Abstract
This research involves a novel apparatus, in which the user is presented with an illusion inducing visual stimulus. The user perceives illusory movement that can be followed by the eye, so that smooth pursuit eye movements can be sustained in arbitrary directions. Thus, free-flow trajectories of any shape can be traced. In other words, coupled with an eye-tracking device, this apparatus enables “eye writing,” which appears to be an original object of study. We adapt a previous model of reading and writing to this context. We describe a probabilistic model called the Bayesian Action-Perception for Eye On-Line model (BAP-EOL). It encodes probabilistic knowledge about isolated letter trajectories, their size, high-frequency components of the produced trajectory, and pupil diameter. We show how Bayesian inference, in this single model, can be used to solve several tasks, like letter recognition and novelty detection (i.e., recognizing when a presented character is not part of the learned database). We are interested in the potential use of the eye writing apparatus by motor impaired patients: the final task we solve by Bayesian inference is disability assessment (i.e., measuring and tracking the evolution of motor characteristics of produced trajectories). Preliminary experimental results are presented, which illustrate the method, showing the feasibility of character recognition in the context of eye writing. We then show experimentally how a model of the unknown character can be used to detect trajectories that are likely to be new symbols, and how disability assessment can be performed by opportunistically observing characteristics of fine motor control, as letter are being traced. Experimental analyses also help identify specificities of eye writing, as compared to handwriting, and the resulting technical challenges.
Highlights
The context of this paper is multi-disciplinary, as it concerns the computational study of writing in disabled patients
In the Bayesian Action-Perception for Eye On-Line model (BAP-EOL) model, and assuming the eye writing apparatus is used by disabled patients, we describe the way the model can be used, as letters are being traced, to measure and track the evolution of motor characteristics in the produced movements
We report here a series of experimental results based on a preliminary database consisting of the first ever alphabets produced using the eye-writing apparatus
Summary
The context of this paper is multi-disciplinary, as it concerns the computational study of writing in disabled patients. Smooth pursuit eye movements serve to maintain the image of a moving target,—e.g., a flying bird, a moving car—on the fovea, where visual acuity is best They are reputed impossible without a target to track and, any attempt to smoothly move the eyes against a static background results in a sequence of fast saccadic eye movements interrupted by fixations (Lisberger et al, 1987). A visual illusion, derived from the “reverse-phi” illusion first described by Anstis (1970), helps to overcome the above-mentioned limitations This illusion occurs when a static display made of hundreds of disks distributed over a gray background change luminance over time. The whole display appears to move in the same direction as the eyes, providing a visual moving substrate against which smooth pursuit can develop and, with training, be generated at will to write letters, digits, or words
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