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dc.rights.licensehttp://creativecommons.org/licenses/by-nc-nd/4.0es_ES
dc.contributorJuvenal Rodríguez Reséndizes_ES
dc.creatorCesar Javier Ortiz Echeverries_ES
dc.date2020-01-30-
dc.date.accessioned2020-01-31T16:21:53Z-
dc.date.available2020-01-31T16:21:53Z-
dc.date.issued2020-01-30-
dc.identifierInterfaces Cerebro-Computadoraes_ES
dc.identifierRedes Neuronaleses_ES
dc.identifierSeparación de Fuentes Ciegases_ES
dc.identifier.urihttp://ri-ng.uaq.mx/handle/123456789/2011-
dc.descriptionBrain-Computer Interfaces (BCI) are systems that provide an alternative communication between the human brain and a computer, where electroencephalography (EEG) is the the non-invasive and most viable way to obtain the electrophysiological activity. However, the EEG register presents several important challenges for both the instrumentation and the signal processing techniques involved in a BCI implementation. Some of the most relevant drawbacks are due to the low signal-to-noise ratio, the presence of undesirable signals such as ocular, cardiac, and muscular activity, as well as a low spatial resolution due to the distance and high impedance between the sources and the location of the electrodes. Therefore, the raw of EEG signals have very low amplitude, very low signal-to-noise ratio, and considerable noise contamination. Digital signal processing, and machine learning have been included in the preprocessing, feature extraction and classication stages of BCI systems in order to improve the signal-to-noise-ratio and hence, increase their effciency. The rst part of the present dissertation consists of comparing the performance of different preprocessing algorithms to estimate the original sources from the EEG registers; particularly, the preprocessing was made using Blind Source Separation (BSS) algorithms. This kind of spatial lters are based on Second Order Statistic (SOS) or High Order Statistic (HOS) information. Most representative BSS algorithms are (SOBI, SOBIRO, fastICA, and Infomax) were compared using semi-simulated sources, using the Pearson's correlation coecient and the Wavelet Coherence (WC) as metrics. This analysis was conducted in the electrophysiological bands. On the other hand, an analysis of dierent descriptors in time and frequency domain was performed for the extraction of relevant features was made in order to nd the most relevant information and thus reduce the dimensionality of input data. In this stage, the used classier was an Multilayer Perceptron (MLP). Finally, new method built from the combination of a Blind Source Separation (BSS) to obtain estimated independent components, a 2D representation of these component signals using the ContinuousWavelet Transform (CWT), and a classication stage using a Convolutional Neural Network (CNN) has been proposed. A criterion based on the spectral correlation with a Movement Related Independent Component (MRIC) is used to sort the estimated sources by BSS, thus reducing the spatial variance. The experimental results of 94.21% using a k-fold cross validation are competitive with techniques recently reported in the state-of-the-art.es_ES
dc.formatAdobe PDFes_ES
dc.language.isospaes_ES
dc.relation.requiresSies_ES
dc.rightsAcceso Abiertoes_ES
dc.subjectINGENIERÍA Y TECNOLOGÍAes_ES
dc.subjectCIENCIAS TECNOLÓGICASes_ES
dc.subjectCIENCIA DE LOS ORDENADORESes_ES
dc.titleProcesamiento de Señales de Electroencefalograma usando Redes Neuronales para aplicaciones en Sistemas BCIes_ES
dc.typeTesis de doctoradoes_ES
dc.creator.tidcurpes_ES
dc.contributor.tidcurpes_ES
dc.creator.identificadorOIEC831207HNERCS06es_ES
dc.contributor.identificadorRORJ840929HQTDSV02es_ES
dc.contributor.roleDirectores_ES
dc.degree.nameDoctorado en Ciencias de la Computaciónes_ES
dc.degree.departmentFacultad de Informáticaes_ES
dc.degree.levelDoctoradoes_ES
Aparece en las colecciones: Doctorado en Ciencias de la Computación

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