Search results for "Neurologi"

showing 10 items of 1189 documents

A Fly-Inspired Mushroom Bodies Model for Sensory-Motor Control Through Sequence and Subsequence Learning

2016

Classification and sequence learning are relevant capabilities used by living beings to extract complex information from the environment for behavioral control. The insect world is full of examples where the presentation time of specific stimuli shapes the behavioral response. On the basis of previously developed neural models, inspired by Drosophila melanogaster, a new architecture for classification and sequence learning is here presented under the perspective of the Neural Reuse theory. Classification of relevant input stimuli is performed through resonant neurons, activated by the complex dynamics generated in a lattice of recurrent spiking neurons modeling the insect Mushroom Bodies n…

Computer Networks and CommunicationsComputer scienceDecision MakingModels NeurologicalAction PotentialsContext (language use)Insect mushroom bodies bio-inspired control spiking neurons02 engineering and technologyVariation (game tree)Motor Activitybio-inspired control03 medical and health sciences0302 clinical medicineRewardSubsequence0202 electrical engineering electronic engineering information engineeringAnimalsLearningComputer SimulationMushroom BodiesTRACE (psycholinguistics)NeuronsSequencebio-inspired control; Insect mushroom bodies; learning; neural model; resonant neurons; spiking neurons; Action Potentials; Animals; Computer Simulation; Decision Making; Drosophila melanogaster; Learning; Motor Activity; Mushroom Bodies; Neurons; Perception; Reward; Robotics; Models Neurological; Neural Networks Computerspiking neuronsbusiness.industryRoboticsGeneral MedicineInsect mushroom bodiesComplex dynamicsDrosophila melanogasterMushroom bodiesPerception020201 artificial intelligence & image processingNeural Networks ComputerArtificial intelligenceSequence learningbusiness030217 neurology & neurosurgery
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Sequence Learning in a Single Trial: A Spiking Neurons Model Based on Hippocampal Circuitry.

2020

ABSTRACTIn contrast with our everyday experience using brain circuits, it can take a prohibitively long time to train a computational system to produce the correct sequence of outputs in the presence of a series of inputs. This suggests that something important is missing in the way in which models are trying to reproduce basic cognitive functions. In this work, we introduce a new neuronal network architecture that is able to learn, in a single trial, an arbitrary long sequence of any known objects. The key point of the model is the explicit use of mechanisms and circuitry observed in the hippocampus, which allow the model to reach a level of efficiency and accuracy that, to the best of our…

Computer Networks and CommunicationsComputer scienceModels NeurologicalHippocampusAction PotentialsBrain modeling; Computer architecture; Hippocampus; Learning systems; Microprocessors; Navigation; Neurons; Persistent firing (PF); robot navigation; spike-timing-dependent-plasticity synapse; spiking neurons.Hippocampal formationHippocampus03 medical and health sciences0302 clinical medicineArtificial IntelligenceBiological neural network030304 developmental biologyNeurons0303 health sciencesSequenceSeries (mathematics)business.industryBasic cognitive functionsContrast (statistics)CognitionComputer Science ApplicationsSequence learningArtificial intelligenceNeural Networks ComputerbusinessSoftware030217 neurology & neurosurgeryIEEE transactions on neural networks and learning systems
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Topology of synaptic connectivity constrains neuronal stimulus representation, predicting two complementary coding strategies

2022

In motor-related brain regions, movement intention has been successfully decoded from in-vivo spike train by isolating a lower-dimension manifold that the high-dimensional spiking activity is constrained to. The mechanism enforcing this constraint remains unclear, although it has been hypothesized to be implemented by the connectivity of the sampled neurons. We test this idea and explore the interactions between local synaptic connectivity and its ability to encode information in a lower dimensional manifold through simulations of a detailed microcircuit model with realistic sources of noise. We confirm that even in isolation such a model can encode the identity of different stimuli in a lo…

Computer and Information SciencesPhysiologyScienceModels NeurologicalInformation TheoryAction PotentialsNeurophysiologySynaptic TransmissionMembrane PotentialTopologyAnimal CellsClustering CoefficientsAnimalsManifoldsNeuronsMultidisciplinaryNeuronal MorphologyQuantitative Biology::Neurons and CognitionDirected GraphsvariabilityQRBiology and Life SciencesEigenvaluesSomatosensory CortexCell BiologyRatsMicrocircuitsElectrophysiologyAlgebraLinear AlgebraCellular NeuroscienceGraph TheoryPhysical SciencesEngineering and TechnologyMedicineCellular TypesdiverseMathematicsElectrical EngineeringResearch ArticleNeuroscienceElectrical Circuits
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Single neuron binding properties and the magical number 7

