Project Starline is a technology project that combines advances in hardware and software to enable friends, family and co-workers to feel together, even when they’re cities (or countries) apart. To create this experience, we’re applying research in computer vision, machine learning, spatial audio and real-time compression. And we’ve developed a light field display system that creates a sense of volume and depth without needing additional glasses or headsets. It feels like someone is sitting just across from you, like they’re right there. Learn more about Project Starline.
Within a decade, we’ll build the world’s first useful, error-corrected quantum computer. And our new Quantum AI campus is where it’ll happen.
Confronting many of the world’s greatest challenges, from climate change to the next pandemic, will require a new kind of computing. A useful, error-corrected quantum computer will allow us to mirror the complexity of nature, enabling us to develop new materials, better batteries, more effective medicines and more. Our new Quantum AI campus — home to research offices, a fabrication facility, and our first quantum data center — will help us build that computer before the end of the decade. Learn more about our work on the Quantum AI campus.
Maps will help reduce hard-braking moments while you drive.
Soon, Google Maps will use machine learning to reduce your chances of experiencing hard-braking moments — incidents where you slam hard on your brakes, caused by things like sudden traffic jams or confusion about which highway exit to take.
When you get directions in Maps, we calculate your route based on a lot of factors, like how many lanes a road has or how direct the route is. With this update, we’ll also factor in the likelihood of hard-braking. Maps will identify the two fastest route options for you, and then we’ll automatically recommend the one with fewer hard-braking moments (as long as your ETA is roughly the same). We believe these changes have the potential to eliminate over 100 million hard-braking events in routes driven with Google Maps each year. Learn more about our updates to Maps.
Your Memories in Google Photos will become even more personalized.
With Memories, you can already look back on important photos from years past or highlights from the last week. Using machine learning, we’ll soon be able to identify the less-obvious patterns in your photos. Starting later this summer, when we find a set of three or more photos with similarities like shape or color, we’ll highlight these little patterns for you in your Memories. For example, Photos might identify a pattern of your family hanging out on the same couch over the years — something you wouldn’t have ever thought to search for, but that tells a meaningful story about your daily life. Learn more about our updates to Google Photos.
And Cinematic moments will bring your pictures to life.
When you’re trying to get the perfect photo, you usually take the same shot two or three (or 20) times. Using neural networks, we can take two nearly identical images and fill in the gaps by creating new frames in between. This creates vivid, moving images called Cinematic moments.
Producing this effect from scratch would take professional animators hours, but with machine learning we can automatically generate these moments and bring them to your Recent Highlights. Best of all, you don’t need a specific phone; Cinematic moments will come to everyone across Android and iOS. Learn more about Cinematic moments in Google Photos.