Washington Post reporter Rachel Feltman writes that MIT researchers have designed a new robotic hand with soft, 3-D printed fingers that can identify and lift a variety of objects. Prof. Daniela Rus explains that her group’s robotic hand operates in a way that is “much more analogous to what we do as humans."
Writing for Popular Science, Mary Beth Griggs reports on the soft robotic gripper developed by researchers at MIT CSAIL. “The silicone fingers are equipped with sensors that analyze the object they are touching and compare it to other items in its database,” Griggs writes.
CNBC reporter Robert Ferris writes about how MIT researchers have developed a soft robotic hand that can identify and safely grasp delicate objects. Ferris explains that the researchers designed a “soft silicone ‘hand’ with embedded sensors that they can train to recognize different things.”
MIT CSAIL researchers have developed a silicon gripper that allows robots to grasp a wide variety of items, reports Nidhi Subbaraman for BetaBoston. Subbaraman explains that the hand expands “to accommodate a shape, and grasps radially – surrounding an object instead of picking it up with pincers.”
MIT researchers have developed a new material that mimics the cuttlefish’s ability to change texture, reports Gian Volpicelli for Wired. "We used ordinary plastic," explains graduate student Mark Guttag. "The important thing was figuring out the right difference in stiffness between the matrix and particles."
CNBC’s Robert Ferris reports that researchers at MIT and Boston Children’s Hospital have devised a new method to create 3-D heart models. The new technique allows doctors to 3-D print replicas of a patient’s heart within 24 hours, making it practical for hospital use, Ferris explains.
Researchers at MIT and Boston Children’s Hospital are developing a new technique to convert images from MRI scans into physical models of the human heart, writes Lindsay Kalter for The Boston Herald. “This can definitely impact clinical practice in terms of helping surgeons plan more efficiently,” explains graduate student Danielle Pace.
“Researchers from MIT and Boston Children’s Hospital say they’ve come up with a better, faster way to build heart models,” writes Barb Darrow for Fortune. The team has devised a method for 3-D printing model hearts from MRI scans that takes three to four hours compared to the 10 hours typically required using current methods.
Jon Christian reports for The Boston Globe on FitSocket, a device created by researchers in MIT’s Biomechatronics group that gathers data used to create personalized prosthetic sockets. “We’re treating the body as a mechanical thing, because it is,” explains graduate student Arthur Petron.
In an article for Wired, Liz Stinson writes about how the new technique MIT researchers developed for 3-D printing glass could be used in building design. Stinson writes that Prof. Neri Oxman believes, “3-D printed glass eventually will make building facades far more dynamic.”
Forbes contributor TJ McCue writes about how MIT researchers have developed a 3-D printer that can manufacture glass. McCue explains that the printer uses, “many of the same controllers and parts that existing Fused Deposition Modeling (FDM) printers use.”
Huffington Post reporter Nitya Rajan writes about a new 3-D printer designed by researchers at MIT CSAIL that can print up to 10 different materials at once. Rajan writes that, “this machine has just bought us one step closer to printing just about anything we fancy, on demand.”
MIT researchers have designed a multi-material 3-D printer that is relatively inexpensive and user-friendly, reports Michael Rundle for Wired. "The platform opens up new possibilities for manufacturing, giving researchers and hobbyists alike the power to create objects that have previously been difficult or even impossible to print," says research engineer Javier Ramos.
Dominic Basulto writes for The Washington Post about the implications of a new method for 3-D printing glass created by MIT’s Mediated Matter Group. Basulto writes that the technology could eventually give us “the ability to create objects and applications that do not exist today.”
Brian Barrett writes for Wired about the new, low-cost 3-D printer developed by researchers at MIT CSAIL that can print 10 different materials at once. Research engineer Javier Ramos explains that the team wanted to make the printer, “inexpensive, and a software platform that we would keep open and hackable.”