Search results for "Computational model"

showing 10 items of 96 documents

Refined equivalent single layer formulations and finite elements for smart laminates free vibrations

2014

A family of 2D refined equivalent single layer models for multilayered and functionally graded smart magneto-electro-elastic plates is presented. They are based on variable kinematics and quasi-static behavior for the electromagnetic fields. First, the electromagnetic state of the plate is determined by solving the strong form of the electromagnetic governing equations coupled with the corresponding interface continuity conditions and external boundary conditions. The electromagnetic state is then condensed into the plate kinematics, whose governing equations can be written using the generalized principle of virtual displacements. The procedure identifies an effective elastic plate kinemati…

CouplingElectromagnetic fieldMaterials scienceMechanical Engineeringmedia_common.quotation_subjectConstitutive equationStiffnessComputational modelingInertiaSmart materialSmart laminatesIndustrial and Manufacturing EngineeringFinite element methodLaminate mechanicMechanics of MaterialsCeramics and CompositesmedicineBoundary value problemmedicine.symptomComposite materialSettore ING-IND/04 - Costruzioni E Strutture Aerospazialimedia_common
researchProduct

New zeolite-like RUB-5 and its related hydrous layer silicate RUB-6 structurally characterized by electron microscopy.

2020

RUB-5 and its related hydrous layer silicate RUB-6 were synthesized in the 1990s, but so far their structures have remained unknown due to their low crystallinity and disorder. The combination of 3D electron diffraction, X-ray powder diffraction, high-resolution transmission electron microscopy, structural modelling and diffraction simulations has enabled a comprehensive description of these two nanomaterials, revealng a new framework topology and a unique silica polymorph.

DiffractionMaterials sciencecomputational modellingStackinginorganic materials02 engineering and technology010402 general chemistry01 natural sciencesBiochemistrydiffuse scatteringMetalexit wave reconstructionchemistry.chemical_compoundpolymorph predictionframework-structured solidsGeneral Materials ScienceZeolitelcsh:Sciencestacking faultsElectron crystallographymicroporous materialsGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsResearch PapersNanocrystalline materialSilicate3D electron diffraction0104 chemical sciencesSilanolCrystallographyelectron crystallographychemistryvisual_artvisual_art.visual_art_mediumlcsh:Q0210 nano-technologyIUCrJ
researchProduct

Layer-wise and equivalent single layer models for smart multilayered plates

2014

Layer-wise and equivalent single layer plate models for magneto-electro-elastic multiphysics laminates are presented in a unified framework. They are based on variable kinematics and quasi-static behavior of the electromagnetic fields. The electromagnetic state of each single layer is preliminary determined by solving the corresponding governing equations coupled with the proper interface continuity and external boundary conditions. By so doing, the electromagnetic state is condensed into the plate kinematics and the layer governing equations are inferred by the principle of virtual displacements. This approach identifies effective mechanical layers, which are kinematically equivalent to th…

Electromagnetic fieldMaterials scienceMultiphysicsmedia_common.quotation_subjectKinematicsInertiaSmart laminatesIndustrial and Manufacturing EngineeringLaminate mechanicmedicineBoundary value problemComposite materialSettore ING-IND/04 - Costruzioni E Strutture Aerospazialimedia_commonCouplingbusiness.industryMechanical EngineeringStiffnessComputational modelingStructural engineeringMechanicsMechanics of MaterialsCeramics and Compositesmedicine.symptombusinessMaterial propertiesComposites Part B: Engineering
researchProduct

Modelling nanoscale fluid dynamics and transport in physiological flows

1996

The concept of nanotechnology is discussed, and its connection with biomedical engineering is elucidated. For the specific field of nanoscale flow and transport problems of physiological relevance, some typical examples are presented, and their interaction is discussed for some classic biomechanical problems like the flow in arteries with blood-wall coupling. Then, existing computational models are presented and classified according to the length scale of interest, with emphasis on particle-fluid problems. Final remarks address the essential unity of biomedical and engineering behaviour and the possible relevance to small-scale industrial research.

