by : Frank Natterer

This book provides readers with a superior understanding of the mathematical principles behind imaging.

Mathematical Modeling

Mathematical Modeling
Author :
Publisher : CRC Press
Total Pages : 419
Release :
ISBN-10 : 9781351022934
ISBN-13 : 1351022938
Rating : 4/5 (34 Downloads)

Synopsis Mathematical Modeling by : Sandip Banerjee

Mathematical Modeling: Models, Analysis and Applications, Second Edition introduces models of both discrete and continuous systems. This book is aimed at newcomers who desires to learn mathematical modeling, especially students taking a first course in the subject. Beginning with the step-by-step guidance of model formulation, this book equips the reader about modeling with difference equations (discrete models), ODE’s, PDE’s, delay and stochastic differential equations (continuous models). This book provides interdisciplinary and integrative overview of mathematical modeling, making it a complete textbook for a wide audience. A unique feature of the book is the breadth of coverage of different examples on mathematical modelling, which include population models, economic models, arms race models, combat models, learning model, alcohol dynamics model, carbon dating, drug distribution models, mechanical oscillation models, epidemic models, tumor models, traffic flow models, crime flow models, spatial models, football team performance model, breathing model, two neuron system model, zombie model and model on love affairs. Common themes such as equilibrium points, stability, phase plane analysis, bifurcations, limit cycles, period doubling and chaos run through several chapters and their interpretations in the context of the model have been highlighted. In chapter 3, a section on estimation of system parameters with real life data for model validation has also been discussed. Features Covers discrete, continuous, spatial, delayed and stochastic models. Over 250 illustrations, 300 examples and exercises with complete solutions. Incorporates MATHEMATICA® and MATLAB®, each chapter contains Mathematica and Matlab codes used to display numerical results (available at CRC website). Separate sections for Projects. Several exercise problems can also be used for projects. Presents real life examples of discrete and continuous scenarios. The book is ideal for an introductory course for undergraduate and graduate students, engineers, applied mathematicians and researchers working in various areas of natural and applied sciences.

Mathematical Modeling in Biomedical Imaging I

Mathematical Modeling in Biomedical Imaging I
Author :
Publisher : Springer
Total Pages : 244
Release :
ISBN-10 : 9783642034442
ISBN-13 : 3642034446
Rating : 4/5 (42 Downloads)

Synopsis Mathematical Modeling in Biomedical Imaging I by : Habib Ammari

This volume details promising analytical and numerical techniques for solving challenging biomedical imaging problems, which trigger the investigation of interesting issues in various branches of mathematics.

Computational Modeling in Biomedical Engineering and Medical Physics

Computational Modeling in Biomedical Engineering and Medical Physics
Author :
Publisher : Academic Press
Total Pages : 320
Release :
ISBN-10 : 9780128178973
ISBN-13 : 0128178973
Rating : 4/5 (73 Downloads)

Synopsis Computational Modeling in Biomedical Engineering and Medical Physics by : Alexandru Morega

Mathematical and numerical modelling of engineering problems in medicine is aimed at unveiling and understanding multidisciplinary interactions and processes and providing insights useful to clinical care and technology advances for better medical equipment and systems. When modelling medical problems, the engineer is confronted with multidisciplinary problems of electromagnetism, heat and mass transfer, and structural mechanics with, possibly, different time and space scales, which may raise concerns in formulating consistent, solvable mathematical models. Computational Medical Engineering presents a number of engineering for medicine problems that may be encountered in medical physics, procedures, diagnosis and monitoring techniques, including electrical activity of the heart, hemodynamic activity monitoring, magnetic drug targeting, bioheat models and thermography, RF and microwave hyperthermia, ablation, EMF dosimetry, and bioimpedance methods. The authors discuss the core approach methodology to pose and solve different problems of medical engineering, including essentials of mathematical modelling (e.g., criteria for well-posed problems); physics scaling (homogenization techniques); Constructal Law criteria in morphing shape and structure of systems with internal flows; computational domain construction (CAD and, or reconstruction techniques based on medical images); numerical modelling issues, and validation techniques used to ascertain numerical simulation results. In addition, new ideas and venues to investigate and understand finer scale models and merge them into continuous media medical physics are provided as case studies.