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General linear methods for ordinary differential equations [[electronic resource] /] / Zdzislaw Jackiewicz
| General linear methods for ordinary differential equations [[electronic resource] /] / Zdzislaw Jackiewicz |
| Autore | Jackiewicz Zdzisław <1950-> |
| Pubbl/distr/stampa | Hoboken, N.Y., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (500 p.) |
| Disciplina |
515
515.352 |
| Soggetto topico |
Differential equations, Linear
Linear systems |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-27856-8
9786612278563 0-470-52216-X 0-470-52215-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
General Linear Methods for Ordinary Differential Equations; CONTENTS; Preface; 1 Differential Equations and Systems; 1.1 The initial value problem; 1.2 Examples of differential equations and systems; 1.3 Existence and uniqueness of solutions; 1.4 Continuous dependence on initial values and the right-hand side; 1.5 Derivatives with respect to parameters and initial values; 1.6 Stability theory; 1.7 Stiff differential equations and systems; 1.8 Examples of stiff differential equations and systems; 2 Introduction to General Linear Methods; 2.1 Representation of general linear methods
2.2 Preconsistency, consistency, stage-consistency, and zero-stability2.3 Convergence; 2.4 Order and stage order conditions; 2.5 Local discretization error of methods of high stage order; 2.6 Linear stability theory of general linear methods; 2.7 Types of general linear methods; 2.8 Illustrative examples of general linear methods; 2.8.1 Type l: p = r = s = 2 and q = lor 2; 2.8.2 Type 2: p = r = s = 2 and q = 1 or 2; 2.8.3 Type 3: p = r = s = 2 and q = 1 or 2; 2.8.4 Type 4:p = r = s = 2 and q = 1 or 2; 2.9 Algebraic stability of general linear methods; 2.10 Underlying one-step method 2.11 Starting procedures2.12 Codes based on general linear methods; 3 Diagonally Implicit Multistage Integration Methods; 3.1 Representation of DIMSIMs; 3.2 Representation formulas for the coefficient matrix B; 3.3 A transformation for the analysis of DIMSIMs; 3.4 Construction of DIMSIMs of type 1; 3.5 Construction of DIMSIMs of type 2; 3.6 Construction of DIMSIMs of type 3; 3.7 Construction of DIMSIMs of type 4; 3.8 Fourier series approach to the construction of DIMSIMs of high order; 3.9 Least-squares minimization; 3.10 Examples of DIMSIMs of types 1 and 2 3.11 Nordsieck representation of DIMSIMs3.12 Representation formulas for coefficient matrices P and G·; 3.13 Examples of DIMSIMs in Nordsieck form; 3.14 Regularity properties of DIMSIMs; 4 Implementation of DIMSIMs; 4.1 Variable step size formulation of DIMSIMs; 4.2 Local error estimation; 4.3 Local error estimation for large step sizes; 4.4 Construction of continuous interpolants; 4.5 Step size and order changing strategy; 4.6 Updating the vector of external approximations; 4.7 Step-control stability of DIMSIMs; 4.8 Simplified Newton iterations for implicit methods 4.9 Numerical experiments with type 1 DIMSIMs4.10 Numerical experiments with type 2 DIMSIMs; 5 Two-Step Runge-Kutta Methods; 5.1 Representation of two-step Runge-Kutta methods; 5.2 Order conditions for TSRK methods; 5.3 Derivation of order conditions up to order 6; 5.4 Analysis of TSRK methods with one stage; 5.4.1 Explicit TSRK methods: s = l, p = 2 or 3; 5.4.2 Implicit TSRK methods: s = l, p = 2 or 3; 5.5 Analysis of TSRK methods with two stages; 5.5.1 Explicit TSRK methods: s = 2, p = 2, q = 1 or 2; 5.5.2 Implicit TSRK methods: s = 2, p = 2, q = 1 or 2 5.5.3 Explicit TSRK methods: s = 2, p = 4 or 5 |
| Record Nr. | UNINA-9910139753803321 |
Jackiewicz Zdzisław <1950->
|
||