EngineeringErythrocytesMacromolecular SubstancesQuantitative Biology::Tissues and OrgansPhysics::Medical PhysicsBiomedical EngineeringBiophysicsBiological Transport ActiveNanoscale fluid flowMechanical engineeringPhysiological flowsModels BiologicalSettore BIO/09 - FisiologiaBiophysical PhenomenaFluid dynamicsHumansRelevance (information retrieval)Nanoscopic scaleSettore ING-IND/19 - Impianti NucleariComputational modelbusiness.industryCell MembraneIndustrial researchBiophysical PhenomenaBiomechanical PhenomenaCoupling (physics)CartilageNanoscale transportFlow (mathematics)Quantum TheoryThermodynamicsEndothelium VascularRheologyCFDbusinessMedical Engineering & Physics
researchProduct

Three-dimensional cardiac computational modelling: methods, features and applications

2015

[EN] The combination of computational models and biophysical simulations can help to interpret an array of experimental data and contribute to the understanding, diagnosis and treatment of complex diseases such as cardiac arrhythmias. For this reason, three-dimensional (3D) cardiac computational modelling is currently a rising field of research. The advance of medical imaging technology over the last decades has allowed the evolution from generic to patient-specific 3D cardiac models that faithfully represent the anatomy and different cardiac features of a given alive subject. Here we analyse sixty representative 3D cardiac computational models developed and published during the last fifty …

Engineeringmedicine.medical_treatmentFibre orientationReviewCardiac conduction system (CCS)computer.software_genreField (computer science)Cardiac Resynchronization TherapyCardiac modellingImage Processing Computer-AssistedMyocytes CardiacPrecision MedicineBiophysical simulationDecision Making Computer-AssistedBiological dataComputational modelRadiological and Ultrasound TechnologyCardiac electrophysiologyModels CardiovascularBiophysical PhenomenaGeneral MedicineBiomechanical PhenomenaElectrophysiologyRabbitsThree-dimensional (3D) modellingHeart DiseasesPersonalisationPatient-specific modellingCardiologyCardiac resynchronization therapyBiomedical EngineeringMachine learningBiophysical PhenomenaTECNOLOGIA ELECTRONICABiomaterialsDogsHeart Conduction SystemmedicineAnimalsHumansComputer SimulationRadiology Nuclear Medicine and imagingbusiness.industryMyocardiumExperimental dataImage segmentationCardiac image segmentationComputational modellingArtificial intelligencebusinesscomputerBioMedical Engineering OnLine
researchProduct

Quantum, stochastic, and pseudo stochastic languages with few states

2014

Stochastic languages are the languages recognized by probabilistic finite automata (PFAs) with cutpoint over the field of real numbers. More general computational models over the same field such as generalized finite automata (GFAs) and quantum finite automata (QFAs) define the same class. In 1963, Rabin proved the set of stochastic languages to be uncountable presenting a single 2-state PFA over the binary alphabet recognizing uncountably many languages depending on the cutpoint. In this paper, we show the same result for unary stochastic languages. Namely, we exhibit a 2-state unary GFA, a 2-state unary QFA, and a family of 3-state unary PFAs recognizing uncountably many languages; all th…

FOS: Computer and information sciencesFINITE AUTOMATAClass (set theory)Unary operationFormal Languages and Automata Theory (cs.FL)QUANTUM FINITE AUTOMATACOMPUTATIONAL MODELBINARY ALPHABETSFOS: Physical sciencesComputer Science - Formal Languages and Automata TheoryComputer Science::Computational ComplexityPROBABILISTIC FINITE AUTOMATAREAL NUMBERUNARY LANGUAGESQuantum finite automataCUT-POINTMathematicsReal numberDiscrete mathematicsQuantum PhysicsFinite-state machineGENERALIZED FINITE AUTOMATAComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)STOCHASTIC SYSTEMSAutomatonSTOCHASTIC LANGUAGESMathematics::LogicProbabilistic automatonComputer Science::Programming LanguagesQUANTUM THEORYUncountable setQuantum Physics (quant-ph)Computer Science::Formal Languages and Automata TheoryGENERALIZED FINITE AUTOMATON
researchProduct

Distributed and Lumped Parameter Models for the Characterization of High Throughput Bioreactors

2016

Next generation bioreactors are being developed to generate multiple human cell-based tissue analogs within the same fluidic system, to better recapitulate the complexity and interconnection of human physiology. The effective development of these devices requires a solid understanding of their interconnected fluidics, to predict the transport of nutrients and waste through the constructs and improve the design accordingly. In this work, we focus on a specific model of bioreactor, with multiple input/outputs, aimed at gen- erating osteochondral constructs, i.e., a biphasic construct in which one side is cartilagi- nous in nature, while the other is osseous. We next develop a general computat…

