Search results for "Potentials"

showing 10 items of 1072 documents

Efficient FPGA Implementation of an Adaptive Noise Canceller

2006

A hardware implementation of an adaptive noise canceller (ANC) is presented. It has been synthesized within an FPGA, using a modified version of the least mean square (LMS) error algorithm. The results obtained so far show a significant decrease of the required gate count when compared with a standard LMS implementation, while increasing the ANC bandwidth and signal to noise (S/N) ratio. This novel adaptive noise canceller is then useful for enhancing the S/N ratio of data collected from sensors (or sensor arrays) working in noisy environment, or dealing with potentially weak signals.

Computer scienceBandwidth (signal processing)Real-time computingSignal synthesisElectroencephalographyBioelectric potentialsLeast mean squares filterSignal-to-noise ratioGate countError analysisElectronic engineeringHardware_ARITHMETICANDLOGICSTRUCTURESField-programmable gate arrayEvoked PotentialsActive noise control
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The Brain Electrophysiological recording & STimulation (BEST) toolbox

2021

Abstract Non-invasive brain stimulation (NIBS) experiments involve many recurring procedures that are not sufficiently standardized in the community. Given the diversity in experimental design and experience of the investigators, automated but yet flexible data collection and analysis tools are needed to increase objectivity, reliability, and reproducibility of NIBS experiments. The B rain E lectrophysiological recording and ST imulation (BEST) Toolbox is a MATLAB-based, open-source software with graphical user interface that allows users to design, run, and share freely configurable multi-protocol, multi-session NIBS studies, including transcranial magnetic, electric, and ultrasound stimul…

Computer scienceBiophysicsNeurosciences. Biological psychiatry. NeuropsychiatryElectroencephalographySoftwareEMGmedicineEEGEvoked potentialtESGraphical user interfacemedicine.diagnostic_testbusiness.industryGeneral NeurosciencefMRIBrainReproducibility of ResultsElectroencephalographyEvoked Potentials MotorTranscranial Magnetic StimulationAutomationTUSToolboxInterfacingBrain stimulationTMSNeurology (clinical)businessComputer hardwareRC321-571Brain Stimulation
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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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Quantification and automatized adaptive detection of in vivo and in vitro neuronal bursts based on signal complexity.

2015

In this paper, we propose employing entropy values to quantify action potential bursts in electrophysiological measurements from the brain and neuronal cultures. Conventionally in the electrophysiological signal analysis, bursts are quantified by means of conventional measures such as their durations, and number of spikes in bursts. Here our main aim is to device metrics for burst quantification to provide for enhanced burst characterization. Entropy is a widely employed measure to quantify regularity/complexity of time series. Specifically, we investigate the applicability and differences of spectral entropy and sample entropy in the quantification of bursts in in vivo rat hippocampal meas…

Computer scienceQuantitative Biology::Tissues and OrgansAstrophysics::High Energy Astrophysical PhenomenaEntropyCell Culture TechniquesElectrophysiological PhenomenaAction Potentialsta3112HippocampusEntropy (classical thermodynamics)In vivoEntropy (information theory)AnimalsEntropy (energy dispersal)Rats WistarEntropy (arrow of time)ta217NeuronsSignal processingQuantitative Biology::Neurons and Cognitionta213Entropy (statistical thermodynamics)Signal Processing Computer-Assistedadaptive detectionelectrophysiological signal analysisquantificationneuronal burstsElectrophysiological PhenomenaSample entropyElectrophysiologyElectrophysiologyMicroelectrodeBiological systemNeuroscienceMicroelectrodesEntropy (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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The role of network connectivity on epileptiform activity.

2021

AbstractA number of potentially important mechanisms have been identified as key players to generate epileptiform activity, such as genetic mutations, activity-dependent alteration of synaptic functions, and functional network reorganization at the macroscopic level. Here we study how network connectivity at cellular level can affect the onset of epileptiform activity, using computational model networks with different wiring properties. The model suggests that networks connected as in real brain circuits are more resistant to generate seizure-like activity. The results suggest new experimentally testable predictions on the cellular network connectivity in epileptic individuals, and highligh…

Computer scienceScienceAction PotentialsCellular levelArticleFunctional networksComputational biophysicsSeizuresNeural Pathwayscomputational model networkHumansThe role of network connectivity on epileptiform activityComputational modelMultidisciplinaryNetwork modelsEpilepsycellular network connectivitySettore INF/01 - InformaticaQRBrainElectroencephalographyNetwork connectivityApplied mathematicsepileptiform activitywiring propertieCellular networkKey (cryptography)MedicineNerve NetNeuroscienceScientific reports
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An Information-Theoretic Framework to Measure the Dynamic Interaction between Neural Spike Trains

