Search results for "statistical thermodynamics"

showing 10 items of 26 documents

Multiscale analysis of information dynamics for linear multivariate processes.

2016

In the study of complex physical and physiological systems represented by multivariate time series, an issue of great interest is the description of the system dynamics over a range of different temporal scales. While information-theoretic approaches to the multiscale analysis of complex dynamics are being increasingly used, the theoretical properties of the applied measures are poorly understood. This study introduces for the first time a framework for the analytical computation of information dynamics for linear multivariate stochastic processes explored at different time scales. After showing that the multiscale processing of a vector autoregressive (VAR) process introduces a moving aver…

FOS: Computer and information sciencesInformation transferMultivariate statisticsMultivariate analysisComputer scienceComputer Science - Information Theory0206 medical engineeringStochastic ProcesseBiomedical EngineeringFOS: Physical sciencesInformation Storage and RetrievalHealth Informatics02 engineering and technology01 natural sciencesEntropy (classical thermodynamics)Moving average0103 physical sciencesEntropy (information theory)Computer SimulationStatistical physicsEntropy (energy dispersal)Time series010306 general physicsEntropy (arrow of time)Multivariate Analysi1707Stochastic ProcessesEntropy (statistical thermodynamics)Stochastic processInformation Theory (cs.IT)Probability and statisticsModels Theoretical020601 biomedical engineeringComplex dynamicsAutoregressive modelPhysics - Data Analysis Statistics and ProbabilitySignal ProcessingSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaMultivariate AnalysisData Analysis Statistics and Probability (physics.data-an)Entropy (order and disorder)Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
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Quantum geometry and microscopic black hole entropy

2006

9 pages, 6 figures.-- PACS nrs.: 04.60.Pp, 04.70.Dy.-- ISI Article Identifier: 000242448900013.-- Published online on Nov 28, 2006.

High Energy Physics - TheoryPhysicsQuantum geometryPhysics and Astronomy (miscellaneous)LogarithmEntropy (statistical thermodynamics)Astrophysics::High Energy Astrophysical PhenomenaFOS: Physical sciencesGeneral Relativity and Quantum Cosmology (gr-qc)Loop quantum gravityGeneral Relativity and Quantum CosmologyBlack holeGeneral Relativity and Quantum Cosmologysymbols.namesakeHigh Energy Physics - Theory (hep-th)[PACS] Quantum aspects of black holes evaporation thermodynamicssymbolsPlanckBlack hole thermodynamicsQuantum[PACS] Loop quantum gravity quantum geometry spin foamsMathematical physics
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Compensating for instantaneous signal mixing in transfer entropy analysis of neurobiological time series

2013

The transfer entropy (TE) has recently emerged as a nonlinear model-free tool, framed in information theory, to detect directed interactions in coupled processes. Unfortunately, when applied to neurobiological time series TE is biased by signal cross-talk due to volume conduction. To compensate for this bias, in this study we introduce a modified TE measure which accounts for possible instantaneous effects between the analyzed time series. The new measure, denoted as compensated TE (cTE), is tested on simulated time series reproducing conditions typical of neuroscience applications, and on real magnetoencephalographic (MEG) multi-trial data measured during a visuo-tactile cognitive experime…

Information transferTime FactorsComputer scienceEntropySpeech recognitionBiomedical EngineeringHealth InformaticsInformation theoryEntropy (classical thermodynamics)medicineHumansEntropy (information theory)Computer SimulationNervous System Physiological PhenomenaEntropy (energy dispersal)Entropy (arrow of time)Visual Cortex1707Entropy (statistical thermodynamics)MagnetoencephalographySignal Processing Computer-AssistedSomatosensory CortexNonlinear systemVisual cortexmedicine.anatomical_structureSignal ProcessingSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaTransfer entropyAlgorithmEntropy (order and disorder)
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Statistical Thermodynamics of Polymer Quantum Systems

2011

Polymer quantum systems are mechanical models quantized similarly as loop quantum gravity. It is actually in quantizing gravity that the polymer term holds proper as the quantum geometry excitations yield a reminiscent of a polymer material. In such an approach both non-singular cosmological models and a microscopic basis for the entropy of some black holes have arisen. Also important physical questions for these systems involve thermodynamics. With this motivation, in this work, we study the statistical thermody- namics of two one dimensional polymer quantum systems: an ensemble of oscillators that describe a solid and a bunch of non-interacting particles in a box, which thus form an ideal…

