Bernhard Schölkopf scite author profile

In this tutorial we give an overview of the basic ideas underlying Support Vector (SV) machines for function estimation. Furthermore, we include a summary of currently used algorithms for training SV machines, covering both the quadratic (or convex) programming part and advanced methods for dealing with large datasets. Finally, we mention some modifications and extensions that have been applied to the standard SV algorithm, and discuss the aspect of regularization from a SV perspective.

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Nonlinear Component Analysis as a Kernel Eigenvalue Problem

Schölkopf

1998

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We describe a new method for performing a nonlinear form of Principal Component A n a lysis. By the use of integral operator kernel functions, we can e ciently compute principal components in high{dimensional feature spaces, related to input space by some nonlinear map for instance the space of all possible 5{pixel products in 16 16 images. We give t h e derivation of the method, along with a discussion of other techniques which c a n b e m a d e nonlinear with the kernel approach and present rst experimental results on nonlinear feature extraction for pattern recognition.AS and KRM are with GMD First (Forschungszentrum Informationstechnik), Rudower Chaussee 5, 12489 Berlin. AS and BS were supported by grants from the Studienstiftung des deutschen Volkes. BS thanks the GMD First for hospitality during two visits. AS and BS

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Estimating the Support of a High-Dimensional Distribution

et al. 2001

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Suppose you are given some data set drawn from an underlying probability distribution P and you want to estimate a "simple" subset S of input space such that the probability that a test point drawn from P lies outside of S equals some a priori specified value between 0 and 1. We propose a method to approach this problem by trying to estimate a function f that is positive on S and negative on the complement. The functional form of f is given by a kernel expansion in terms of a potentially small subset of the training data; it is regularized by controlling the length of the weight vector in an associated feature space. The expansion coefficients are found by solving a quadratic programming problem, which we do by carrying out sequential optimization over pairs of input patterns. We also provide a theoretical analysis of the statistical performance of our algorithm. The algorithm is a natural extension of the support vector algorithm to the case of unlabeled data.

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A gene expression map of Arabidopsis thaliana development

et al. 2005

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Regulatory regions of plant genes tend to be more compact than those of animal genes, but the complement of transcription factors encoded in plant genomes is as large or larger than that found in those of animals. Plants therefore provide an opportunity to study how transcriptional programs control multicellular development. We analyzed global gene expression during development of the reference plant Arabidopsis thaliana in samples covering many stages, from embryogenesis to senescence, and diverse organs. Here, we provide a first analysis of this data set, which is part of the AtGenExpress expression atlas. We observed that the expression levels of transcription factor genes and signal transduction components are similar to those of metabolic genes. Examining the expression patterns of large gene families, we found that they are often more similar than would be expected by chance, indicating that many gene families have been co-opted for specific developmental processes.

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Support vector machines

Hearst

Dumais²,

Osman³

et al. 1998

IEEE Intell. Syst. Their Appl.

4,427

1,378

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My first exposure to Support Vector Machines came this spring when heard Sue Dumais present impressive results on text categorization using this analysis technique. This issue's collection of essays should help familiarize our readers with this interesting new racehorse in the Machine Learning stable. Bernhard Scholkopf, in an introductory overview, points out that a particular advantage of SVMs over other learning algorithms is that it can be analyzed theoretically using concepts from computational learning theory, and at the same time can achieve good performance when applied to real problems. Examples of these real-world applications are provided by Sue Dumais, who describes the aforementioned text-categorization problem, yielding the best results to date on the Reuters collection, and Edgar Osuna, who presents strong results on application to face detection. Our fourth author, John Platt, gives us a practical guide and a new technique for implementing the algorithm efficiently

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