Search results for "Application"

showing 10 items of 5559 documents

Are smartphone applications (App) useful to improve hearing?

2020

Le App per smartphone possono essere utili per migliorare l’udito?L’obiettivo dello studio è quello valutare l’efficacia di un’App per smartphone creata con lo scopo di migliorare le performance uditive sia in soggetti normoudenti che in pazienti affetti da ipoacusia da lieve a severa. Si tratta di uno studio analitico multicentrico, eseguito tra giugno e dicembre 2017, che ha analizzato un campione di 68 pazienti di cui 55 ipoacusici e 13 normoudenti; a tutti i pazienti sono stati somministrati test audiologici specifici sia durante l’utilizzo della suddetta App che in assenza di ausili uditivi. Il protocollo di valutazione audiologica prevedeva l’esecuzione di un’audiometria tonale limina…

Hearing aidsHearing Loss SensorineuralSmartphone applicationapplicazioni per smartphone03 medical and health sciences0302 clinical medicineMobile applicationsHearingotorhinolaryngologic diseasesHumansMedicineipoacusia030223 otorhinolaryngologybusiness.industryprotesi acusticheAuditory ThresholdAudiologyHearing lossGeneral EnergyOtorhinolaryngology030220 oncology & carcinogenesisSpeech PerceptionAudiometry Pure-ToneSmartphonebusinessHumanitiesHearing aids; Hearing loss; Mobile applications
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Measuring the Rate of Information Transfer in Point-Process Data: Application to Cardiovascular Interactions

2021

We present the implementation to cardiovascular variability of a method for the information-theoretic estimation of the directed interactions between event-based data. The method allows to compute the transfer entropy rate (TER) from a source to a target point process in continuous time, thus overcoming the severe limitations associated with time discretization of event-based processes. In this work, the method is evaluated on coupled cardiovascular point processes representing the heartbeat dynamics and the related peripheral pulsation, first using a physiologically-based simulation model and then studying real point-process data from healthy subjects monitored at rest and during postural …

Heart RateEntropyHumansComputer SimulationHeartEstimation Big Data applications Data models Time measurement Pressure measurement Biomedical monitoring Heart rate variability
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Quantifying multidimensional control mechanisms of cardiovascular dynamics during multiple concurrent stressors

2021

Heartbeat regulation is achieved through different routes originating from central autonomic network sources, as well as peripheral control mechanisms. While previous studies successfully characterized cardiovascular regulatory mechanisms during a single stressor, to the best of our knowledge, a combination of multiple concurrent elicitations leading to the activation of different autonomic regulatory routes has not been investigated yet. Therefore, in this study, we propose a novel modeling framework for the quantification of heartbeat regulatory mechanisms driven by different neural routes. The framework is evaluated using two heartbeat datasets gathered from healthy subjects undergoing p…

HeartbeatTilt testComputer scienceCold pressor test0206 medical engineeringEmotionsBiomedical Engineering02 engineering and technologyStressAutonomic Nervous SystemCardiovascular System030218 nuclear medicine & medical imaging03 medical and health sciencesNeural activity0302 clinical medicineHeart RateHumansCentral autonomic networkCardiac controlControl (linguistics)Heart rate variabilityStressorEmotion elicitationHealthy subjectsCognitionHeart020601 biomedical engineeringComputer Science ApplicationsPsychophysiologyCentral autonomic network; Cold pressor test; Emotion elicitation; Heart rate variability; Stress; Tilt test; Autonomic Nervous System; Emotions; Heart; Heart Rate; Humans; Cardiovascular SystemSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaCentral autonomic network Cold pressor test Emotion elicitation Heart rate variability Stress Tilt testNeuroscience
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SIMULATING SPIN MODELS ON GPU: A TOUR

2012

The use of graphics processing units (GPUs) in scientific computing has gathered considerable momentum in the past five years. While GPUs in general promise high performance and excellent performance per Watt ratios, not every class of problems is equally well suitable for exploiting the massively parallel architecture they provide. Lattice spin models appear to be prototypic examples of problems suitable for this architecture, at least as long as local update algorithms are employed. In this review, I summarize our recent experience with the simulation of a wide range of spin models on GPU employing an equally wide range of update algorithms, ranging from Metropolis and heat bath updates,…

Heat bathComputer scienceMonte Carlo methodGeneral Physics and AstronomyStatistical and Nonlinear PhysicsMassively parallel architectureRangingParallel computingComputer Science ApplicationsComputational Theory and MathematicsGeneral-purpose computing on graphics processing unitsGraphicsArchitectureMathematical PhysicsPerformance per wattInternational Journal of Modern Physics C
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Does shoe heel-to-toe drop have an influence on performance in downhill trail running?

2019

Trail running (TR) is characterized by sequences of uphill and downhill performed in a natural environment. Recently, studies investigated performance factors specific to TR. During a full race of ...