2008

When we observe a scene, we can almost instantly recognize a familiar object or can quickly distinguish among objects differing by apparently minor details. Individual neurons in the medial temporal lobe of humans have been shown to be crucial for the recognition process, and they are selectively activated by different views of known individuals or objects. However, how single neurons could implement such a sparse and explicit code is unknown and almost impossible to investigate experimentally. Hippocampal CA1 pyramidal neurons could be instrumental in this process. Here, in an extensive series of simulations with realistic morphologies and active properties, we demonstrate how n radial (ob…

Computer scienceCognitive NeuroscienceModels NeurologicalHippocampusCA1 pyramidal neuronHippocampusTemporal lobesynaptic integrationmedicineCode (cryptography)Humansoblique dendritesNeuronsbinding proceSettore INF/01 - InformaticahippocampuProcess (computing)Oblique casefood and beveragesObject (computer science)computational modelmedicine.anatomical_structureMemory Short-TermNeuronNeural codingNeuroscience
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A modeling study suggesting how a reduction in the context-dependent input on CA1 pyramidal neurons could generate schizophrenic behavior.

2011

The neural mechanisms underlying schizophrenic behavior are unknown and very difficult to investigate experimentally, although a few experimental and modeling studies suggested possible causes for some of the typical psychotic symptoms related to this disease. The brain region most involved in these processes seems to be the hippocampus, because of its critical role in establishing memories for objects or events in the context in which they occur. In particular, a hypofunction of the N-methyl-D-aspartate (NMDA) component of the synaptic input on the distal dendrites of CA1 pyramidal neurons has been suggested to play an important role for the emergence of schizophrenic behavior. Modeling st…

Computer scienceCognitive Neurosciencemedia_common.quotation_subjectSchizophrenia Realistic model CA1 Hippocampus Object recognition Synaptic integrationCentral nervous systemModels NeurologicalCa1 neuronHippocampusHippocampal formationSynapse03 medical and health sciences0302 clinical medicineArtificial IntelligencePerceptionmedicineAnimalsHumansInvariant (mathematics)CA1 Region Hippocampal030304 developmental biologymedia_common0303 health sciencesRecallArtificial neural networkPyramidal NeuronSynaptic integrationPyramidal CellsCognitive neuroscience of visual object recognitionDendritesmedicine.diseasemedicine.anatomical_structurenervous systemSchizophreniaSynapsesSchizophreniaNMDA receptorNeuronNerve NetNeuroscience030217 neurology & neurosurgeryNeural networks : the official journal of the International Neural Network Society
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A Measure of Concurrent Neural Firing Activity Based on Mutual Information

2021

Multiple methods have been developed in an attempt to quantify stimulus-induced neural coordination and to understand internal coordination of neuronal responses by examining the synchronization phenomena in neural discharge patterns. In this work we propose a novel approach to estimate the degree of concomitant firing between two neural units, based on a modified form of mutual information (MI) applied to a two-state representation of the firing activity. The binary profile of each single unit unfolds its discharge activity in time by decomposition into the state of neural quiescence/low activity and state of moderate firing/bursting. Then, the MI computed between the two binary streams is…

Computer scienceModels NeurologicalAction PotentialsBinary numberRetinal ganglionMeasure (mathematics)050105 experimental psychologySynchronizationSurrogate data03 medical and health sciencesBursting0302 clinical medicineComputer Simulation0501 psychology and cognitive sciencesRepresentation (mathematics)Neuronsbusiness.industryGeneral Neuroscience05 social sciencesFiring patternsPattern recognitionMutual informationCorrelationConcurrent activityMutual informationArtificial intelligencebusinessNeural synchrony030217 neurology & neurosurgerySoftwareInformation Systems
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Statistical geometric affinity in human brain electric activity

2007

10 pages, 9 figures.-- PACS nrs.: 87.19.La; 05.45.Tp.-- ISI Article Identifier: 000246890100105

Computer scienceModels NeurologicalNeurophysiologyElectroencephalographyInterpretation (model theory)[PACS] Time series analysis (nonlinear dynamical systems)LacunaritymedicineHumansComputer SimulationDiagnosis Computer-AssistedWakefulnessRepresentation (mathematics)ScalingEvoked PotentialsModels Statisticalmedicine.diagnostic_testbusiness.industry[PACS] Neuroscience (higher organisms)BrainPattern recognitionElectroencephalographyNeurophysiologyAmplitudeStatistical analysisData Interpretation StatisticalBioelectric phenomenaLacunarityAffine transformationArtificial intelligenceSleep StagesbusinessSleep
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Measuring the agreement between brain connectivity networks.