Length scaleHigh Energy Physics - TheoryCanonical quantizationThermodynamicsFOS: Physical sciencesLoop quantum gravityGeneral Relativity and Quantum Cosmology (gr-qc)General Relativity and Quantum CosmologyQuantization (physics)canonical quantizationQuantum mechanicsstatistical thermodynamicsQuantumBlack hole thermodynamicsMathematical PhysicsCondensed Matter - Statistical MechanicsPhysicsQuantum geometryQuantitative Biology::BiomoleculesStatistical Mechanics (cond-mat.stat-mech)loop quantum gravitylcsh:Mathematics82B30 81S05 81Q65 82B20 83C45lcsh:QA1-939Ideal gasCondensed Matter::Soft Condensed MatterClassical mechanicsHigh Energy Physics - Theory (hep-th)Geometry and TopologyAnalysis
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Application of multivariant decision tree technique in high performance football: The female and male corner kick.

2019

The use of multidimensional statistical technique based on decision trees is of recent application in sports science. In the case of football, this technique has not yet been sufficiently proven. The aim of the present study was to search for different success models for the cor- ners in the FIFA World Cup 2014 and FIFA Women's World Cup 2015. For this, the statistical analysis focused on the search for classification models for the different criteria considered (shot, shot between the three posts and goal), based on the creation of different decision trees that allow the most important variables to be identified quickly and efficiently. For this, 1117 corners were collected between the two…

MaleMultivariate statisticsDecision AnalysisComputer scienceEntropyDonesSocial SciencesFootballcomputer.software_genreSystems Science0302 clinical medicineMathematical and Statistical TechniquesPsychologyEntropy (energy dispersal)MultidisciplinaryEntropy (statistical thermodynamics)PhysicsQStatisticsRSoftware EngineeringMenSports ScienceDynamical SystemsPhysical SciencesMedicineEngineering and TechnologyThermodynamicsFemaleGamesManagement EngineeringResearch ArticleSportsAdultComputer and Information SciencesSports scienceScienceDecision treeAthletic PerformanceMachine learningResearch and Analysis Methods03 medical and health sciencesEntropy (classical thermodynamics)SoccerEntropy (information theory)HumansWomenStatistical MethodsEntropy (arrow of time)Behaviorbusiness.industrySoftware ToolsDecision TreesOffensiveBiology and Life Sciences030229 sport sciencesMultiple criteria decision makingFutbolHomesPresa de decisions multicriteriRecreationArtificial intelligencebusinesscomputer030217 neurology & neurosurgeryMathematicsEntropy (order and disorder)ForecastingPloS one
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MuTE: a MATLAB toolbox to compare established and novel estimators of the multivariate transfer entropy.

2014

A challenge for physiologists and neuroscientists is to map information transfer between components of the systems that they study at different scales, in order to derive important knowledge on structure and function from the analysis of the recorded dynamics. The components of physiological networks often interact in a nonlinear way and through mechanisms which are in general not completely known. It is then safer that the method of choice for analyzing these interactions does not rely on any model or assumption on the nature of the data and their interactions. Transfer entropy has emerged as a powerful tool to quantify directed dynamical interactions. In this paper we compare different ap…

Multivariate statisticsInformation transferTheoretical computer scienceComputer scienceEntropyInformation TheorySocial SciencesCAUSALITYMedicine (all); Biochemistry Genetics and Molecular Biology (all); Agricultural and Biological Sciences (all)BioinformaticsMedicine and Health SciencesEntropy (energy dispersal)MultidisciplinaryEntropy (statistical thermodynamics)Medicine (all)QSoftware DevelopmentREstimatorSoftware EngineeringElectroencephalographyCausalityNeurologyCardiovascular DiseasesProbability distributionMedicineAlgorithmsResearch ArticleComputer ModelingComputer and Information SciencesScienceCardiologyProbability density functionEntropy (classical thermodynamics)Artificial IntelligenceLinear regressionEntropy (information theory)HumansComputer SimulationEntropy (arrow of time)Conditional entropyBiochemistry Genetics and Molecular Biology (all)EpilepsyBiology and Life SciencesModels TheoreticalMODELNonlinear systemAgricultural and Biological Sciences (all)ROC CurveINFORMATION-TRANSFERSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaCognitive ScienceTransfer entropySoftwareEntropy (order and disorder)NeurosciencePLoS ONE
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Quantum Monte Carlo methods

