We picture a reality where they have safe robots in the home to help lift heavy pots off the stove or heavy baskets off the floor, or walking robots that can carry groceries home or carry luggage.
Can a robot have a better bedside manner than a doctor? Perhaps. But a humanoid robot packed with the latest technology can certainly spend more time with a child in the hospital, become his or her confidant and utilize technological abilities that exceed humans.
A self-contained soft actuator three times stronger than natural muscle, without the need of externals, signals a breakthrough in soft robotics.
Reuters: The Siemens research center at Beijing's Tsinghua University would focus on combined mechanics and electronics, human-robot collaboration and the application of artificial intelligence in robotic controllers, the German firm said.
Jason Maderer for Georgia Tech: Researchers can write their own computer programs, upload them, then get the results as the Georgia Tech machines carry out the commands. They also receive video evidence and data of the experiment.
By continuing to add more computing capabilities for AI on edge devices with NVIDIA Jetson, and more tools and platforms to accelerate robotics development, like Isaac and the Jetson robotics reference platforms, we can help researchers and companies build robots that are more capable, less expensive, and safer to deploy.
Excellent Videos of five things to look for at Festo's Hannover Messe booth - BionicCobot, BionicMotionRobot, OctopusGripper, Motion Terminal, SupraMotion
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...
Ford, U-M Accelerate Autonomous Vehicle Research with Ford Researchers In-House at New Robotics Lab on U-M Campus
Ford and the University of Michigan today announce they are teaming up to accelerate autonomous vehicle research and development with a first-ever arrangement that embeds Ford researchers and engineers into a new state-of-the-art robotics laboratory on U-M's Ann Arbor campus. While the new robotics laboratory opens in 2020, by the end of this year Ford will move a dozen researchers into the North Campus Research Complex (NCRC). The announcement is the latest in a series of actions by Ford as it moves toward having fully autonomous SAE-defined level 4-capable vehicles available for high-volume commercial use in 2021. Autonomous vehicles are part of Ford's expansion to be an auto and a mobility company. Full Press Release:
Joshua Swingle for Android Headlines: LG is certainly no stranger when it comes to robotics and smart appliances, but until now, such products have had limited use. With the company’s latest announcement, this will change. The electronics giant has confirmed that it’s currently investing a lot of resources into robots in the hope of capitalizing on advanced AI, which could eventually be implemented into products that combine hardware with artificial intelligence in order to work with smart home appliances as well as to develop machines that could perform everyday tasks. “We will prepare for the future by aggressively investing in smart home, robots and key components and strengthen the home appliances business’s capabilities,” said Jo Seung-jin, head of LG’s appliances business. As of now, there’s no time frame for when we’ll see the results of these investments on the shelves, but LG already has plans for products that will work with air conditioners and washing machines, though combining AI with self-driving cars is also something the company is researching. Although such plans aren’t exactly detailed, the investment does hint at a change in the way LG is treating robotics. Up until now, the company has only experimented with products of limited use, but the new change in focus hints at robotics becoming one of LG’s main focus points, meaning that, for consumers, having a robot in their homes could become the norm. Currently, LG has not confirmed the amount of money it plans to invest in robotics. Cont'd...
Cecilia Laschi for IEEE Spectrum: The sun was sparkling on the Mediterranean Sea on the afternoon when a graduate student from my lab tossed our prize robot into the water for the first time. I watched nervously as our electronic creation sank beneath the waves. But the bot didn’t falter: When we gave it the command to swim, it filled its expandable mantle with water, then jetted out the fluid to shoot forward. When we ordered it to crawl, it stiffened its eight floppy arms in sequence to push itself along the sandy bottom and over scattered rocks. And when we instructed it to explore a tight space beneath the dock, the robot inserted its soft body into the narrow gap without difficulty. As a professor at the BioRobotics Institute at the Scuola Superiore Sant’Anna, in Pisa, Italy, I lead a team investigating soft robotics. This relatively new field of research has the potential to upend our ideas about what robots are capable of and where they can be useful. I chose to build robots that mimic the form of the octopus for two reasons. First, because they’re well suited to demonstrate the many advantages that come when a machine can flex and squish as needed. Also, it’s an excellent engineering challenge: An octopus with eight wiggly arms, which must work together in the face of complex hydrodynamic forces, is very difficult to design and control. Cont'd...
Thomas Claburn for InformationWeek: Among programmers, there's a principle called DRY, which stands for "Don't repeat yourself." It's an attempt to avoid writing code that duplicates the function of other code. DRY embodies the same resistance to needless repetition as the more common idiom, "Don't reinvent the wheel." Among those making robots, a group that includes software and hardware engineers attempts to adhere to these principles, as can be seen in designs that borrow from nature, from the evolved forms of life on Earth. Biomimicry and bioinspired design provide a way to avoid reinventing the wheel. The biological systems of living things have been honed through eons of Darwinian user testing. Borrowing aspects of animal physiology isn't the only option or necessarily the best option for robot designers. For some purposes, something new may be necessary. For others, biomechanically systems can't be easily duplicated. Cont'd...
The flight of Intuitive Machines illustrated and proved that an excellent developed UAV like the Tiburon Jr, equipped with a powerful and reliable engine can be an efficient alternative to manned airplanes and helicopters, even in hazardous environments.
Terry Dawes for Cantech Letter: Vancouver-based Chrysalix Venture Capital has announced a €100 million fund aimed at driving the global robotics revolution, in partnership withRoboValley, a centre for robotics commercialization based at the Delft University of Technology in the Netherlands. The RoboValley Fund is Chrysalix’s first robotics fund, and will concentrate on disbursing seed and Series A rounds of funding to early-stage companies developing component technology, intelligent software, and other breakthrough robotics technologies. “Robotics is predicted to be the next big step in the digital revolution having an unprecedented impact on the way that we live, and provides an answer to some of the grand challenges of the 21st Century,” said RoboValley managing director Arie van den Ende. “Together with Chrysalix long-standing expertise in commercializing early stage industrial innovations, the RoboValley Fund will bring much needed capital and accelerated paths to market for our most promising next generation robotics technologies.” Cont'd...
Innovators offered chance to develop their ideas with world leading robotics manufacturer ABB Robotics
Full Press Release: The IdeaHub, is once again recruiting robotics and software innovators worldwide to take on the challenge of improving the way we work and interact with the next generation of industrial robots. Working on behalf of ABB Robotics, IdeaHub will help successful applicants pitch their ideas and secure uniquely tailored support packages to maximise their venture's commercial potential, including investment, mentoring and access to cutting edge hardware. The IdeaHub is a cross sector, open innovation platform that connects visionaries worldwide with funding and support from global corporations. In 2015 they ran their first programme for ABB Robotics, attracting over 130 applicants with 12 finalists selected for a pitch day in London, with 6 entrepreneurs receiving an offer of support. For 2016 they are partnering with ABB Robotics once again to bring more solutions to solve three core challenges in the world collaborative industrial robotics: 1.) Simplicity: How to simplify robotics 2.) Intelligence: How to enable robots to learn and apply that learning 3.) Digitalization: How smart connectivity will enhance digital factories.
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Servo2Go - CANopen Input Sinusoidal Brushless Servo Amplifiers establish a new benchmark in versatility
CANopen digital servo drives are designed to drive brushed and brushless servomotors in torque, velocity, or position mode and employs Space Vector Modulation (SVM), which results in higher bus voltage utilization and reduced heat dissipation compared to traditional PWM drives.