Search results for "NEURAL NETWORK"

showing 10 items of 1385 documents

Analyzing the feasibility of time correlated spectral entropy for the assessment of neuronal synchrony

2016

In this paper, we study neuronal network analysis based on microelectrode measurements. We search for potential relations between time correlated changes in spectral distributions and synchrony for neuronal network activity. Spectral distribution is quantified by spectral entropy as a measure of uniformity/complexity and this measure is calculated as a function of time for the recorded neuronal signals, i.e., time variant spectral entropy. Time variant correlations in the spectral distributions between different parts of a neuronal network, i.e., of concurrent measurements via different microelectrodes, are calculated to express the relation with a single scalar. We demonstrate these relati…

0301 basic medicineSpectral power distributionhippocampusta3112Correlation03 medical and health sciences0302 clinical medicineStatisticsBiological neural networkAnimalsEntropy (information theory)Neuronal synchronyAnalysis methodMathematicsta217Quantitative Biology::Neurons and Cognitionta213Spectral entropybiological neural networkselectrodesrats030104 developmental biologycorrelationBiological systementropyprobesMicroelectrodes030217 neurology & neurosurgery
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Partitioned learning of deep Boltzmann machines for SNP data.

2016

Abstract Motivation Learning the joint distributions of measurements, and in particular identification of an appropriate low-dimensional manifold, has been found to be a powerful ingredient of deep leaning approaches. Yet, such approaches have hardly been applied to single nucleotide polymorphism (SNP) data, probably due to the high number of features typically exceeding the number of studied individuals. Results After a brief overview of how deep Boltzmann machines (DBMs), a deep learning approach, can be adapted to SNP data in principle, we specifically present a way to alleviate the dimensionality problem by partitioned learning. We propose a sparse regression approach to coarsely screen…

0301 basic medicineStatistics and ProbabilityComputer scienceMachine learningcomputer.software_genre01 natural sciencesBiochemistryPolymorphism Single NucleotideMachine Learning010104 statistics & probability03 medical and health sciencessymbols.namesakeJoint probability distributionHumans0101 mathematicsMolecular BiologyStatistical hypothesis testingArtificial neural networkbusiness.industryGene Expression Regulation LeukemicDeep learningUnivariateComputational BiologyManifoldComputer Science ApplicationsData setComputational Mathematics030104 developmental biologyComputingMethodologies_PATTERNRECOGNITIONComputational Theory and MathematicsLeukemia MyeloidBoltzmann constantsymbolsData miningArtificial intelligencebusinesscomputerSoftwareCurse of dimensionalityBioinformatics (Oxford, England)
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Deep learning models for bacteria taxonomic classification of metagenomic data.

2018

Background An open challenge in translational bioinformatics is the analysis of sequenced metagenomes from various environmental samples. Of course, several studies demonstrated the 16S ribosomal RNA could be considered as a barcode for bacteria classification at the genus level, but till now it is hard to identify the correct composition of metagenomic data from RNA-seq short-read data. 16S short-read data are generated using two next generation sequencing technologies, i.e. whole genome shotgun (WGS) and amplicon (AMP); typically, the former is filtered to obtain short-reads belonging to a 16S shotgun (SG), whereas the latter take into account only some specific 16S hypervariable regions.…

0301 basic medicineTime FactorsDBNComputer scienceBiochemistryStructural BiologyRNA Ribosomal 16SDatabases Geneticlcsh:QH301-705.5Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazionibiologySettore INF/01 - InformaticaShotgun sequencingApplied MathematicsAmpliconClassificationComputer Science Applicationslcsh:R858-859.7DNA microarrayShotgunAlgorithmsCNN030106 microbiologyk-mer representationlcsh:Computer applications to medicine. Medical informaticsDNA sequencing03 medical and health sciencesMetagenomicDeep LearningMolecular BiologyBacteriaModels GeneticPhylumbusiness.industryDeep learningResearchReproducibility of ResultsPattern recognitionBiological classification16S ribosomal RNAbiology.organism_classificationAmpliconHypervariable region030104 developmental biologyTaxonlcsh:Biology (General)MetagenomicsMetagenomeArtificial intelligenceMetagenomicsNeural Networks ComputerbusinessClassifier (UML)BacteriaBMC bioinformatics
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A Basic Architecture of an Autonomous Adaptive System With Conscious-Like Function for a Humanoid Robot.

2018

In developing a humanoid robot, there are two major objectives. One is developing a physical robot having body, hands, and feet resembling those of human beings and being able to similarly control them. The other is to develop a control system that works similarly to our brain, to feel, think, act, and learn like ours. In this article, an architecture of a control system with a brain-oriented logical structure for the second objective is proposed. The proposed system autonomously adapts to the environment and implements a clearly defined “consciousness” function, through which both habitual behavior and goal-directed behavior are realized. Consciousness is regarded as a function for effecti…

0301 basic medicinebrain-oriented systemComputer sciencelcsh:Mechanical engineering and machinerymedia_common.quotation_subjectlcsh:QA75.5-76.9503 medical and health sciences0302 clinical medicineArtificial IntelligenceAdaptive systemHypothesis and Theorylcsh:TJ1-1570Binding problemAdaptation (computer science)Function (engineering)goal-directed behaviorLibet’s experimentmedia_commonRobotics and AIautonomous adaptationhabitual behaviorArtificial neural networkbusiness.industryComputer Science Applicationsimage processing030104 developmental biologybinding problemRobotlcsh:Electronic computers. Computer scienceArtificial intelligencemodel of consciousnessConsciousnessbusiness030217 neurology & neurosurgeryHumanoid robotFrontiers in robotics and AI
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Unraveling the Molecular Mechanism of Action of Empagliflozin in Heart Failure With Reduced Ejection Fraction With or Without Diabetes

2019

Visual Abstract

0301 basic medicinelcsh:Diseases of the circulatory (Cardiovascular) systemmedicine.medical_specialtyCardiac & Cardiovascular Systemsempagliflozinheart failure030204 cardiovascular system & hematologySGLT2i sodium-glucose co-transporter 2 inhibitorHF heart failurePRECLINICAL RESEARCH03 medical and health sciences0302 clinical medicineDM diabetes mellitusDiabetes mellitusInternal medicinemedicineEmpagliflozinMI-HF post-infarct heart failureGlycemicScience & TechnologyEjection fractionbusiness.industryNHE sodium-hydrogen exchangerANN artificial neural networkmedicine.diseaseHFrEF HF with reduced ejection fractionBlockadeXIAPmachine learning030104 developmental biologyMechanism of actionlcsh:RC666-701Heart failureCardiovascular System & CardiologyCardiologyRNAseq RNA sequencingempagtiflozinmedicine.symptomCardiology and Cardiovascular MedicinebusinessLife Sciences & BiomedicineJACC: Basic to Translational Science
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Taxonomic Classification for Living Organisms Using Convolutional Neural Networks

2017

Taxonomic classification has a wide-range of applications such as finding out more about evolutionary history. Compared to the estimated number of organisms that nature harbors, humanity does not have a thorough comprehension of to which specific classes they belong. The classification of living organisms can be done in many machine learning techniques. However, in this study, this is performed using convolutional neural networks. Moreover, a DNA encoding technique is incorporated in the algorithm to increase performance and avoid misclassifications. The algorithm proposed outperformed the state of the art algorithms in terms of accuracy and sensitivity, which illustrates a high potential f…

0301 basic medicinelcsh:QH426-470Taxonomic classificationADNCodificació Teoria de laBiologyBioinformaticsMachine learningcomputer.software_genreDNA; genes; taxonomic classification; convolutional neural networks; encodingConvolutional neural networkArticle03 medical and health sciences0302 clinical medicineBiologia -- ClassificacióEncoding (memory)convolutional neural networksGeneticstaxonomic classificationSensitivity (control systems)genesGenetics (clinical)ta113Biology -- Classificationbusiness.industryBiological classificationCoding theoryDNAencodinglcsh:Genetics030104 developmental biologyGenes030220 oncology & carcinogenesisEncodingConvolutional neural networksArtificial intelligenceCoding theorybusinesscomputerGens
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GABA—from Inhibition to Cognition:Emerging Concepts

