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Main Authors: Frangioni, Antonio, Gorgone, Enrico, Manca, Benedetto
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.20698
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author Frangioni, Antonio
Gorgone, Enrico
Manca, Benedetto
author_facet Frangioni, Antonio
Gorgone, Enrico
Manca, Benedetto
contents We propose the -- to the best of our knowledge -- first fully functional implementation of the ``Separation by a Convex Body'' (SCB) approach first outlined in Grzybowski et al. [1] for classification, separating two data sets using an ellipsoid. A training problem is defined that is structurally similar to the Support Vector Machine (SVM) one, thus leading to call our method the Ellipsoidal Separation Machine (ESM). Like SVM, the training problem is convex, and can in particular be formulated as a Semidefinite Program (SDP); however, solving it by means of standard SDP approaches does not scale to the size required by practical classification task. As an alternative, a nonconvex formulation is proposed that is amenable to a Block-Gauss-Seidel approach alternating between a much smaller SDP and a simple separable Second-Order Cone Program (SOCP). For the purpose of the classification approach the reduced SDP can even be solved approximately by relaxing it in a Lagrangian way and updating the multipliers by fast subgradient-type approaches. A characteristic of ESM is that it necessarily defines ``indeterminate points'', i.e., those that cannot be reliably classified as belonging to one of the two sets. This makes it particularly suitable for Classification with Rejection (CwR) tasks, whereby the system explicitly indicates that classification of some points as belonging to one of the two sets is too doubtful to be reliable. We show that, in many datasets, ESM is competitive with SVM -- with the kernel chosen among the three standard ones and endowed with CwR capabilities using the margin of the classifier -- and in general behaves differently; thus, ESM provides another arrow in the quiver when designing CwR approaches.
format Preprint
id arxiv_https___arxiv_org_abs_2507_20698
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Ellipsoidal Separation Machine
Frangioni, Antonio
Gorgone, Enrico
Manca, Benedetto
Optimization and Control
We propose the -- to the best of our knowledge -- first fully functional implementation of the ``Separation by a Convex Body'' (SCB) approach first outlined in Grzybowski et al. [1] for classification, separating two data sets using an ellipsoid. A training problem is defined that is structurally similar to the Support Vector Machine (SVM) one, thus leading to call our method the Ellipsoidal Separation Machine (ESM). Like SVM, the training problem is convex, and can in particular be formulated as a Semidefinite Program (SDP); however, solving it by means of standard SDP approaches does not scale to the size required by practical classification task. As an alternative, a nonconvex formulation is proposed that is amenable to a Block-Gauss-Seidel approach alternating between a much smaller SDP and a simple separable Second-Order Cone Program (SOCP). For the purpose of the classification approach the reduced SDP can even be solved approximately by relaxing it in a Lagrangian way and updating the multipliers by fast subgradient-type approaches. A characteristic of ESM is that it necessarily defines ``indeterminate points'', i.e., those that cannot be reliably classified as belonging to one of the two sets. This makes it particularly suitable for Classification with Rejection (CwR) tasks, whereby the system explicitly indicates that classification of some points as belonging to one of the two sets is too doubtful to be reliable. We show that, in many datasets, ESM is competitive with SVM -- with the kernel chosen among the three standard ones and endowed with CwR capabilities using the margin of the classifier -- and in general behaves differently; thus, ESM provides another arrow in the quiver when designing CwR approaches.
title The Ellipsoidal Separation Machine
topic Optimization and Control
url https://arxiv.org/abs/2507.20698