17,184 research outputs found
Semi-Supervised Learning for Diagnosing Faults in Electromechanical Systems
Safe and reliable operation of the systems relies on the use of online condition monitoring and diagnostic systems that aim to take immediate actions upon the occurrence of a fault. Machine learning techniques are widely used for designing data-driven diagnostic models. The training procedure of a data-driven model usually requires a large amount of labeled data, which may not be always practical. This problem can be untangled by resorting to semi-supervised learning approaches, which enables the decision making procedure using only a few numbers of labeled samples coupled with a large number of unlabeled samples. Thus, it is crucial to conduct a critical study on the use of semi-supervised learning for the purpose of fault diagnosis. Another issue of concern is fault diagnosis in non-stationary environments, where data streams evolve over time, and as a result, model-based and most of the data-driven models are impractical. In this work, this has been addressed by means of an adaptive data-driven diagnostic model
SMOTE for Learning from Imbalanced Data: Progress and Challenges, Marking the 15-year Anniversary
The Synthetic Minority Oversampling Technique (SMOTE) preprocessing algorithm is
considered \de facto" standard in the framework of learning from imbalanced data. This
is due to its simplicity in the design of the procedure, as well as its robustness when applied
to di erent type of problems. Since its publication in 2002, SMOTE has proven
successful in a variety of applications from several di erent domains. SMOTE has also inspired
several approaches to counter the issue of class imbalance, and has also signi cantly
contributed to new supervised learning paradigms, including multilabel classi cation, incremental
learning, semi-supervised learning, multi-instance learning, among others. It is
standard benchmark for learning from imbalanced data. It is also featured in a number of
di erent software packages | from open source to commercial. In this paper, marking the
fteen year anniversary of SMOTE, we re
ect on the SMOTE journey, discuss the current
state of a airs with SMOTE, its applications, and also identify the next set of challenges
to extend SMOTE for Big Data problems.This work have been partially supported by the Spanish Ministry of Science and Technology
under projects TIN2014-57251-P, TIN2015-68454-R and TIN2017-89517-P; the Project
887 BigDaP-TOOLS - Ayudas Fundaci on BBVA a Equipos de Investigaci on Cient ca 2016;
and the National Science Foundation (NSF) Grant IIS-1447795
Supervised Classification: Quite a Brief Overview
The original problem of supervised classification considers the task of
automatically assigning objects to their respective classes on the basis of
numerical measurements derived from these objects. Classifiers are the tools
that implement the actual functional mapping from these measurements---also
called features or inputs---to the so-called class label---or output. The
fields of pattern recognition and machine learning study ways of constructing
such classifiers. The main idea behind supervised methods is that of learning
from examples: given a number of example input-output relations, to what extent
can the general mapping be learned that takes any new and unseen feature vector
to its correct class? This chapter provides a basic introduction to the
underlying ideas of how to come to a supervised classification problem. In
addition, it provides an overview of some specific classification techniques,
delves into the issues of object representation and classifier evaluation, and
(very) briefly covers some variations on the basic supervised classification
task that may also be of interest to the practitioner
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