MIT Builds Invisible Fish Grabbing Robot

Matthew Humphries for PCMag:  Catching a fish can be tough, even if you are just trying to net a goldfish in a small tank. That's because the fish spots the danger and makes a swim for it. But what if you didn't need a net because you're controlling an invisible grabbing robot? That's what Xuanhe Zhao, a professor of mechanical engineering at MIT succeeded in creating, but its applications go way beyond catching and releasing fish unharmed. The robot is constructed of a transparent hydrogel, which is strong and durable but mostly made of water. As the video below explains, each arm of the robot is constructed from 3D-printed hollow cubes of hydrogel, which are then linked together. By injecting water using a syringe it's possible to make the arms curl and uncurl quickly in a grabbing motion.   Cont'd...

A robotic barista is now serving - really fast

Jon Swartz for USA TODAY:  Something futuristic is brewing in a shopping complex here. The first robotic barista in the U.S., nicknamed "Gordon," started serving up to 120 coffee drinks an hour Jan. 30— ironically, just several thousand feet away from a Starbucks in the same complex. "A lot of us spend a lot of time in line waiting for coffee," says Henry Hu, CEO of Cafe X Technologies, the local start-up that created the robot. "And we decided to do something about it." For about a year, the firm built a toll-booth-sized Cafe X with a sleek industrial design. The automated cafe offers seven drinks like espresso and cafe latte for $2.25 to $2.95 per 8-ounce cup. An app allows for mobile orders. (A quick sample of drinks, each flavored with hazelnut, caramel or vanilla, can attest to quality. The robotic arm moved a cup between several stations — from beans freshly ground to the pouring of coffee).   Cont'd.. .

Taking Flight: Consumer Drones Are Nuisances, Not Profits

The global market for drones is already big and it's getting bigger fast as people see what is possible. Firms like The Teal Group estimate it could be a $91B market over the next few years.

Swarm of Underwater Robots Mimics Ocean Life

UCSD:  Underwater robots developed by researchers at Scripps Institution of Oceanography at the University of California San Diego offer scientists an extraordinary new tool to study ocean currents and the tiny creatures they transport. Swarms of these underwater robots helped answer some basic questions about the most abundant life forms in the ocean—plankton. Scripps research oceanographer Jules Jaffe designed and built the miniature autonomous underwater explorers, or M-AUEs, to study small-scale environmental processes taking place in the ocean. The ocean-probing instruments are equipped with temperature and other sensors to measure the surrounding ocean conditions while the robots “swim” up and down to maintain a constant depth by adjusting their buoyancy. The M-AUEs could potentially be deployed in swarms of hundreds to thousands to capture a three-dimensional view of the interactions between ocean currents and marine life.   Cont'd...

Car Work: The Long-Term View of Autonomous Transportation

The logical question arises then--if the thing is going to pick me up and take me from point A to Point B; why even buy a car, since 90 plus percent of the time it's just sitting and losing value?

Segway's 'mobility robot platform' to begin mass production

Liu Zheng for China Daily:  A China-made mobile robot is set to begin mass production for consumers later this year. Ninebot (Beijing) Tech Co Ltd, backed by Smartphone maker Xiaomi, unveiled its self-balancing two-wheeled robot on Thursday in Beijing. Named "Loomo", the robot was transformed from the Ninebot Mini series scooter, which was first launched in October 2015, months after the company made an announcement to acquire the 12-year-old US-based balancing-scooter pioneer Segway Inc, and became one of the largest patent holders in the industry. The acquisition followed an $80 million investment in Ninebot by Xiaomi, Sequoia Capital and other investors.   Cont'd...

$18.867 billion Paid to Acquire 50 Robotics Companies in 2016

Companies are reinventing themselves, looking at their business in a new way with regards to how can they be a disrupter, and how they can prevent being disrupted - and this opens up deal flow.

Brave New World of RPA

RPA ultimately empowers your workforce to deliver more engaging (and profitable) work. Implement it smartly, and RPA may be the single most important investment you make this year… or this decade.

US Military Unleashes Swarm of Micro Drones Over California

From Seeker:  The Pentagon may soon be unleashing a 21st-century version of locusts on its adversaries after officials on Monday said it had successfully tested a swarm of 103 micro-drones. The important step in the development of new autonomous weapon systems was made possible by improvements in artificial intelligence, holding open the possibility that groups of small robots could act together under human direction. Military strategists have high hopes for such drone swarms that would be cheap to produce and able to overwhelm opponents' defenses with their great numbers. The test of the world's largest micro-drone swarm in California in October included 103 Perdix micro-drones measuring around six inches (16 centimeters) launched from three F/A-18 Super Hornet fighter jets, the Pentagon said in a statement. "The micro-drones demonstrated advanced swarm behaviors such as collective decision-making, adaptive formation flying and self-healing," it said.   Cont'd...

