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Numerical Data Fitting in Dynamical Systems : A Practical Introduction with Applications and Software / by Klaus Schittkowski
(Applied Optimization ; 77)
版 | 1st ed. 2002. |
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出版者 | (New York, NY : Springer US : Imprint: Springer) |
出版年 | 2002 |
本文言語 | 英語 |
大きさ | XII, 396 p. 42 illus : online resource |
著者標目 | *Schittkowski, Klaus author SpringerLink (Online service) |
件 名 | LCSH:Numerical analysis LCSH:Mathematical optimization LCSH:Mathematical models LCSH:Mathematics LCSH:Biometry FREE:Numerical Analysis FREE:Optimization FREE:Mathematical Modeling and Industrial Mathematics FREE:Applications of Mathematics FREE:Biostatistics |
一般注記 | 1 Introduction -- 2 Mathematical Foundations -- 3 Data Fitting Models -- 4 Numerical Experiments -- 5 Case Studies -- Appendix A: Software Installation -- 1 Hardware and Software Requirements -- 2 System Setup -- 3 Packing List -- Appendix B: Test Examples -- 1 Explicit Model Functions -- 2 Laplace Transforms -- 3 Steady State Equations -- 4 Ordinary Differential Equations -- 5 Differential Algebraic Equations -- 6 Partial Differential Equations -- 7 Partial Differential Algebraic Equations -- Appendix C: The PCOMP Language -- Appendix D: Generation of Fortran Code -- 1 Model Equations -- 1.1 Input of Explicit Model Functions -- 1.2 Input of Laplace Transformations -- 1.3 Input of Systems of Steady State Equations -- 1.4 Input of Ordinary Differential Equations -- 1.5 Input of Differential Algebraic Equations -- 1.6 Input of Time-Dependent Partial Differential Equations -- 1.7 Input of Partial Differential Algebraic Equations -- 2 Execution of Generated Code -- References Real life phenomena in engineering, natural, or medical sciences are often described by a mathematical model with the goal to analyze numerically the behaviour of the system. Advantages of mathematical models are their cheap availability, the possibility of studying extreme situations that cannot be handled by experiments, or of simulating real systems during the design phase before constructing a first prototype. Moreover, they serve to verify decisions, to avoid expensive and time consuming experimental tests, to analyze, understand, and explain the behaviour of systems, or to optimize design and production. As soon as a mathematical model contains differential dependencies from an additional parameter, typically the time, we call it a dynamical model. There are two key questions always arising in a practical environment: 1 Is the mathematical model correct? 2 How can I quantify model parameters that cannot be measured directly? In principle, both questions are easily answered as soon as some experimental data are available. The idea is to compare measured data with predicted model function values and to minimize the differences over the whole parameter space. We have to reject a model if we are unable to find a reasonably accurate fit. To summarize, parameter estimation or data fitting, respectively, is extremely important in all practical situations, where a mathematical model and corresponding experimental data are available to describe the behaviour of a dynamical system HTTP:URL=https://doi.org/10.1007/978-1-4419-5762-7 |
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電子ブック | 配架場所 | 資料種別 | 巻 次 | 請求記号 | 状 態 | 予約 | コメント | ISBN | 刷 年 | 利用注記 | 指定図書 | 登録番号 |
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電子ブック | オンライン | 電子ブック |
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Springer eBooks | 9781441957627 |
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EB00228511 |
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データ種別 | 電子ブック |
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分 類 | LCC:QA297-299.4 DC23:518 |
書誌ID | 4000104734 |
ISBN | 9781441957627 |
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