New ‘autofocal’ glasses aim to enable clearer vision
Though it may not have the sting of death and taxes, presbyopia is another of life’s guarantees.
This vision defect plagues most of us starting about age 45, as the lenses in our eyes lose the elasticity needed to focus on nearby objects. For some people reading glasses suffice to overcome the difficulty, but for many people the only fix, short of surgery, is to wear progressive lenses.
“More than a billion people have presbyopia and we’ve created a pair of autofocal lenses that might one day correct their vision far more effectively than traditional glasses,” said Stanford electrical engineer Gordon Wetzstein. For now, the prototype looks like virtual reality goggles but the team hopes to streamline later versions.
Wetzstein’s prototype glasses — dubbed autofocals — are intended to solve the main problem with today’s progressive lenses: These traditional glasses require the wearer to align their head to focus properly. Imagine driving a car and looking in a side mirror to change lanes. With progressive lenses, there’s little or no peripheral focus. The driver must switch from looking at the road ahead through the top of the glasses, then turn almost 90 degrees to see the nearby mirror through the lower part of the lens.
This visual shift can also make it difficult to navigate the world. “People wearing progressive lenses have a higher risk of falling and injuring themselves,” said graduate student Robert Konrad, a co-author on a paper describing the autofocal glasses published in the journal Science Advances.
Mimicking the eye
The Stanford prototype works much like the lens of the eye, with fluid filled lenses that bulge and thin as the field of vision changes. It also includes eye-tracking sensors that triangulate where a person is looking and determines the precise distance to the object of interest. The team did not invent these lenses or eye-trackers, but they did develop the software system that harnesses this eye-tracking data to keep the fluid-filled lenses in constant and perfect focus.
Nitish Padmanaban, a graduate student and first author on the paper, said other teams had previously tried to apply autofocus lenses to presbyopia, but without guidance from the eye-tracking hardware and system software, those earlier efforts were no better than wearing traditional progressive lenses.
To validate their approach, the Stanford team tested their prototype on 56 people with presbyopia. Test subjects said the autofocus lenses performed better and faster at reading and other tasks. Wearers also tended to prefer the autofocal glasses to the experience of progressive lenses — bulk and weight aside.
If the approach sounds a bit like virtual reality, that isn’t far off. Wetzstein’s lab is at the forefront of vision systems for virtual and augmented reality. It was in the course of such work that the researchers became aware of the new autofocus lenses and eye-trackers, and had the insight to combine these elements to create a potentially transformative product.
The next step will be to downsize the technology. Wetzstein thinks it may take a few years to develop autofocal glasses that are lightweight, energy efficient and stylish. But he is convinced that autofocals are the future of vision correction.
“This technology could affect billions of people’s lives in a meaningful way that most techno-gadgets never will,” he says.
This research was funded in part by Intel Corporation, NVIDIA, an Okawa Research Grant, a Sloan Fellowship and the National Science Foundation.