Genetics and Molecular Biology (all)0301 basic medicineComputer scienceDistributed computinglcsh:Medicine02 engineering and technologyMedicine (all); Biochemistry Genetics and Molecular Biology (all); Agricultural and Biological Sciences (all)BiochemistryOxygenPLLA bioreactor computational modelMedicine and Health SciencesFluid dynamicslcsh:ScienceThroughput (business)Flow RateMultidisciplinaryPhysicsSimulation and ModelingMedicine (all)Classical MechanicsVolumetric flow rateChemistryConnective TissuePhysical SciencesAnatomyResearch ArticleChemical ElementsCell Physiology0206 medical engineeringMicrofluidicschemistry.chemical_elementFluid MechanicsResearch and Analysis MethodsContinuum Mechanics03 medical and health sciencesBioreactorFluidicsFluid Flowlcsh:RBiology and Life SciencesBiological TransportFluid DynamicsCell BiologyConstruct (python library)020601 biomedical engineeringCell MetabolismOxygenMetabolismBiological TissueCartilage030104 developmental biologyAgricultural and Biological Sciences (all)chemistryFlow (mathematics)lcsh:QPorous mediumPLOS ONE
researchProduct

Five Ways in Which Computational Modeling Can Help Advance Cognitive Science

2019

Abstract There is a rich tradition of building computational models in cognitive science, but modeling, theoretical, and experimental research are not as tightly integrated as they could be. In this paper, we show that computational techniques—even simple ones that are straightforward to use—can greatly facilitate designing, implementing, and analyzing experiments, and generally help lift research to a new level. We focus on the domain of artificial grammar learning, and we give five concrete examples in this domain for (a) formalizing and clarifying theories, (b) generating stimuli, (c) visualization, (d) model selection, and (e) exploring the hypothesis space.

Linguistics and LanguageArtificial grammar learningComputer scienceCognitive Neuroscience[SHS.PSY]Humanities and Social Sciences/PsychologyExperimental and Cognitive PsychologyBayesian inferenceArtificial grammar learningArticle050105 experimental psychology03 medical and health sciences0302 clinical medicineArtificial IntelligenceHumans0501 psychology and cognitive sciencesCognitive scienceComputational modelPsycholinguisticsArtificial neural networkLift (data mining)Model selection05 social sciencesComputational modelingModels TheoreticalArtificial language learningFormal grammarsExperimental researchBayesian modelingVisualizationHuman-Computer InteractionCognitive ScienceNeural Networks ComputerForthcoming Topic: Learning Grammatical Structures: Developmental Cross‐species and Computational Approaches030217 neurology & neurosurgeryNeural networksTopics in Cognitive Science
researchProduct

Modeling Listeners’ Emotional Response to Music

2012

An overview of the computational prediction of emotional responses to music is presented. Communication of emotions by music has received a great deal of attention during the last years and a large number of empirical studies have described the role of individual features (tempo, mode, articulation, timbre) in predicting the emotions suggested or invoked by the music. However, unlike the present work, relatively few studies have attempted to model continua of expressed emotions using a variety of musical features from audio-based representations in a correlation design. The construction of the computational model is divided into four separate phases, with a different focus for evaluation. T…

Linguistics and LanguageComputational modelArticulation (music)Music psychologyCognitive NeuroscienceSpeech recognitionEmotionsExperimental and Cognitive PsychologyContext (language use)Human-Computer InteractionMode (music)Mental ProcessesAcoustic StimulationArtificial IntelligenceMusic and emotionAuditory PerceptionFeature (machine learning)HumansComputer SimulationArousalPsychologyTimbreMusicPsychoacousticsCognitive psychologyTopics in Cognitive Science
researchProduct

The exploitation of distributional information in syllable processing

2004

There is now growing evidence that people are sensitive to the statistical regularities embedded into linguistic utterances, but the exact nature of the distributional information to which human performance is sensitive is an issue that has been surprisingly neglected as yet. In order to address this issue, we first propose an overview of some basic measures of association, going from the simple co-occurrence frequency to the normative measure of contingency, rw: We then report an experiment collecting judgments of word-likeness as a function of the relationship between the phonemes composing the rimes (VC). The contingency between Vs and Cs, as assessed by rw; was the best predictor of chi…

Linguistics and LanguageGeneralityComputational modelParsingbusiness.industryComputer scienceCognitive NeuroscienceAutomaticityExperimental and Cognitive PsychologyPhonologycomputer.software_genreArts and Humanities (miscellaneous)ConnectionismArtificial intelligenceSyllableContingencybusinesscomputerNatural language processingJournal of Neurolinguistics
researchProduct