Visual Perception

Eye tracking is an established technique to study the nature of eye movements in how humans perceive, interpret, and operate in their environment.

Perfect for a variety of fields

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Driven by Caravaggio: eye tracking study reveals the artist’s intentions

Researchers at Scienza Nuova in Italy used eye tracking to test the hypothesis that Caravaggio understood how we perceive images and that he, while creating his art, took into account how the environment would affect the viewer’s visual experience.  Leer más

Eye tracking used to compare tactile and visual reading strategies

Researchers from the Netherlands used Tobii Pro Glasses 2 and an infrared motion-capturing system in order to understand the reading strategies of both sighted and braille-dependent students when reading algebraic expressions.  Leer más

Cardiff University

Cardiff University's School of Optometry and Vision Sciences used eye tracking from Tobii Pro to explore eye movement in people with sight issues. The researchers looked at how environmental factors affected vision deficits. Leer más

University of Melbourne

This study conducted at the Department of Optometry & Vision Sciences at the University of Melbourne focused on eye movement disorders, in particular nystagmus, and the possibility of using eye tracking as an established form of diagnosis tool. Leer más

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A person wearing Tobii Pro Glasses 2 synchronized with EEG

Tobii Pro offers eye tracking systems for psychology and neuroscience studies in a controlled research setting, such as a lab, as well as examining human behavior in real-world environments, like in an office or home. Analyzing data is made easier with our various software solutions and their ability to work with other companies' solutions.

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  • Yehezkel, O., Belkin, M., & Wygnanski-Jaffe, T. (2020). Automated Diagnosis and Measurement of Strabismus in Children. American Journal of Ophthalmology, 213, 226–234.
  • Murray, I. C., Perperidis, A., Cameron, L. A., McTrusty, A. D., Brash, H. M., Tatham, A. J., Agarwal, P. K., Fleck, B. W., & Minns, R. A. (2017). Comparison of Saccadic Vector Optokinetic Perimetry and Standard Automated Perimetry in Glaucoma. Part I: Threshold Values and Repeatability. Translational Vision Science & Technology, 6(5), 3.
  • Yow, A. P., Wong, D., Liu, H., Zhu, H., Ong, I. J.-W., Laude, A., & Lim, T. H. (2017). Automatic visual impairment detection system for age-related eye diseases through gaze analysis. 2450–2453.

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