Heel0206 medical engineeringBiomedical EngineeringBioengineering030229 sport sciences02 engineering and technologyGeneral Medicine020601 biomedical engineeringComputer Science ApplicationsHuman-Computer Interaction03 medical and health sciences0302 clinical medicinemedicine.anatomical_structuremedicineDrop (telecommunication)Geotechnical engineeringGeologyComputer Methods in Biomechanics and Biomedical Engineering
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Zoom in on Dry Joy—Dissensus, Agonism and Democracy in Art Education

2021

Literature on art education often emphasizes dialogue as a preferred approach and as a way of practicing democratic education in museums and galleries. Dialogue-based tours in such contexts are often characterized by a sense of harmony and agreement. In contrast, this article discusses the democratic aspect and political potentiality when dissensus and agonism are used as central educational strategies. The point of departure for the discussion was a teaching session on the online platform Zoom with student teachers as part of their module on art and crafts at the University of Agder in Kristiansand, Norway, in spring 2020. Artworks from the exhibition Dry Joy, in S&oslash

HegemonyPublic AdministrationdemocracyTeaching methodmedia_common.quotation_subjectPhysical Therapy Sports Therapy and RehabilitationDemocratic educationVisual arts educationEducationExhibitionPolitics0504 sociologyagonismDevelopmental and Educational PsychologyComputer Science (miscellaneous)AgonismSociologymedia_commonmuseum05 social sciencesMedia studies050401 social sciences methods050301 educationdissensusVDP::Samfunnsvitenskap: 200::Pedagogiske fag: 280DemocracyComputer Science Applicationsart educationonline platformlcsh:L0503 educationlcsh:Education
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Bayesian correlated models for assessing the prevalence of viruses in organic and non-organic agroecosystems

2017

Cultivation of horticultural species under organic management has increased in importance in recent years. However, the sustainability of this new production method needs to be supported by scientific research, especially in the field of virology. We studied the prevalence of three important virus diseases in agroecosystems with regard to its management system: organic versus non-organic, with and without greenhouse. Prevalence was assessed by means of a Bayesian correlated binary model which connects the risk of infection of each virus within the same plot and was defined in terms of a logit generalized linear mixed model (GLMM). Model robustness was checked through a sensitivity analysis …

Hellinger distancesensitivity analysisHellinger distance model robustness risk infection sensitivity analysis virus epidemiology:Matemàtiques i estadística::Estadística matemàtica [Àrees temàtiques de la UPC]:62 Statistics::62F Parametric inference [Classificació AMS]:62 Statistics::62J Linear inference regression [Classificació AMS]model robustnessvirus epidemiology:62 Statistics::62P Applications [Classificació AMS]62-07 62F15 62J12 62P10 62P12risk infectionSORT- Statistics and Operations Research Transactions
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Global stability analysis of a delay cell-population model of hepatitis B infection with humoral immune response

2021

In this work, we propose and investigate a delay cell population model of hepatitis B virus (HBV) infection. We suppose spatial diffusion of free HBV particles, and use a Beddington-DeAngelis incid...

Hepatitis B virusGeneral MathematicsCellvirus diseasesmedicine.disease_causeVirologydigestive system diseasesComputer Science ApplicationsHepatitis B infectionmedicine.anatomical_structureImmune systemPopulation modelLyapunov functionalmedicineSpatial diffusionMathematicsDynamical Systems
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Error analysis of the orthogonal series solution of linear time-invariant systems

1989

Similarities in the error analysis of the polynomial series solution of linear time-invariant systems are pointed out.

Hermite polynomialsMathematical analysisLinear systemComputer Science ApplicationsTheoretical Computer ScienceOrthogonal seriesLTI system theoryControl and Systems EngineeringError analysisOrthogonal polynomialsApplied mathematicsPolynomial seriesLegendre polynomialsMathematicsInternational Journal of Systems Science
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Second-Order CASSCF Algorithm with the Cholesky Decomposition of the Two-Electron Integrals

2021

In this contribution, we present the implementation of a second-order complete active space–self-consistent field (CASSCF) algorithm in conjunction with the Cholesky decomposition of the two-electron repulsion integrals. The algorithm, called norm-extended optimization, guarantees convergence of the optimization, but it involves the full Hessian and is therefore computationally expensive. Coupling the second-order procedure with the Cholesky decomposition leads to a significant reduction in the computational cost, reduced memory requirements, and an improved parallel performance. As a result, CASSCF calculations of larger molecular systems become possible as a routine task. The performance …

Hessian matrixCouplingComputer scienceBasis functionField (mathematics)ArticleComputer Science ApplicationsReduction (complexity)symbols.namesakeConvergence (routing)symbolsBenchmark (computing)Physical and Theoretical ChemistryAlgorithmCholesky decompositionJournal of Chemical Theory and Computation
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