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Line 1: In [[mathematics]] and [[functional analysis]] a '''reproducing kernel [[Hilbert space]]''' is a [[function space]] in which pointwise evaluation is a continuous linear functional. ~~Alternatively~~Equivalently, ~~we will show~~ they are spaces that can be defined by [[reproducing kernel]]s. The subject was originally and simultaneously developed by [[N. Aronszajn]] and [[S. Bergman]] in [[1950]]. In this article we assume that Hilbert spaces are complex. This is because many of the examples of reproducing kernel [[Hilbert space]]s are spaces of analytic functions. Also recall the sesquilinearity convention: the inner product is linear in the second variable. Let ''X'' be an arbitrary set and ''H'' a [[Hilbert space]] of complex-valued functions on ''X''. ''H'' is a reproducing kernel Hilbert space iff the linear map

Reproducing kernel Hilbert space: Difference between revisions