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
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