SubjectsSubjects(version: 953)
Course, academic year 2023/2024
   Login via CAS
Introduction to Numerical Mathematics - NMNM211
Title: Úvod do numerické matematiky
Guaranteed by: Department of Numerical Mathematics (32-KNM)
Faculty: Faculty of Mathematics and Physics
Actual: from 2023
Semester: summer
E-Credits: 8
Hours per week, examination: summer s.:4/2, C+Ex [HT]
Capacity: unlimited
Min. number of students: unlimited
4EU+: no
Virtual mobility / capacity: no
State of the course: taught
Language: Czech
Teaching methods: full-time
Teaching methods: full-time
Guarantor: doc. RNDr. Iveta Hnětynková, Ph.D.
Class: M Bc. FM
M Bc. FM > Povinné
M Bc. FM > 2. ročník
Classification: Mathematics > Numerical Analysis
Pre-requisite : {At least one 1st year Calculus course}
Incompatibility : NNUM009
Interchangeability : NNUM009
Is interchangeable with: NNUM009
Annotation -
The first course of numerical analysis for students of Financial Mathematics.
Last update: G_M (16.05.2012)
Aim of the course -

a review of basic computational tools, practical excersises

Last update: G_M (27.04.2012)
Course completion requirements -

Credit is obtained for participation in exercises and a computer test. The nature of the examination of the subject excludes repetition of the examination,

Last update: Kučera Václav, doc. RNDr., Ph.D. (29.10.2019)
Literature -

Deuflhard P. and Hohmann A.: Introduction to Scientific Computing, 2nd edition, Springer, 2002

Quarteroni A., Sacco R. and Saleri F.: Numerical mathematics, Springer, 2000

Tebbens J., Hnětýnková I., Plešinger M., Strakoš Z. and Tichý P.: Analýza metod pro maticové výpočty. Základní metody. Matfyz press, Praha, 2012

Last update: Kučera Václav, doc. RNDr., Ph.D. (29.10.2019)
Teaching methods -

The course consists of lectures in a lecture hall and exercises in a computer laboratory.

Last update: G_M (27.04.2012)
Requirements to the exam -

Examination according to the syllabus.

Last update: G_M (27.04.2012)
Syllabus -

Solving liner systems, direct methods: Gauss elimination, LU-decomposition, pivoting, Cholesky decompositon.

Least Squares: data fitting, linear least squares, normal equation, pseudoinverse, QR-decomposition.

Nonlinear systems: Fixed Point Theorem (contraction mapping), Newton's Method, Newton-like methods.

Function minimization: Nelder-Mead Method, Method of Steepest Descent, Conjugate Gradient Method.

Interpolation: Lagrange Interpolating Polynomial, Chebyshev Polynomial, splines.

Ordinary Differential Equations: initial value problem, Euler Method, implicit Euler Method, Runge-Kutta Method.

Eigenvalue problems: a primer (eigenvalue, eigenvector, Characteristic Polynomial, multiplicity, Similar Matrices, Jordan canonical form), Power Method, Inverse iteration, QR algoritmus.

Iterative Methods (linear systems): large sparse matrices, Gauss-Seidel Method, Successive Overrelaxation Method, Conjugate Gradient Method, preconditioning.

Last update: G_M (27.04.2012)
Entry requirements -

basic knowledge of calculus and linear algebra

Last update: Janovský Vladimír, prof. RNDr., DrSc. (22.02.2019)
 
Charles University | Information system of Charles University | http://www.cuni.cz/UKEN-329.html