Using my background in artificial intelligence, I’ve developed a strategically engineered typeface for dyslexics that could be a real turning point for 100M people worldwide. We are looking to enroll testers by connecting with kids, adults, teachers, school administrators, local officials and advisors. If you or anyone you know might be interested please contact me at jvarasano@gmail.com
How it works
This short intro video explains how this approach differs greatly from anything available. My attorney even remarked that this is the fastest patent approval he’s seen in over 1,000 filings, and that the normally indifferent patent inspector seemed eager to rush it out to the public. At the bottom of this letter you can see outstanding testimonials from the first users.
Black and white (B&W) text unnecessarily imposes full colorblindness as a relic of pen and paper. It even lacks grayscale. This is unnatural and, while most brains can compensate, a significant number cannot.
The brain identifies things by cross-referencing as broad a mix of measurements as it can: shape, orientation, 3D perspective, color, brightness, gradient, texture, size, distance, tone, volume, scent, touch, temperature, motion, rhythm, reflectivity, etc. As A.I. research has shown, our memories are formed by intersecting such measurements into unique combinations. Using a broad mix ensures that any deficiency of one dimension can be compensated for by the multitude of others.
Regular text is limited to just 2D B&W lines. This creates what engineers try to avoid: a “single point of failure.” Any deficiency with shape measurements, even a delay of milliseconds, can cause the system to glitch. Obviously, finding the carrots is harder in the grayscale vs color images below because there are fewer dimensions to cross-reference.
To see a second issue, look for corn in the color image. Notice how your eye naturally skips to likely yellow prospects. Peripheral tools, like color and brightness, process wide and fast, then tee up a short list of ranked priorities for the eye’s narrow focal point to follow up sequentially. Without such guidance, shape tools can be overwhelmed, causing delay and error in their measurements.