Why Robotics Will Change Agriculture

Rob Trice & Seana Day via Forbes:  Last month as our Mixing Bowl colleagues Michael Rose and An Wang were interviewing Sonny Ranaswamy of the USDA’s NIFA to better understand current US food and agriculture labor issues, we were representing The Mixing Bowl in discussions on potential solutions to food production labor issues through automation and robotics. At this year’s RoboUniverse event in San Diego there was a full-day track on December 14th dedicated to the application of robotics to agriculture. The industry track, pulled together in great part by Nathan Dorn, CEO of Food Origins and an Advisor to The Mixing Bowl, featured a knowledgeable group of automation/robotics experts and food producers who drew on their experience to define the opportunities and sharpen focus on the challenges. Nathan authored a detailed summary of the day in a post on Agfunder. Our conclusion is that there is no denying that we are still in the early days of adoption of robotics in agriculture.   Cont'd...

2016 Best Year Ever for Funding Robotics Startup Companies

128 companies got funded, some multiple times. $1.95 billion, 50% more than 2015 which was also a phenomenal year with over $1.32 billion funded.

Mining 24 Hours a Day with Robots

Tom Simonite for MIT Technology Review:  Each of these trucks is the size of a small two-story house. None has a driver or anyone else on board. Mining company Rio Tinto has 73 of these titans hauling iron ore 24 hours a day at four mines in Australia’s Mars-red northwest corner. At this one, known as West Angelas, the vehicles work alongside robotic rock drilling rigs. The company is also upgrading the locomotives that haul ore hundreds of miles to port—the upgrades will allow the trains to drive themselves, and be loaded and unloaded automatically. Rio Tinto intends its automated operations in Australia to preview a more efficient future for all of its mines—one that will also reduce the need for human miners. The rising capabilities and falling costs of robotics technology are allowing mining and oil companies to reimagine the dirty, dangerous business of getting resources out of the ground.   Cont'd...

Amazon patents system to defend drones against hackers, jammers … and arrows

Alan Boyle for GeekWire:  If there are any Robin Hoods out there who are thinking about shooting down drones while they’re making deliveries, Amazon has a patented plan to stop you. The patent, filed in 2014 but published just last week, lays out countermeasures for potential threats ranging from computer hacking to lightning flashes to bows and arrows. If nothing else, the 33-page application illustrates how many things could possibly go wrong with an autonomous navigation system for unmanned aerial vehicles, or UAVs. The “compromise system” that Amazon’s engineers propose relies on an array of sensors to orient the drone based on the sun’s position in the sky, if need be. That’s in case the drone gets confused by, say, lightning or a muzzle flash.   Cont'd.. .

Upcoming Tradeshow, Conference & Exhibition Summary - February - April 2017

Here is a summary of what Tradeshows, Conferences & Exhibitions to look forward to in the coming months.

The Aggressively Flying Quadrotor

Steve Arar for All About Circuits:  Recently, Vijay Kumar’s lab at the University of Pennsylvania in cooperation with researchers from Qualcomm has unveiled a quadrotor which can fly aggressively through a window. You may think that you have seen similar robots before; however, there is a big difference between previously designed robots and this new technology. Generally, to exhibit challenging maneuvers, a quadrotor depends on an array of cameras mounted on the walls and some external processors. The image captured by the cameras is processed and the outcome is delivered to the robot. The computer can issue precise commands and the only thing that the robot needs to do is to follow the orders. However, the new robot performs both the image capturing and processing onboard. The quadrotor carries an IMU, a Qualcomm Snapdragon, and Hexagon DSP. With the onboard sensors and processors, the robot is able to perform localization, state estimation, and path planning autonomously.   Cont'd...

Records 181 to 195 of 515

First | Previous | Next | Last

Featured Product

Universal Robots - Collaborative Robot Solutions

Universal Robots - Collaborative Robot Solutions

Universal Robots is a result of many years of intensive research in robotics. The product portfolio includes the UR5 and UR10 models that handle payloads of up to 11.3 lbs. and 22.6 lbs. respectively. The six-axis robot arms weigh as little as 40 lbs. with reach capabilities of up to 51 inches. Repeatability of +/- .004" allows quick precision handling of even microscopically small parts. After initial risk assessment, the collaborative Universal Robots can operate alongside human operators without cumbersome and expensive safety guarding. This makes it simple and easy to move the light-weight robot around the production, addressing the needs of agile manufacturing even within small- and medium sized companies regarding automation as costly and complex. If the robots come into contact with an employee, the built-in force control limits the forces at contact, adhering to the current safety requirements on force and torque limitations. Intuitively programmed by non-technical users, the robot arms go from box to operation in less than an hour, and typically pay for themselves within 195 days. Since the first UR robot entered the market in 2009, the company has seen substantial growth with the robotic arms now being sold in more than 50 countries worldwide.