![]() ![]() “If you are in your autonomous vehicle at night and the imaging system of the car operates only at a particular wavelength, say the visible wavelength, it will not see what is in front of it,” Islam says. “Now, by adding image sensing ability to them, we have synapse-like devices that act like ‘smart pixels’ in a camera by sensing, processing and recognizing images simultaneously.”įor self-driving vehicles, the versality of the device will allow for safer driving in a range of conditions, including at night, says Molla Manjurul Islam ’17MS, the study’s lead author and a doctoral student in UCF’s Department of Physics. “We had devices, which behaved like the synapses of the human brain, but still, we were not feeding them the image directly,” Roy says. The technology expands upon previous work by the research team that created brain-like devices that can enable AI to work in remote regions and space. And here, we have the capacity to do in-sensor computing using a single device on one small platform.” ![]() “Today, everything is discrete components and running on conventional hardware. “It will change the way artificial intelligence is realized today,” says study principal investigator Tania Roy, an assistant professor in UCF’s Department of Materials Science and Engineering and NanoScience Technology Center. The technology is very small, with hundreds of the devices fitting on a one-inch-wide chip. The technology is also very small, with hundreds of the devices fitting on a one-inch-wide chip. ![]() Current intelligent imaging technology, like what’s used in self-driving vehicles, requires separate sensing, memorization and processing of data.īy combining the three steps, the UCF-designed device is many times faster than current technology, the researchers say. Its uniqueness also comes from its ability to integrate three different operations into one. The device, which is detailed in a new study in the journal ACS Nano, also outperforms the eye in the number of wavelengths it can see, from ultraviolet to visible light and on to the infrared spectrum. The technology also has applications in self-driving vehicles and robotics. The development could lead to advanced AI that can instantly recognize what it sees, like automatic descriptions of pictures taken by a camera or phone. Membreno and the staff at Retina Macula Specialists trusted by ophthalmologists, optometrists and other medical specialists for their patients with retina disease.University of Central Florida researchers have developed a device for artificial intelligence that mimics the retina of the eye. ![]() Impressive outcomes, dedicated care, and passion have made Dr. Membreno is a fellow of the American Academy of Ophthalmology, fellow of the American College of Surgeons, fellow of the American Society of Retina Specialists, and member of the Florida Society of Ophthalmology. His medical and surgical expertise includes Diabetic Retinopathy, Macular Degeneration, Retina Detachments, Intraocular Vascular and Inflammatory diseases.ĭr. Membreno is a third generation board certified ophthalmologist, with a long standing passion for eye care, coupled with his caring and compassionate nature. We strive to stay abreast of the latest technological advances, and are committed to care for our patients with the same compassion and skill that we desire for ourselves.ĭr. Our team of well trained and professional staff is devoted to provide the highest quality and highest standards of eye care. Retina Macula Specialists is one of Florida’s foremost retinal clinics with easy access offices in Winter Park and Kissimmee. ![]()
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