2021

Understanding the interaction patterns among simultaneous recordings of spike trains from multiple neuronal units is a key topic in neuroscience. However, an optimal approach of assessing these interactions has not been established, as existing methods either do not consider the inherent point process nature of spike trains or are based on parametric assumptions that may lead to wrong inferences if not met. This work presents a framework, grounded in the field of information dynamics, for the model-free, continuous-time estimation of both undirected (symmetric) and directed (causal) interactions between pairs of spike trains. The framework decomposes the overall information exchanged dynami…

Computer scienceSpike trainEntropyModels NeurologicalBiomedical EngineeringAction Potentials01 natural sciencesAtmospheric measurementsPoint process010305 fluids & plasmask-nearest neighbors algorithm0103 physical sciencesEntropy (information theory)Computer Simulation010306 general physicsBiomedical measurementmutual informationpoint processesParametric statisticsNeuronsneural synchronyQuantitative Biology::Neurons and CognitionParticle measurementstransfer entropyMutual informationTime measurementSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)FOS: Biological sciencesQuantitative Biology - Neurons and CognitionSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaNeurons and Cognition (q-bio.NC)Transfer entropySpike (software development)information dynamicsAlgorithmEstimationIEEE Transactions on Biomedical Engineering
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CoCoDat: a database system for organizing and selecting quantitative data on single neurons and neuronal microcircuitry.

2004

We present a novel database system for organizing and selecting quantitative experimental data on single neurons and neuronal microcircuitry that has proven useful for reference-keeping, experimental planning and computational modelling. Building on our previous experience with large neuroscientific databases, the system takes into account the diversity and method-dependence of single cell and microcircuitry data and provides tools for entering and retrieving published data without a priori interpretation or summarizing. Data representation is based on the framework suggested by biophysical theory and enables flexible combinations of data on membrane conductances, ionic and synaptic current…

Computer sciencecomputer.internet_protocolRelational databaseModels NeurologicalAction PotentialsInformation Storage and Retrievalcomputer.software_genreMachine learningExternal Data RepresentationData retrievalAnimalsComputer SimulationLayer (object-oriented design)NeuronsDatabasebusiness.industryGeneral NeuroscienceExperimental dataRatsData sharingScalabilityDatabase Management SystemsArtificial intelligenceNeural Networks ComputerNerve NetbusinesscomputerXMLJournal of neuroscience methods
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Different Brain Mechanisms Mediate Sensitivity to Sensory Consonance and Harmonic Context: Evidence from Auditory Event-Related Brain Potentials

2001

Abstract The goal of this study was to analyze the time-course of sensory (bottom-up) and cognitive (top-down) processes that govern musical harmonic expectancy. Eight-chord sequences were presented to 12 musicians and 12 nonmusicians. Expectations for the last chord were manipulated both at the sensory level (i.e., the last chord was sensory consonant or dissonant) and at the cognitive level (the harmonic function of the target was varied by manipulating the harmonic context built up by the first six chords of the sequence). Changes in the harmonic function of the target chord mainly modulate the amplitude of a positive component peaking around 300 msec (P3) after target onset, reflecting …

ConsonantAdultMaleAuditory eventCognitive Neurosciencemedia_common.quotation_subjectSensory systemPerceptionHumansLate positive componentmedia_commonCommunicationbusiness.industry[SCCO.NEUR] Cognitive science/NeuroscienceCognitionConsonance and dissonanceMiddle AgedAcoustic StimulationAuditory PerceptionEvoked Potentials AuditoryChord (music)FemalebusinessPsychologyNeuroscienceMusic[SDV.NEU.SC] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Cognitive Sciences
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The neural basis of sublexical speech and corresponding nonspeech processing: a combined EEG-MEG study.

2014

Abstract We addressed the neural organization of speech versus nonspeech sound processing by investigating preattentive cortical auditory processing of changes in five features of a consonant–vowel syllable (consonant, vowel, sound duration, frequency, and intensity) and their acoustically matched nonspeech counterparts in a simultaneous EEG–MEG recording of mismatch negativity (MMN/MMNm). Overall, speech–sound processing was enhanced compared to nonspeech sound processing. This effect was strongest for changes which affect word meaning (consonant, vowel, and vowel duration) in the left and for the vowel identity change in the right hemisphere also. Furthermore, in the right hemisphere, spe…

ConsonantAdultMaleLinguistics and LanguageMemory Long-TermCognitive NeuroscienceSpeech recognitionMismatch negativityExperimental and Cognitive PsychologyAuditory cortexcomputer.software_genreLanguage and LinguisticsLateralization of brain functionFunctional LateralitySpeech and HearingYoung AdultDiscrimination PsychologicalPhoneticsReference ValuesVowelReaction TimeHumansAudio signal processingAuditory CortexCommunicationAnalysis of VarianceDuplex perceptionbusiness.industryMagnetoencephalographyElectroencephalographyMagnetic Resonance ImagingSemanticsAuditory PerceptionEvoked Potentials AuditorySpeech PerceptionSyllablebusinessPsychologycomputerBrain and language
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