22,220 research outputs found
Mean field variational Bayesian inference for support vector machine classification
A mean field variational Bayes approach to support vector machines (SVMs)
using the latent variable representation on Polson & Scott (2012) is presented.
This representation allows circumvention of many of the shortcomings associated
with classical SVMs including automatic penalty parameter selection, the
ability to handle dependent samples, missing data and variable selection. We
demonstrate on simulated and real datasets that our approach is easily
extendable to non-standard situations and outperforms the classical SVM
approach whilst remaining computationally efficient.Comment: 18 pages, 4 figure
Linear system identification using stable spline kernels and PLQ penalties
The classical approach to linear system identification is given by parametric
Prediction Error Methods (PEM). In this context, model complexity is often
unknown so that a model order selection step is needed to suitably trade-off
bias and variance. Recently, a different approach to linear system
identification has been introduced, where model order determination is avoided
by using a regularized least squares framework. In particular, the penalty term
on the impulse response is defined by so called stable spline kernels. They
embed information on regularity and BIBO stability, and depend on a small
number of parameters which can be estimated from data. In this paper, we
provide new nonsmooth formulations of the stable spline estimator. In
particular, we consider linear system identification problems in a very broad
context, where regularization functionals and data misfits can come from a rich
set of piecewise linear quadratic functions. Moreover, our anal- ysis includes
polyhedral inequality constraints on the unknown impulse response. For any
formulation in this class, we show that interior point methods can be used to
solve the system identification problem, with complexity O(n3)+O(mn2) in each
iteration, where n and m are the number of impulse response coefficients and
measurements, respectively. The usefulness of the framework is illustrated via
a numerical experiment where output measurements are contaminated by outliers.Comment: 8 pages, 2 figure
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