Details

<b>PART I</b> <p>1 Introduction 3</p> <p>2 Ill-posed problems 11</p> <p>3 DSM for well-posed problems 57</p> <p>4 DSM and linear ill-posed problems 71</p> <p>5 Some inequalities 93</p> <p>6 DSM for monotone operators 133</p> <p>7 DSM for general nonlinear operator equations 145</p> <p>8 DSM for operators satisfying a spectral assumption 155</p> <p>9 DSM in Banach spaces 161</p> <p>10 DSM and Newton-type methods without inversion of the derivative 169</p> <p>11 DSM and unbounded operators 177</p> <p>12 DSM and nonsmooth operators 181</p> <p>13 DSM as a theoretical tool 195</p> <p>14 DSM and iterative methods 201</p> <p>15 Numerical problems arising in applications 213</p> <p><b>PART II</b></p> <p>16 Solving linear operator equations by a Newton-type DSM 255</p> <p>17 DSM of gradient type for solving linear operator equations 269</p> <p>18 DSM for solving linear equations with finite-rank operators 281</p> <p>19 A discrepancy principle for equations with monotone continuous operators 295</p> <p>20 DSM of Newton-type for solving operator equations with minimal smoothness assumptions 307</p> <p>21 DSM of gradient type 347</p> <p>22 DSM of simple iteration type 373</p> <p>23 DSM for solving nonlinear operator equations in Banach spaces 409</p> <p><b>PART III</b></p> <p>24 Solving linear operator equations by the DSM 423</p> <p>25 Stable solutions of Hammerstein-type integral equations 441</p> <p>26 Inversion of the Laplace transform from the real axis using an adaptive iterative method 455</p>

<p>“The book is well organized and presents the DSM method to solve a broad range of operator equations. Suitable for senior under graduate and under graduate students as well as practical engineers and researchers interested in dynamical systems methods and application for operator equations”.  (<i>Zentralblatt MATH</i>, 1 December 2012)</p>

<b>Alexander G. Ramm</b>, PhD, is Professor in the Department of Mathematics at Kansas State University. Dr. Ramm serves as associate editor for several journals. <p><b>Nguyen S. Hoang</b>, PhD, is Visiting Assistant Professor in the Department of Mathematics at the University of Oklahoma. He has published numerous journal articles in the areas of numerical analysis, operator theory, ordinary and partial differential equations, optimization, and inverse and ill-posed problems.</p>

<b>Demonstrates the application of DSM to solve a broad range of operator equations</b> <p>The dynamical systems method (DSM) is a powerful computational method for solving operator equations. With this book as their guide, readers will master the application of DSM to solve a variety of linear and nonlinear problems as well as ill-posed and well-posed problems. The authors offer a clear, step-by-step, systematic development of DSM that enables readers to grasp the method's underlying logic and its numerous applications.</p> <p><i>Dynamical Systems Method and Applications</i> begins with a general introduction and then sets forth the scope of DSM in Part One. Part Two introduces the discrepancy principle, and Part Three offers examples of numerical applications of DSM to solve a broad range of problems in science and engineering. Additional featured topics include:</p> <ul> <li> <p>General nonlinear operator equations</p> </li> <li> <p>Operators satisfying a spectral assumption</p> </li> <li> <p>Newton-type methods without inversion of the derivative</p> </li> <li> <p>Numerical problems arising in applications</p> </li> <li> <p>Stable numerical differentiation</p> </li> <li> <p>Stable solution to ill-conditioned linear algebraic systems</p> </li> </ul> <p>Throughout the chapters, the authors employ the use of figures and tables to help readers grasp and apply new concepts. Numerical examples offer original theoretical results based on the solution of practical problems involving ill-conditioned linear algebraic systems, and stable differentiation of noisy data.</p> <p>Written by internationally recognized authorities on the topic, <i>Dynamical Systems Method and Applications</i> is an excellent book for courses on numerical analysis, dynamical systems, operator theory, and applied mathematics at the graduate level. The book also serves as a valuable resource for professionals in the fields of mathematics, physics, and engineering.</p>

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