Finite Frame Theory

By Kasso A. Okoudjou

Subjects: Convex sets in $n$ dimensions (including convex hypersurfaces), Trigonometric approximation, Vector analysis, Communication, information, Harmonic analysis in one variable, Congresses, Operations research, mathematical programming, Signal theory (characterization, reconstruction, filtering, etc.), Approximations and expansions, Convex and discrete geometry, Special classes of linear operators, Nonconvex programming, global optimization, General convexity, Numerical analysis, General harmonic expansions, frames, $n$-dimensional polytopes, Information and communication, circuits, Linear and multilinear algebra; matrix theory, Approximation by arbitrary linear expressions, Hilbert space, None of the above, but in this section, Polytopes and polyhedra, Frames (Vector analysis), Nonlinear algebraic or transcendental equations, Nontrigonometric harmonic analysis, Systems of equations, Inverse problems, Operator theory, Harmonic analysis on Euclidean spaces, Mathematical programming, Basic linear algebra

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