Integral representation of the global minimizer.

We have obtained an integral representation of the shallow neural network that attains the global minimum of its backpropagation (BP) training problem. According to our unpublished numerical simulations conducted several years prior to this study, we had noticed that such an integral representation may exist, but it was not proven until today. First, we introduced a Hilbert space of coefficient functions, and a reproducing kernel Hilbert space (RKHS) of hypotheses, associated with the integral representation. The RKHS reflects the approximation ability of neural networks. Second, we established the ridgelet analysis on RKHS. The analytic property of the integral representation is remarkably clear. Third, we reformulated the BP training as the optimization problem in the space of coefficient functions, and obtained a formal expression of the unique global minimizer, according to the Tikhonov regularization theory. Finally, we demonstrated that the global minimizer is the shrink ridgelet transform. Since the relation between an integral representation and an ordinary finite network is not clear, and BP is convex in the integral representation, we cannot immediately answer the question such as "Is a local minimum a global minimum?" However, the obtained integral representation provides an explicit expression of the global minimizer, without linearity-like assumptions, such as partial linearity and monotonicity. Furthermore, it indicates that the ordinary ridgelet transform provides the minimum norm solution to the original training equation.