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Soporte Visual Asistivo para la Detección de Formas Matemáticas en el entorno

Visual assistance support for the detection of mathematical forms in the environment

Perelli Soto, Bruno; Soza Ruiz, Pedro;

Artigo Completo:

Nature exhibits forms of Vision without need for an eyeball. Brain adaptive abilities generates mental images allow to compensate for the visual stimulus captured through other senses such as touch and hearing. Technological extensions capable of mediating between the environment and the generation of sensory compensations, develop new forms of vision for the human being. This project proposes functional approaches capable of detecting visual elements in the environment that favor the construction of mathematical forms. The capture and processing of images mediated by the support, generate haptic sensory stimuli that performs the act of seeing without the need of eyes.

Artigo Completo:

Nature exhibits forms of Vision without need for an eyeball. Brain adaptive abilities generates mental images allow to compensate for the visual stimulus captured through other senses such as touch and hearing. Technological extensions capable of mediating between the environment and the generation of sensory compensations, develop new forms of vision for the human being. This project proposes functional approaches capable of detecting visual elements in the environment that favor the construction of mathematical forms. The capture and processing of images mediated by the support, generate haptic sensory stimuli that performs the act of seeing without the need of eyes.

Palavras-chave: Diseño, Computer Vision, Image Processing, Compensaciones Sensoriales,

Palavras-chave: Diseño, Computer Vision, Image Processing, Compensaciones Sensoriales,

DOI: 10.5151/sigradi2017-089

Referências bibliográficas
  • [1] Cattaneo, Z., & Vecchi, T. (2011). Blind Vision: The Neuroscience of Visual Impairment. Cambridge, Massachusetts: The MIT Press.
  • [2] Goldstein, E. B. (2009). Sensation and Perception. Retrieved from http://www.amazon.com/dp/0495601497
  • [3] Grunwald, M. (Ed.). (2008). Human Haptic Perception: Basics and Applications. Birkhäuser Verlag AG.
  • [4] Hall, E. T. (1959). The Silent Language (First Edit). GARDEN CITY, NEW YORK: DOUBLEDAY & COMPANY, INC.
  • [5] Ings, S. (2008). A Natural History of Seeing: The Art and Science of Vision (1 edition). W. W. Norton & Company.
  • [6] Jacobson, W. H. (2013). Orientation and Mobility. In R. Manduchi & S. Kurniawan (Eds.), Assistive Technology for Blindness and Low Vision (p. 29). Boca Raton, FL: CRC Press.
  • [7] Leech, G. N., & McLuhan, M. (1963). The Gutenberg Galaxy: The Making of Typographic Man. The Modern Language Review, 58(4), 542. http://doi.org/10.2307/3719923
  • [8] Pepperell, R. (2003). The Posthuman Condition: Consciousness beyond the brain (First Edit). Wiltshire: Cromwell Press.
  • [9] Zylinska, J. (2002). Extending McLuhan into the New Media Age: Na Introduction. In J. Zylinska (Ed.), The Cyborg Experiments: The Extensions of the Body in the Media Age (First Edit). Continuum.
Como citar:

Perelli Soto, Bruno; Soza Ruiz, Pedro; "Soporte Visual Asistivo para la Detección de Formas Matemáticas en el entorno", p. 579-584 . In: . São Paulo: Blucher, 2017.
ISSN 2318-6968, DOI 10.5151/sigradi2017-089

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