The theory and application of penalized methods or Reproducing Kernel Hilbert Spaces made easy

Abstract

The popular cubic smoothing spline estimate of a regression function arises as the minimizer of the penalized sum of squares Σj(Yj - μ(tj))2 + λ∫ab [μ"(t)]2 dt, where the data are tj,Yj, j=1,..., n. The minimization is taken over an infinite-dimensional function space, the space of all functions with square integrable second derivatives. But the calculations can be carried out in a finite-dimensional space. The reduction from minimizing over an infinite dimensional space to minimizing over a finite dimensional space occurs for more general objective functions: the data may be related to the function μ in another way, the sum of squares may be replaced by a more suitable expression, or the penalty, ∫ab [μ"(t)]2 dt, might take a different form. This paper reviews the Reproducing Kernel Hilbert Space structure that provides a finite-dimensional solution for a general minimization problem. Particular attention is paid to penalties based on linear differential operators. In this case, one can sometimes easily calculate the minimizer explicitly, using Green's functions.