Prof. John Leonard speaks with Bloomberg News about his work with the Toyota Research Institute on developing a system that combines machine learning technologies and sensors to make vehicles safer. “Imagine if you had the most vigilant and capably trained driver in the world that could take over in a situation where a teenager took a curve too fast,” says Leonard of the inspiration for the system.
Fast Company reporter Adele Peters highlights how MIT researchers have developed a robot that can swim through pipes and identify leaks. Peters writes that alumnus You Wu estimates that “if half of the leaks in the world could be found and fixed, that would recover enough water to support 1 billion people.”
MIT alumnus You Wu has spent six years perfecting robots that can travel through pipes to identify water leaks, writes Anne Quito for Quartz. “Over 240,000 water pipes burst in the US each year, with each incident costing an average of $200,000 in infrastructure damage,” notes Quito.
MIT scientists have developed a new coating that uses solar-power to melt and prevent ice buildup, reports the Xinhua News Agency. The coating, which does not use harmful chemicals, “collects solar radiation, converts it to heat, and spreads that heat around so that the melting is not just confined to the areas exposed directly to the sunlight.”
A study by MIT researchers demonstrates how air pollution can significantly reduce profits from solar panel installations, reports Avery Thompson for Popular Mechanics. The researchers found that in Delhi, “electricity generation is reduced by more than 10 percent,” Thompson explains, “which translates to a cost of more than $20 million.”
Research scientist Joshua Siegel speaks with Wall Street Journal reporter A.J. Baime about his 1955 Chevrolet 210. Siegel recounts how restoring the car drove him to pursue a career in engineering, explaining that his research involves “putting sensors and modems all over vehicles so that you can know everything you need to know about your car through a device.”
In this video, NBC Mach highlights the robotic cheetah developed by MIT researchers that can navigate without cameras or sensors. While most robots require light to explore their surroundings, the “Cheetah 3 will be able to feel its way through light-less situations such as caves or mines.”
The Economist highlights Prof. Michael Triantafyllou’s work studying how seals employ their whiskers to detect their surroundings. Triantafyllou is using the seal whisker as a model for developing an underwater sensor that would, “detect the wakes of natural objects, such as fish and marine mammals, and artificial ones, such as other robots, surface ships and submarines.”
In this video, VOA reporter Steve Baragona looks at different methods of harvesting water from fog. Baragona highlights a new system developed by MIT researchers, explaining that in some areas where the water supply is dwindling, “the technology is far cheaper than other options like desalination.”
Tasker Smith, a technical instructor in the Department of Mechanical Engineering, writes for Make Magazine about his work developing 3-D printed tools to create a custom leather press. “By marrying the versatility of digital design and fabrication with luxurious materials like leather,” writes Smith, “we can supercharge our process and generate customized artifacts worthy of handing down from generation to generation.”
MIT researchers have developed a new technique to 3-D print magnetic robots that could one day be used as biomedical devices, reports Erik Olsen for Quartz. “The engineers have enabled the bots to roll, crawl, jump, and even snap together like a Venus flytrap to grasp a pill and then roll away with it,” explains Olsen.
MIT researchers have updated their robotic cheetah to allow it to move without relying on external vision sensors, reports Lisa Spear for Newsweek. Spear explains that, “an algorithm helps the mechanical creature determine the best time to transition a leg between a swing and a step, by constantly calculating the probabilities of each legs' movement.”
Axios reporter Kaveh Waddell writes about the Cheetah 3 robot, which navigates its environment without cameras. Waddell explains that, “the researchers measure the force on each of the Cheetah's legs straight from the motors that control them, allowing it to move fast — at 3 meters per second, or 6.7 miles an hour — and jump up onto a table from a standstill.”
This CNN video profiles the new Cheetah 3 robot, which can avoid obstacles and climb stairs without using external visual sensors. CNN notes that the cheetah, “relies on ‘feel’ in place of cameras or sensors, using ‘blind locomotion.’”
ABC News reporter Bopha Phorn writes about the latest iteration of a robotic cheetah developed by MIT researchers. Phorn explains that the researchers hope the cheetah will eventually be able to, “help some work that’s impossible for humans to do,” like search and rescue operations.