Researchers develop a camera that can focus on different distances at once

Summary

Imagine snapping a photo where every detail, near and far, is perfectly sharp—from the flower petal right in front of you to the distant trees on the horizon. For over a century, camera designers have dreamed of achieving that level of clarity. In a breakthrough that could transform photography, microscopy, and even smartphone cameras, researchers at Carnegie Mellon University have developed a new kind of lens that can bring an entire scene into sharp focus at once—no matter how far away or close different parts of the scene are. The team, consisting of Yingsi Qin, an electrical and computer engineering Ph.D. student, Aswin Sankaranarayanan, professor of electrical and computer engineering, and Matthew O’Toole, associate professor of computer science and robotics, presented their findings at the 2025 International Conference on Computer Vision and received a Best Paper Honorable Mention recognition. Left: A conventional photo with a regular lens, where objects at a single focal plane appear sharp. Right: An all-in-focus photo captured through spatially-varying autofocusing. To achieve this, we combine (i) a programmable lens with spatially-varying control over focus, and (ii) a spatially-varying autofocus algorithm to drive the focus of this lens. Note that this is an optically-captured image of a real scene with no post-capture processing used. Traditional camera lenses can only bring one flat layer of a scene into perfect focus at a time. Anything in front of or behind that layer turns soft and blurry. Narrowing the aperture can help, but it also dims the image and introduces new kinds of optical fuzziness caused by diffraction. “We’re asking the question, ‘What if a lens didn’t have to focus on just one plane at all?’” says Qin. “What if it could bend its focus to match the shape of the world in front of it?” The researchers developed a “computational lens”—a hybrid of optics and algorithm—that can adjust its focus differently for every part of a scene. The syste...