Approximation and complexity 1000-135APZ
A. Classical polynomial approximation
1. Problem formulation, a general characterization of optimal approximations
2. Approximation in Hilbert spaces
3. Algebraic and trigonometric polynomials, the Weierstrass theorem
4. Trigonometric approximation: Fourier and Fejer operators, Korovkin's theorem
5. Uniform approximation: Haar spaces, the Chebyshev theorem
6. Berntein's lethargy theorem
7. Theorems of Jackson and Bernstein
B. Information-based approximation
1. Information, error and cost of algorithms, problem complexity
2. Worst case setting: radius of information, optimality of linear algorithms
3. General splines and spline algorithms
4. Adaptive algorithms versus nonadaptive algorithms
5. Asymptotic setting
6. Randomization
7. Complexity of selected problems
Type of course
Course coordinators
Additional information
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
- Bachelor's degree, first cycle programme, Mathematics
- Master's degree, second cycle programme, Mathematics
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: