Search results for "Machine learning"

showing 10 items of 1464 documents

Analysis of motor control and behavior in multi agent systems by means of artificial neural networks

2004

Abstract This article gives a short introduction to Self-Organizing Maps, a particular form of Artificial Neural Networks and shows by some examples, how these approaches can be used in order to analyze and visualize time series data originating from complex systems. The methods shown in this article have originally been developed for the analysis of RoboCup robot soccer games, a special kind of so-called Multi Agent Systems. Although this application has no direct connection to biomechanics, the examples shown here may give an impression of the abilities of Neural Networks in the field of Time Series Analysis in general. Because of the abstractness of the methods, it appears to be very lik…

Self-organizing mapEngineeringMovementModels NeurologicalBiophysicsComplex systemContext (language use)Motor ActivityMachine learningcomputer.software_genreField (computer science)AnimalsHumansComputer SimulationOrthopedics and Sports MedicineDiagnosis Computer-AssistedArtificial neural networkbusiness.industryTime delay neural networkMulti-agent systemRoboticsRobotNeural Networks ComputerArtificial intelligencebusinesscomputerAlgorithmsClinical Biomechanics

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The Hydrothermal System of Solfatara Crater (Campi Flegrei, Italy) Inferred From Machine Learning Algorithms

2019

Two machine learning algorithms were applied to three multivariate datasets acquired at Solfatara volcano. Our aim was to find an unbiased and coherent synthesis among the large amount of data acquired within the crater and along two orthogonal vertical NNE- and WNW-trending cross-sections. The first algorithm includes a new approach for a soft K-means clustering based on the use of the silhouette index to control the color palette of the clusters. The second algorithm which uses the self-organizing maps incorporates an alternative method for choosing the number of nodes of the neural network which aims to avoid the need for downstream clustering of the results of the classification. Both m…

Self-organizing mapMultivariate statistics010504 meteorology & atmospheric sciencesself-organizing maps010502 geochemistry & geophysicsMachine learningcomputer.software_genre01 natural sciencesSilhouetteImpact craterSolfataralcsh:ScienceCluster analysisK-means0105 earth and related environmental sciencesExploration geophysicsArtificial neural networkbusiness.industryk-means clusteringseismic methodsmachine learningGeneral Earth and Planetary Scienceslcsh:QArtificial intelligenceCampi FlegreibusinesscomputerAlgorithmGeologyFrontiers in Earth Science

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A neural network approach to movement pattern analysis.

2004

Movements are time-dependent processes and so can be modelled by time-series of coordinates: E.g., each articulation has geometric coordinates; the set of the coordinates of the relevant articulations build a high-dimensional configuration. These configurations--or "patterns"--give reason for analysing movements by means of neural networks: The Kohonen Feature Map (KFM) is a special type of neural network, which (after having been coined by training with appropriate pattern samples) is able to recognize single patterns as members of pattern clusters. This way, for example, the particular configurations of a given movement can be identified as belonging to respective configuration clusters, …

Self-organizing mapSimilarity (geometry)Computer scienceProcess (engineering)MovementBiophysicsExperimental and Cognitive PsychologyWalkingRunningSet (abstract data type)Software DesignOrientationFeature (machine learning)Computer GraphicsHumansOrthopedics and Sports MedicineMuscle SkeletalGaitStochastic ProcessesArtificial neural networkbusiness.industryBody movementPattern recognitionGeneral MedicineBiomechanical PhenomenaJoggingData Interpretation StatisticalTrajectoryArtificial intelligenceNeural Networks ComputerbusinessAlgorithmsHuman movement science

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Behavior Classification with Self-Organizing Maps

2001

We describe a method that applies Self-Organizing Maps for direct clustering of spatio-temporal data. We use the method to evaluate the behavior of RoboCup players. By training the Self-Organizing Map with player data we have the possibility to identify various clusters representing typical agent behavior patterns. Thus we can draw certain conclusions about their tactical behavior, using purely motion data, i.e. logfile information. In addition, we examine the player-ball interaction that give information about the players' technical capabilities.

Self-organizing mapbusiness.industryComputer scienceArtificial intelligencebusinessCluster analysisMachine learningcomputer.software_genrecomputerMotion (physics)

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On the Optimization of Self-Organizing Maps by Genetic Algorithms

1999

Publisher Summary This chapter reviews the research on the genetic optimization of self-organizing maps (SOMs). The optimization of learning rule parameters and of initial weights is able to improve network performance. The latter, however, requires chromosome sizes proportional to the size of the SOM and becomes unwieldy for large networks. The optimization of learning rule structures leads to self-organization processes of character similar to the standard learning rule. A particularly strong potential lies in the optimization of SOM topologies, which allows the study of global dynamical properties of SOMs and related models, as well as to develop tools for their analysis. Hierarchies of …

Self-organizing mapbusiness.industryComputer scienceProcess (engineering)Machine learningcomputer.software_genreNetwork topologyChromosome (genetic algorithm)Learning ruleCode (cryptography)Network performanceArtificial intelligenceData pre-processingbusinesscomputer

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Classification of Sequences with Deep Artificial Neural Networks: Representation and Architectural Issues

2021

DNA sequences are the basic data type that is processed to perform a generic study of biological data analysis. One key component of the biological analysis is represented by sequence classification, a methodology that is widely used to analyze sequential data of different nature. However, its application to DNA sequences requires a proper representation of such sequences, which is still an open research problem. Machine Learning (ML) methodologies have given a fundamental contribution to the solution of the problem. Among them, recently, also Deep Neural Network (DNN) models have shown strongly encouraging results. In this chapter, we deal with specific classification problems related to t…

SequenceBiological dataSequence classiﬁcationSettore INF/01 - InformaticaArtificial neural networkProcess (engineering)Computer sciencebusiness.industryDeep learningBacteria classificationSequence classificationBacteria classiﬁcationNucleosome identiﬁcationDeep neural networkMachine learningcomputer.software_genreData typeNucleosome identificationComponent (UML)Artificial intelligenceMetagenomicsRepresentation (mathematics)businesscomputer

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Bot or not? a case study on bot recognition from web session logs

2018

This work reports on a study of web usage logs to verify whether it is possible to achieve good recognition rates in the task of distinguishing between human users and automated bots using computational intelligence techniques. Two problem statements are given, offline (for completed sessions) and on-line (for sequences of individual HTTP requests). The former is solved with several standard computational intelligence tools. For the second, a learning version of Wald’s sequential probability ratio test is used.

Sequential decisionComputer sciencebusiness.industryProblem statementComputational intelligence02 engineering and technologyMachine learningcomputer.software_genreSequential decisionClassificationSession (web analytics)Task (project management)Work (electrical)020204 information systemsSequential probability ratio test0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingWeb usageArtificial intelligencebusinessClassification; Sequential decision; Web bot recognitioncomputerWeb bot recognition

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Deep learning for agricultural land use classification from Sentinel-2

2020

[ES] En el campo de la teledetección se ha producido recientemente un incremento del uso de técnicas de aprendizaje profundo (deep learning). Estos algoritmos se utilizan con éxito principalmente en la estimación de parámetros y en la clasificación de imágenes. Sin embargo, se han realizado pocos esfuerzos encaminados a su comprensión, lo que lleva a ejecutarlos como si fueran “cajas negras”. Este trabajo pretende evaluar el rendimiento y acercarnos al entendimiento de un algoritmo de aprendizaje profundo, basado en una red recurrente bidireccional de memoria corta a largo plazo (2-BiLSTM), a través de un ejemplo de clasificación de usos de suelo agrícola de la Comunidad Valenciana dentro d…

Series temporalesTime series010504 meteorology & atmospheric sciencesComputer scienceRemote sensing applicationGeography Planning and Development0211 other engineering and technologiesDecision treelcsh:G1-92202 engineering and technologyClasificaciónMachine learningcomputer.software_genre01 natural sciencesBiLSTMClassifier (linguistics)Earth and Planetary Sciences (miscellaneous)Spatial analysis021101 geological & geomatics engineering0105 earth and related environmental sciencesArtificial neural networkbusiness.industryDeep learningDeep learningClassificationRandom forestSupport vector machineArtificial intelligenceSentinel-2businesscomputerlcsh:Geography (General)

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Corrigendum to “Predicting service request in support centers based on nonlinear dynamics, ARMA modeling and neural networks” [Expert Systems with Ap…

2013

Service (business)Artificial neural networkbusiness.industryComputer scienceGeneral EngineeringMachine learningcomputer.software_genreExpert systemComputer Science ApplicationsNonlinear systemArtificial IntelligenceArtificial intelligencebusinesscomputerExpert Systems with Applications

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Predicting service request in support centers based on nonlinear dynamics, ARMA modeling and neural networks

2008

In this paper, we present the use of different mathematical models to forecast service requests in support centers (SCs). A successful prediction of service request can help in the efficient management of both human and technological resources that are used to solve these eventualities. A nonlinear analysis of the time series indicates the convenience of nonlinear modeling. Neural models based on the time delay neural network (TDNN) are benchmarked with classical models, such as auto-regressive moving average (ARMA) models. Models achieved high values for the correlation coefficient between the desired signal and that predicted by the models (values between 0.88 and 0.97 were obtained in th…

Service (systems architecture)Artificial neural networkMathematical modelbusiness.industryTime delay neural networkComputer scienceGeneral EngineeringMachine learningcomputer.software_genreComputer Science ApplicationsSet (abstract data type)Nonlinear systemArtificial IntelligenceMoving averageArtificial intelligenceTime seriesbusinesscomputerExpert Systems with Applications

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