UPI reporter Brooks Hays writes about MIT spinout Open Water Power, which developed a battery that can be powered by seawater. Hays writes that the, “technology promises to extend the range and capabilities of unpiloted underwater vehicles, or UUVs.”
CSAIL researchers have developed a new system that allows camera-equipped drones to maintain certain framing parameters of an aerial shot, Sean O’Kane for The Verge. O’Kane explains that the system allows directors to define basic parameters of a shot and to alter the “settings on the fly and the drone will adjust how it’s filming accordingly.”
CSAIL researchers have developed software that allows users to design and virtually test drones, writes Alex Davies for Wired. Graduate student Tao Du explains that the software can help users “explore and try different shapes and different controllers.”
In his latest project, Alan Kwan, a student in MIT’s Art, Culture and Technology program, makes umbrellas float through the air like jellyfish using drones, writes Thom Leavy for Popular Science. “People have this perception of drones as weapons and I’m trying to push this work in the direction of the poetic,” says Kwan.
Anthony Cuthbertson writes for Newsweek that MIT researchers have developed a drone that is capable of mimicking a person’s drawings. Cutherbertson explains that, “the drone has been modified to carry a pen, allowing it to copy the actions of a human hand and scale it up through a combination of mechanical and algorithmic methods.”
Wired reporter Liz Stinson writes that researchers at the MIT Media Lab have developed a drone that can mimic what a person is drawing on a piece of paper. Stinson explains that, “as a human draws with a pen, a camera captures the motion and a computer communicates it to the drone, which mimics what the pen is drawing.”
Boston Magazine reporter Kyle Clauss reports that researchers from MIT CSAIL have developed a drone that uses algorithms to detect obstacle-free regions in space. “Using free-space segments is a more ‘glass-half-full’ approach that works far better for drones in small, cluttered spaces,” says MIT alumnus Benoit Landry.
Researchers from MIT CSAIL have developed an algorithm that allows drones to navigate obstacle courses, reports Kelsey Atherton for Popular Science. “As drones move away from simple remote-controlled toys and become more autonomous flying tools, programs like these will keep them flying safely through unfamiliar terrain,” explains Atherton.
In this video, Jim Drury of Reuters examines the new system developed by MIT researchers that enables drones to map and successfully navigate a new landscape.
Washington Post reporter Matt McFarland writes about graduate student Andrew Barry’s work developing a system that allows drones to successfully navigate obstacles. McFarland writes, “the work is significant because it shows a drone avoiding obstacles in an area that hasn’t been previously mapped.”
MIT researchers have developed a detection system that allows a drone to navigate obstacles while flying at speeds of 30 mph, writes Barb Darrow for Fortune. Darrow explains that the research is aimed at mitigating “the risk of using potentially very useful technology not just for package delivery but for building or land inspections, journalism, even fire fighting.”
Graduate student Andrew Barry has created software that allows a self-piloting drone to dodge obstacles at 30 miles per hour, reports Robert Ferris for CNBC. “The software, which is open source and available for free online, runs 20 times faster than existing navigational software,” reports Ferris.
Alyssa Newcomb reports for ABC News on a system developed by graduate student Andrew Barry that allows drones to avoid obstacles. Newcomb explains that the system, "operates at 120 frames per second and is able to extract depth information at a speed of 8.3 milliseconds per frame."
MIT researchers “demonstrated that a drone can zip through a maze of trees at 30 miles per hour swerving past obstacles in its way. The craft was able to do this using a stereo-vision algorithm that rapidly detects and avoids objects immediately in front of the craft,” reports Nidhi Subbaraman for BetaBoston.
MIT researchers have developed a drone that can recognize obstacles while flying at speeds of 30 miles per hour, writes Mary Beth Griggs for Popular Science. The drone creates a map of the world, “identifying obstacles, and mapping a path around them.”