Search results for " learning"

showing 10 items of 5299 documents

Support Vector Machine and Kernel Classification Algorithms

2018

This chapter introduces the basics of support vector machine (SVM) and other kernel classifiers for pattern recognition and detection. It also introduces the main elements and concept underlying the successful binary SVM. The chapter starts by introducing the main elements and concept underlying the successful binary SVM. Next, it introduces more advanced topics in SVM for classification, including large margin filtering (LMF), SSL, active learning, and large‐scale classification using SVMs. The LMF method performs both signal filtering and classification simultaneously by learning the most appropriate filters. SSL with SVMs exploits the information contained in both labeled and unlabeled e…

Computer Science::Machine LearningOptimization problemActive learning (machine learning)business.industryComputer scienceBinary numberPattern recognitionSupport vector machineStatistical classificationComputingMethodologies_PATTERNRECOGNITIONMargin (machine learning)Kernel (statistics)Pattern recognition (psychology)Artificial intelligencebusiness
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Magnetic fields in heavy ion collisions: flow and charge transport

2020

At the earliest times after a heavy-ion collision, the magnetic field created by the spectator nucleons will generate an extremely strong, albeit rapidly decreasing in time, magnetic field. The impact of this magnetic field may have detectable consequences, and is believed to drive anomalous transport effects like the Chiral Magnetic Effect (CME). We detail an exploratory study on the effects of a dynamical magnetic field on the hydrodynamic medium created in the collisions of two ultrarelativistic heavy-ions, using the framework of numerical ideal MagnetoHydroDynamics (MHD) with the ECHO-QGP code. In this study, we consider a magnetic field captured in a conducting medium, where the conduc…

Computer Science::Machine LearningParticle physicsPhysics and Astronomy (miscellaneous)Nuclear Theoryheavy ion collisionsFOS: Physical scienceslcsh:Astrophysicsmagnetic fieldshiukkasfysiikkamagneettikentätComputer Science::Digital Libraries01 natural sciencesElectric charge530Nuclear Theory (nucl-th)Statistics::Machine LearningHigh Energy Physics - Phenomenology (hep-ph)0103 physical scienceslcsh:QB460-466ddc:530lcsh:Nuclear and particle physics. Atomic energy. RadioactivityNuclear Experiment (nucl-ex)010306 general physicsNuclear ExperimentEngineering (miscellaneous)Nuclear ExperimentPhysicsCharge conservation010308 nuclear & particles physicsElliptic flowCharge (physics)FermionMagnetic fieldDipoleHigh Energy Physics - PhenomenologyQuantum electrodynamicsComputer Science::Mathematical Softwarelcsh:QC770-798MagnetohydrodynamicsThe European Physical Journal C
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Thermodynamics of the Classical Planar Ferromagnet Close to the Zero-Temperature Critical Point: A Many-Body Approach

2012

We explore the low-temperature thermodynamic properties and crossovers of ad-dimensional classical planar Heisenberg ferromagnet in a longitudinal magnetic field close to its field-induced zero-temperature critical point by employing the two-time Green’s function formalism in classical statistical mechanics. By means of a classical Callen-like method for the magnetization and the Tyablikov-like decoupling procedure, we obtain, for anyd, a low-temperature critical scenario which is quite similar to the one found for the quantum counterpart. Remarkably, ford>2the discrimination between the two cases is found to be related to the different values of the shift exponent which governs the beha…

Computer Science::Machine LearningPhysicsArticle SubjectCondensed matter physicsThermodynamicsStatistical mechanicsCondensed Matter PhysicsComputer Science::Digital Librarieslcsh:QC1-999Statistics::Machine LearningReduced propertiesCritical point (thermodynamics)Critical lineComputer Science::Mathematical SoftwareExponentCritical exponentQuantumlcsh:PhysicsPhase diagramAdvances in Condensed Matter Physics
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Learning by the Process of Elimination

2002

AbstractElimination of potential hypotheses is a fundamental component of many learning processes. In order to understand the nature of elimination, herein we study the following model of learning recursive functions from examples. On any target function, the learning machine has to eliminate all, save one, possible hypotheses such that the missing one correctly describes the target function. It turns out that this type of learning by the process of elimination (elm-learning, for short) can be stronger, weaker or of the same power as usual Gold style learning.While for usual learning any r.e. class of recursive functions can be learned in all of its numberings, this is no longer true for el…

Computer Science::Machine LearningProcess of eliminationGeneralization0102 computer and information sciences02 engineering and technology01 natural sciencesNumberingComputer Science ApplicationsTheoretical Computer ScienceDecidabilityAlgebraComputational Theory and Mathematics010201 computation theory & mathematicsPhysics::Plasma Physics0202 electrical engineering electronic engineering information engineeringRecursive functions020201 artificial intelligence & image processingEquivalence (formal languages)Information SystemsMathematicsInformation and Computation
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Upport vector machines for nonlinear kernel ARMA system identification.