2018

Neural functioning and plasticity can be studied on different levels of organization and complexity ranging from the molecular and synaptic level to neural circuitry of whole brain networks. Across neuroscience different methods are being applied to better understand the role of various neurotransmitter systems in the evolution of perception and cognition. GABA is the main inhibitory neurotransmitter in the adult mammalian brain and, depending on the brain region, up to 25% of the total number of cortical neurons are GABAergic interneurons. At the one end of the spectrum, GABAergic neurons have been accurately described with regard to cell morphological, molecular, and electrophysiological…

0301 basic medicinespectroscopyInterneuronmedia_common.quotation_subjectNeurotransmitter systemsinterneuronperception03 medical and health sciencesGABACognition0302 clinical medicinePerceptionmedicineBiological neural networkAnimalsHumansGABAergic Neuronsgamma-Aminobutyric Acidmedia_commonNeuronal PlasticitylearningGeneral NeuroscienceBrainCognitionCortical neuronsinhibitionElectrophysiology030104 developmental biologymedicine.anatomical_structurenervous systemplasticityTMSGABAergicNeurology (clinical)PsychologyNeuroscience030217 neurology & neurosurgery
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Bacteria classification using minimal absent words

2017

Bacteria classification has been deeply investigated with different tools for many purposes, such as early diagnosis, metagenomics, phylogenetics. Classification methods based on ribosomal DNA sequences are considered a reference in this area. We present a new classificatier for bacteria species based on a dissimilarity measure of purely combinatorial nature. This measure is based on the notion of Minimal Absent Words, a combinatorial definition that recently found applications in bioinformatics. We can therefore incorporate this measure into a probabilistic neural network in order to classify bacteria species. Our approach is motivated by the fact that there is a vast literature on the com…

0301 basic medicinesupervised classificationRelation (database)Computer science0102 computer and information sciences01 natural sciencesMeasure (mathematics)03 medical and health sciencesProbabilistic neural networkcombinatorics on wordsprobabilistic neural networkminimal absent wordlcsh:R5-920Settore INF/01 - Informaticabusiness.industryBacterial taxonomyPattern recognitionbacteria classificationGeneral MedicineCombinatorics on words030104 developmental biology010201 computation theory & mathematicsMetagenomicsClassification methodsArtificial intelligencebusinesslcsh:Medicine (General)AIMS Medical Science
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Reinforcement learning in synthetic gene circuits.

2020

Synthetic gene circuits allow programming in DNA the expression of a phenotype at a given environmental condition. The recent integration of memory systems with gene circuits opens the door to their adaptation to new conditions and their re-programming. This lays the foundation to emulate neuromorphic behaviour and solve complex problems similarly to artificial neural networks. Cellular products such as DNA or proteins can be used to store memory in both digital and analog formats, allowing cells to be turned into living computing devices able to record information regarding their previous states. In particular, synthetic gene circuits with memory can be engineered into living systems to al…

0303 health sciencesArtificial neural networkComputer scienceQH02 engineering and technologyDNA021001 nanoscience & nanotechnologyQ1BiochemistryExpression (mathematics)Living systems03 medical and health sciencesComputingMethodologies_PATTERNRECOGNITIONNeuromorphic engineeringSynthetic geneHuman–computer interactionArtificial IntelligenceGenes SyntheticReinforcement learningQDGene Regulatory Networks0210 nano-technologyAdaptation (computer science)030304 developmental biologyElectronic circuitBiochemical Society transactions
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Human Pluripotent Stem Cell-Derived Neuronal Networks:Their Electrical Functionality and Usability for Modelling and Toxicology

2011

Micro electrode array (MEA)-based platforms have been used to study neuronal networks for decades. The used cells have, for the most part, been rodent primary neurons. The gained knowledge has indeed increased the understanding of neuronal network development and maturation both in vitro and in vivo. If aiming to understand the development of human brain, however, the used cell type should preferably be of human origin due to difficult interpolation from the rodent cell data. In addition, the development of functional human neuronal networks would open up a new era for, e.g., toxicology testing, drug screening and disease modelling. The use of MEA with bioelectrically active cells was first…

0303 health sciencesCell typeCellHuman brainBiologyEmbryonic stem cellIn vitroToxicology03 medical and health sciences0302 clinical medicinemedicine.anatomical_structureCell culturemedicineBiological neural networkInduced pluripotent stem cellNeuroscience030217 neurology & neurosurgery030304 developmental biology
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