Citas bibligráficas
Zárate, C., (2008). Aplicaciones de potenciales evocados para la generación de señales bioelectromagnéticas de identificación personal [Tesis, Universidad Nacional Mayor de San Marcos]. https://hdl.handle.net/20.500.12672/2931
Zárate, C., Aplicaciones de potenciales evocados para la generación de señales bioelectromagnéticas de identificación personal [Tesis]. PE: Universidad Nacional Mayor de San Marcos; 2008. https://hdl.handle.net/20.500.12672/2931
@phdthesis{renati/1209505,
title = "Aplicaciones de potenciales evocados para la generación de señales bioelectromagnéticas de identificación personal",
author = "Zárate Gonzales, César Armando",
publisher = "Universidad Nacional Mayor de San Marcos",
year = "2008"
}
-- The following Ph.D. thesis research presents a systematic, systemic and harmonic analysis from the evoked potential record until the encoding of this bioelectric signal; in order to use it as a specific individual record through barcode. The nervous code of a sensorial signal, which details need to be decoded, is formed by a group of electrical signal that processes the neural networks of the sensorial system, the sub cortical nuclei and the cerebral cortex. It is possible to analyze and decode. The sensorial nervous signals represent themselves the external mean, but their essential process is decoded at the cerebral cortex level, where it actives the respective psychic information. To decode the neural signals and their meaning. These signals are processed in real-time interconnected symmetrical networks, which mean there are different shapes of symmetrical signals within any brain structure. Taking the human brain as a bioelectromagnetic signal emission system, an interface is created with the evoked potential, which allows analyzing the different latencies and amplitudes through bioelectromagnetic neural signals, expressed on mini volts and hertz, within a wavelength that evokes the brain using mathematical models such as the Fourier series, wavelets and fractals. In this interface, a barcode is produced, which is a code based on the representation of a group of vertical parallel lines with different widths and spacings, storing specific information. In this manner, the barcode allows to recognize a person quickly, as it allows generating a specific individual record of this person. In this way, clinical tests of the evoked potential were obtained, they were decoded by the Fourier Transform, which allowed decomposing a signal into components of different frequency, g, represents the frequency spectrum of the signal f. Then, it was processed through fractal models obtaining a transform expressed by a personal barcode. In other words, the nervous code is decoded by mathematical means, using the Fourier series and the process fractal dimension and its transform, into a barcode with multiple applications to several sciences.
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