2006

Nonlinear system identification based on support vector machines (SVM) has been usually addressed by means of the standard SVM regression (SVR), which can be seen as an implicit nonlinear autoregressive and moving average (ARMA) model in some reproducing kernel Hilbert space (RKHS). The proposal of this letter is twofold. First, the explicit consideration of an ARMA model in an RKHS (SVM-ARMA 2k) is proposed. We show that stating the ARMA equations in an RKHS leads to solving the regularized normal equations in that RKHS, in terms of the autocorrelation and cross correlation of the (nonlinearly) transformed input and output discrete time processes. Second, a general class of SVM-based syste…

Computer Science::Machine LearningStatistics::TheoryComputer Networks and CommunicationsBiomedical signal processingInformation Storage and RetrievalMachine learningcomputer.software_genrePattern Recognition AutomatedStatistics::Machine LearningArtificial IntelligenceApplied mathematicsStatistics::MethodologyAutoregressive–moving-average modelComputer SimulationMathematicsTelecomunicacionesHardware_MEMORYSTRUCTURESSupport vector machinesModels StatisticalNonlinear system identificationbusiness.industryAutocorrelationSystem identificationSignal Processing Computer-AssistedGeneral MedicineComputer Science ApplicationsSupport vector machineNonlinear systemKernelAutoregressive modelNonlinear DynamicsARMA modelling3325 Tecnología de las TelecomunicacionesArtificial intelligenceNeural Networks ComputerbusinesscomputerSoftwareAlgorithmsReproducing kernel Hilbert spaceIEEE transactions on neural networks
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ORGANIZED LEARNING MODELS (PURSUER CONTROL OPTIMISATION)

1983

Abstract The concept of Organized Learning is defined, and some random models are presented. For Not Transferable Learning, it is necessary to start from an instantaneous learning; by a discrete way, we must form a stochastic model considering the probability of each path; with a continue aproximation, we can study the evolution of the internal state through to consider the relative and absolute probabilities, by means of differential equations systems. For Transferable Learning, the instantaneous learning give us directly the System evolution. So, the Algoritmes for the different models are compared.

Computer Science::Machine LearningStochastic modellingActive learning (machine learning)business.industryDifferential equationPath (graph theory)Control (management)Online machine learningPursuerArtificial intelligenceState (computer science)businessMathematics
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Nonlinear Pulse Shaping in Optical Fibres with a Neural Network

2020

We use a supervised machine-learning model based on a neural network to solve the direct and inverse problems relating to the shaping of optical pulses that occurs upon nonlinear propagation in optical fibres.

Computer Science::Machine Learning[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]Optical fiberArtificial neural networkComputer science02 engineering and technologyInverse problem01 natural sciencesPulse shapinglaw.invention010309 opticsNonlinear system020210 optoelectronics & photonicslaw0103 physical sciences0202 electrical engineering electronic engineering information engineeringElectronic engineeringComputingMilieux_MISCELLANEOUS
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Average Performance Analysis of the Stochastic Gradient Method for Online PCA

2019

International audience; This paper studies the complexity of the stochastic gradient algorithm for PCA when the data are observed in a streaming setting. We also propose an online approach for selecting the learning rate. Simulation experiments confirm the practical relevance of the plain stochastic gradient approach and that drastic improvements can be achieved by learning the learning rate.

Computer Science::Machine Learning[STAT.ML]Statistics [stat]/Machine Learning [stat.ML]Computer science0502 economics and business05 social sciencesMathematicsofComputing_NUMERICALANALYSISRelevance (information retrieval)050207 economics010501 environmental sciencesStochastic gradient method01 natural sciencesAlgorithm0105 earth and related environmental sciences
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On the duality between mechanistic learners and what it is they learn

1993

All previous work in inductive inference and theoretical machine learning has taken the perspective of looking for a learning algorithm that successfully learns a collection of functions. In this work, we consider the perspective of starting with a set of functions, and considering the collection of learning algorithms that are successful at learning the given functions. Some strong dualities are revealed.

Computer Science::Machine Learningbusiness.industryPerspective (graphical)Duality (mathematics)Multi-task learningInductive reasoningMachine learningcomputer.software_genreRecursive functionsStrong dualityArtificial intelligenceSet (psychology)businesscomputerMathematics
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Calibrating a Motion Model Based on Reinforcement Learning for Pedestrian Simulation

2012

In this paper, the calibration of a framework based in Multi-agent Reinforcement Learning (RL) for generating motion simulations of pedestrian groups is presented. The framework sets a group of autonomous embodied agents that learn to control individually its instant velocity vector in scenarios with collisions and friction forces. The result of the process is a different learned motion controller for each agent. The calibration of both, the physical properties involved in the motion of our embodied agents and the corresponding dynamics, is an important issue for a realistic simulation. The physics engine used has been calibrated with values taken from real pedestrian dynamics. Two experime…

Computer Science::Multiagent SystemsComputer scienceDynamics (mechanics)DiagramComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONCalibrationProcess (computing)Reinforcement learningMotion controllerPhysics engineSimulationMotion (physics)
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