| Hoboken, N.Y., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
General linear methods for ordinary differential equations [[electronic resource] /] / Zdzislaw Jackiewicz
| General linear methods for ordinary differential equations [[electronic resource] /] / Zdzislaw Jackiewicz |
| Autore | Jackiewicz Zdzisław <1950-> |
| Pubbl/distr/stampa | Hoboken, N.Y., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (500 p.) |
| Disciplina |
515
515.352 |
| Soggetto topico |
Differential equations, Linear
Linear systems |
| ISBN |
1-282-27856-8
9786612278563 0-470-52216-X 0-470-52215-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
General Linear Methods for Ordinary Differential Equations; CONTENTS; Preface; 1 Differential Equations and Systems; 1.1 The initial value problem; 1.2 Examples of differential equations and systems; 1.3 Existence and uniqueness of solutions; 1.4 Continuous dependence on initial values and the right-hand side; 1.5 Derivatives with respect to parameters and initial values; 1.6 Stability theory; 1.7 Stiff differential equations and systems; 1.8 Examples of stiff differential equations and systems; 2 Introduction to General Linear Methods; 2.1 Representation of general linear methods
2.2 Preconsistency, consistency, stage-consistency, and zero-stability2.3 Convergence; 2.4 Order and stage order conditions; 2.5 Local discretization error of methods of high stage order; 2.6 Linear stability theory of general linear methods; 2.7 Types of general linear methods; 2.8 Illustrative examples of general linear methods; 2.8.1 Type l: p = r = s = 2 and q = lor 2; 2.8.2 Type 2: p = r = s = 2 and q = 1 or 2; 2.8.3 Type 3: p = r = s = 2 and q = 1 or 2; 2.8.4 Type 4:p = r = s = 2 and q = 1 or 2; 2.9 Algebraic stability of general linear methods; 2.10 Underlying one-step method 2.11 Starting procedures2.12 Codes based on general linear methods; 3 Diagonally Implicit Multistage Integration Methods; 3.1 Representation of DIMSIMs; 3.2 Representation formulas for the coefficient matrix B; 3.3 A transformation for the analysis of DIMSIMs; 3.4 Construction of DIMSIMs of type 1; 3.5 Construction of DIMSIMs of type 2; 3.6 Construction of DIMSIMs of type 3; 3.7 Construction of DIMSIMs of type 4; 3.8 Fourier series approach to the construction of DIMSIMs of high order; 3.9 Least-squares minimization; 3.10 Examples of DIMSIMs of types 1 and 2 3.11 Nordsieck representation of DIMSIMs3.12 Representation formulas for coefficient matrices P and G·; 3.13 Examples of DIMSIMs in Nordsieck form; 3.14 Regularity properties of DIMSIMs; 4 Implementation of DIMSIMs; 4.1 Variable step size formulation of DIMSIMs; 4.2 Local error estimation; 4.3 Local error estimation for large step sizes; 4.4 Construction of continuous interpolants; 4.5 Step size and order changing strategy; 4.6 Updating the vector of external approximations; 4.7 Step-control stability of DIMSIMs; 4.8 Simplified Newton iterations for implicit methods 4.9 Numerical experiments with type 1 DIMSIMs4.10 Numerical experiments with type 2 DIMSIMs; 5 Two-Step Runge-Kutta Methods; 5.1 Representation of two-step Runge-Kutta methods; 5.2 Order conditions for TSRK methods; 5.3 Derivation of order conditions up to order 6; 5.4 Analysis of TSRK methods with one stage; 5.4.1 Explicit TSRK methods: s = l, p = 2 or 3; 5.4.2 Implicit TSRK methods: s = l, p = 2 or 3; 5.5 Analysis of TSRK methods with two stages; 5.5.1 Explicit TSRK methods: s = 2, p = 2, q = 1 or 2; 5.5.2 Implicit TSRK methods: s = 2, p = 2, q = 1 or 2 5.5.3 Explicit TSRK methods: s = 2, p = 4 or 5 |
| Record Nr. | UNINA-9910830957803321 |
|
Jackiewicz Zdzisław <1950->
|
||
| Hoboken, N.Y., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||