2005

Introduction In most of the discussion presented so far in this book, the quantum character of atoms and electrons has been ignored. The Ising spin models have been an exception, but since the Ising Hamiltonian is diagonal (in the absence of a transverse magnetic field), all energy eigenvalues are known and the Monte Carlo sampling can be carried out just as in the case of classical statistical mechanics. Furthermore, the physical properties are in accord with the third law of thermodynamics for Ising-type Hamiltonians (e.g. entropy S and specific heat vanish for temperature T → 0, etc.) in contrast to the other truly classical models dealt with in previous chapters (e.g. classical Heisenbe…

PhysicsEntropy (statistical thermodynamics)Quantum Monte CarloMonte Carlo methodZero-point energyClassical fluidsStatistical mechanicsHybrid Monte Carlosymbols.namesakeQuantum mechanicsDynamic Monte Carlo methodsymbolsMonte Carlo method in statistical physicsIsing modelKinetic Monte CarloStatistical physicsQuasi-Monte Carlo methodHamiltonian (quantum mechanics)Monte Carlo molecular modelingSpin-½
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Equilibrium between a Droplet and Surrounding Vapor: A Discussion of Finite Size Effects

2017

In a theoretical description of homogeneous nucleation one frequently assumes an "equilibrium" coexistence of a liquid droplet with surrounding vapor of a density exceeding that of a saturated vapor at bulk vapor-liquid two-phase coexistence. Thereby one ignores the caveat that in the thermodynamic limit, for which the vapor would be called supersaturated, such states will at best be metastable with finite lifetime, and thus not be well-defined within equilibrium statistical mechanics. In contrast, in a system of finite volume stable equilibrium coexistence of droplet and supersaturated vapor at constant total density is perfectly possible, and numerical analysis of equilibrium free energie…

PhysicsFinite volume method010304 chemical physicsEntropy (statistical thermodynamics)Vapor pressureTolman lengthStatistical mechanicsMechanics01 natural sciencesSurfaces Coatings and FilmsSurface tension0103 physical sciencesThermodynamic limitMaterials ChemistryIsing modelPhysical and Theoretical Chemistry010306 general physicsThe Journal of Physical Chemistry B
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New structures in the theory of the laser model. II. Microscopic dynamics and a nonequilibrium entropy principle

1998

In a recent article, Alli and Sewell [J. Math. Phys. 36, 5598 (1995)] formulated a new version of the Dicke-Hepp-Lieb laser model in terms of quantum dynamical semigroups, and thereby extended the macroscopic picture of the model. In the present article, we complement that picture with a corresponding microscopic one, which carries the following new results. (a) The local microscopic dynamics of the model is piloted by the classical, macroscopic field, generated by the collective action of its components; (b) the global state of the system carries no correlations between its constituent atoms after transient effects have died out; and (c) in the latter situation, the state of the system at …

PhysicsQuantum opticsEntropy principleEntropy (statistical thermodynamics)Non-equilibrium thermodynamicsStatistical and Nonlinear PhysicsLaserlaw.inventionEntropy densityClassical mechanicslawMathematical PhysicStatistical physicsSettore MAT/07 - Fisica MatematicaQuantumMathematical PhysicsJoint quantum entropy
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A Second Order Accurate Kinetic Relaxation Scheme for Inviscid Compressible Flows

2013

In this paper we present a kinetic relaxation scheme for the Euler equations of gas dynamics in one space dimension. The method is easily applicable to solve any complex system of conservation laws. The numerical scheme is based on a relaxation approximation for conservation laws viewed as a discrete velocity model of the Boltzmann equation of kinetic theory. The discrete kinetic equation is solved by a splitting method consisting of a convection phase and a collision phase. The convection phase involves only the solution of linear transport equations and the collision phase instantaneously relaxes the distribution function to an equilibrium distribution. We prove that the first order accur…

Physicssymbols.namesakeConservation lawDistribution functionInviscid flowEntropy (statistical thermodynamics)Mathematical analysissymbolsKinetic schemeRelaxation (approximation)Boltzmann equationEuler equations
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