2016

Investigating the level of similarity between two brain networks, resulting from measures of effective connectivity in the brain, can be of interest from many respects. In this study, we propose and test the idea to borrow measures of association used in machine learning to provide a measure of similarity between the structure of (un-weighted) brain connectivity networks. The measures here explored are the accuracy, Cohen's Kappa (K) and Area Under Curve (AUC). We implemented two simulation studies, reproducing two contexts of application that can be particularly interesting for practical applications, namely: i) in methodological studies, performed on surrogate data, aiming at comparing th…

Computer scienceModels NeurologicalStructure (category theory)Biomedical EngineeringSignal Processing; Biomedical Engineering; 1707; Health InformaticsHealth Informatics02 engineering and technologycomputer.software_genreMeasure (mathematics)Surrogate dataData modeling03 medical and health sciencesAnalysis of Variance Area Under Curve Brain Brain Mapping Computer Simulation Electroencephalography Humans Nerve Net Signal Processing Computer-Assisted Models Neurological0302 clinical medicineSimilarity (network science)0202 electrical engineering electronic engineering information engineeringHumansComputer SimulationSensitivity (control systems)1707Analysis of VarianceBrain MappingBrainElectroencephalographySignal Processing Computer-AssistedArea Under CurveSignal Processing020201 artificial intelligence & image processingData miningNerve Netcomputer030217 neurology & neurosurgeryAnnual 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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Design of composite measure schemes for comparative severity assessment in animal-based neuroscience research: A case study focussed on rat epilepsy …

2020

PLOS ONE 15(5), e0230141 (2020). doi:10.1371/journal.pone.0230141

Computer sciencePhysiologyPsychological interventionSocial Sciencescomputer.software_genreOpen fieldField (computer science)Rats Sprague-Dawley0302 clinical medicineMathematical and Statistical TechniquesMedicine and Health SciencesPsychologyCluster Analysis0303 health sciencesPrincipal Component AnalysisMultidisciplinaryAnimal Welfare (journal)Animal BehaviorQStatisticsRAnimal ModelsResearch AssessmentNeurologyExperimental Organism SystemsAnimal SocialityPhysical SciencesMedicineDisease Models Animals epilepsy animal behaviorFemaleLocomotionResearch ArticleScienceSpatial BehaviorContext (language use)Machine learningResearch and Analysis Methods03 medical and health sciencesRobustness (computer science)Animal welfareKindling NeurologicAnimalsRelevance (information retrieval)BurrowingStatistical MethodsSocial BehaviorSelection (genetic algorithm)030304 developmental biologyBehaviorEpilepsybusiness.industryBiological LocomotionBiology and Life SciencesRatsDisease Models AnimalBiological Variation PopulationMultivariate AnalysisAnimal StudiesArtificial intelligenceK Means ClusteringbusinesscomputerZoology030217 neurology & neurosurgeryMathematicsSoftware
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Spatial-temporal interactions in the human brain

2009

The review summarises current evidence on the cognitive mechanisms for the integration of spatial and temporal representations and of common brain structures to process the where and when of stimuli. Psychophysical experiments document the presence of spatially localised distortions of sub-second time intervals and suggest that visual events are timed by neural mechanisms that are spatially selective. On the other hand, experiments with supra-second intervals suggest that time could be represented on a mental time-line ordered from left-to-right, similar to what is reported for other ordered quantities, such as numbers. Neuroimaging and neuropsychological findings point towards the posterio…

Computer sciencePosterior parietal cortexLateralization of brain functionFunctional LateralityNOPerceptual DisordersNeuroimagingOrientationParietal LobemedicineSPACEHumansSpatial representationTemporal informationSettore M-PSI/02 - Psicobiologia E Psicologia FisiologicaGeneral NeuroscienceNeuropsychologyBrainCognitionHuman brainTIMEOrientation; Humans; Brain; Time Perception; Space Perception; Psychomotor Performance; Parietal Lobe; Visual Perception; Perceptual Disorders; Functional Lateralitymedicine.anatomical_structureSpace PerceptionTime PerceptionVisual PerceptionSettore MED/26 - NeurologiaNeurosciencePsychomotor Performance
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