Luckily, robotics can adapt to changing sizes, using end-of-arm tools that can adjust their grips on the items that need to be handled.
From Evan Ackerman at IEEE Spectrum: Right now, the New Economic Summit (NEST) 2016 conference is going on in Tokyo, Japan. One of the keynote speakers is Andy Rubin. Rubin was in charge of Google’s robotics program in 2013, when the company (now Alphabet) acquired a fistful of some of the most capable and interesting robotics companies in the world. One of those companies was SCHAFT, which originated at the JSK Robotics Laboratory at the University of Tokyo... ... SCHAFT co-founder and CEO Yuto Nakanishi climbed onstage to introduce his company’s new bipedal robot. He explains that the robot can climb stairs, carry a 60-kg payload, and step on a pipe and keep its balance. It can also move in tight spaces, and the video shows the robot climbing a narrow staircase by positioning its legs behind its body (1:22). In a curious part of the demo (1:36), the robot is shown cleaning a set of stairs with a spinning brush and what appears to be a vacuum attached to its feet... ( article )
Kirsten Korosec for Fortune: Toyota will expand the footprint of its artificial intelligence and robotics research center by adding a third facility in Ann Arbor, Mich. Gill Pratt, CEO of the Toyota Research Institute, made the announcement on Thursday during his keynote speech at Nvidia’s GPU Technology Conference in San Jose. The Ann Arbor facility will be located near the University of Michigan, where it will fund research in artificial intelligence, robotics, and materials science. Last year, the world’s largest automaker said it would invest $1 billion over the next five years in a research center for artificial intelligence to be based in Palo Alto, Calif. The institute aims to bridge the gap between research in AI and robotics in order to bring this technology to market. The technology is largely being developed for self-driving cars, but the institute is also researching and developing AI products for the home. Cont'd...
Not many students can claim they have hands-on experience with automation and robotics going into an interview. Looking at the question with a macro lens, our students are offered job opportunities on being well-rounded, even at the sophomore-level when many accept summer/semester-long internships.
Bernard Marr for Forbes: First came steam and water power; then electricity and assembly lines; then computerization… So what comes next? Some call it the fourth industrial revolution, or industry 4.0, but whatever you call it, it represents the combination of cyber-physical systems, the Internet of Things, and the Internet of Systems. In short, it is the idea of smart factories in which machines are augmented with web connectivity and connected to a system that can visualize the entire production chain and make decisions on its own. And it’s well on its way and will change most of our jobs. Professor Klaus Schwab, Founder and Executive Chairman of the World Economic Forum, has published a book entitled The Fourth Industrial Revolution in which he describes how this fourth revolution is fundamentally different from the previous three, which were characterized mainly by advances in technology. In this fourth revolution, we are facing a range of new technologies that combine the physical, digital and biological worlds. These new technologies will impact all disciplines, economies and industries, and even challenge our ideas about what it means to be human. Cont'd...
In a human-machine study conducted by an MIT professor, it was shown that teams made of humans and robots collaborating efficiently can be more productive than teams made of either humans or robots alone.
Efficient 3D Object Segmentation from Densely Sampled Light Fields with Applications to 3D Reconstruction
From Kaan Yücer, Alexander Sorkine-Hornung, Oliver Wang, Olga Sorkine-Hornung: Precise object segmentation in image data is a fundamental problem with various applications, including 3D object reconstruction. We present an efficient algorithm to automatically segment a static foreground object from highly cluttered background in light fields. A key insight and contribution of our paper is that a significant increase of the available input data can enable the design of novel, highly efficient approaches. In particular, the central idea of our method is to exploit high spatio-angular sampling on the order of thousands of input frames, e.g. captured as a hand-held video, such that new structures are revealed due to the increased coherence in the data. We first show how purely local gradient information contained in slices of such a dense light field can be combined with information about the camera trajectory to make efficient estimates of the foreground and background. These estimates are then propagated to textureless regions using edge-aware filtering in the epipolar volume. Finally, we enforce global consistency in a gathering step to derive a precise object segmentation both in 2D and 3D space, which captures fine geometric details even in very cluttered scenes. The design of each of these steps is motivated by efficiency and scalability, allowing us to handle large, real-world video datasets on a standard desktop computer... ( paper )
Greg Nichols for ZDNet: The seventh annual National Robotics Week, which kicks off this week, will see more than 250 events take place across all 50 states. It's a pretty cool time to celebrate robots. A new generation of small, relatively inexpensive, and highly collaborative industrial robots brought new levels of automation to light industry last year. Home robots, in the form of vacuums and lawn mowers, continue to do well in sales, and drones--technically flying robots--are everywhere. I'm literally watching one fly over a park near my house as I write. New kinds of bots are also making early strides. Companies like Savioke are bringing robots to hotels and others likeRevolve Robotics and Double are connecting people via affordable embodied telepresence--especially people whose disabilities prevent them from traveling to school or work. Cont'd...
Roy Bishop for The Japan Times: Child care is a hard job, but somebody, or something, has got to do it. Japanese researchers have developed androids to meet that need, which includes happily reading that fairy tale again and again and again. The androids, which were created by a team of education and robotics specialists at a research facility in Abiko, Chiba Prefecture, are part of a larger system called RoHo Care. Short for Robotic Hoikujo (day care center), RoHo is being touted as a high-tech solution to the staffing crisis that forced the Health, Labor and Welfare Ministry to announce emergency measures this week. “I never thought I’d see this day, but we’re now confident that RoHo could blaze a trail for child care worldwide,” said team leader Makoto Hara. At a briefing on Thursday, Hara introduced a “care-droid” prototype named Or-B, the core component of RoHo’s vision for day care assistance, and said it will undergo a trial run this summer before full-scale implementation in 2018. Cont'd...
XPONENTIAL 2016 (formerly AUVSI) will be held from May 2nd - 5th in New Orleans, LA. This RoboticsTomorrow.com Special Tradeshow report aims to bring you news, articles and products from this years event.
Patrick Burnson for Logistics Management: “Robots work in many industries but haven’t made an impact on logistics yet because of the complexity of the work – handling a wide array of different things in an infinite number of combinations, close to people and in confined spaces,” says Matthias Heutger, Senior Vice President Strategy for the Group. “Current research shows that 80 percent of logistics facilities today are still manual. Recently, however, technology is just starting to catch up to meet demands for flexible and low-cost robots that could collaboratively work in logistics.” The report highlights that the development of the next generation of robots that can see, move, react to their environment and work at precision tasks alongside people, is on a fast track powered by the explosion in labor-intensive e-commerce and diminishing and ageing workforces. Cont'd...
The result of this rung-in change is intended to be that man and machine respectively do what they can do best. The weaknesses of one are compensated for by the strengths of the other.
Although I mention "robot integrator" in the title specifically, these principles can be applied to any business within the industry, including: Custom Machine Builders, Controls Integrators, Engineering Companies and more.
From LAUNCH Festival 2016: CafeX unveils fully automated robotic cafe at Launch Festival; companion iOS & Android app will allow users to order drinks prior to arrival; works w/ local coffee growers in ea mkt; cafe is ~60 sq ft & is open 24 hrs/day.
The Changing Role of Robotics in Materials Handling: Industrial Journalist Thomas R. Cutler Interviews Steven Hogg of Bastian Robotics
Short-term, robotic integration will continue to grow as companies continue to establish automation plans, and long-term, robotic automation will be a standard in every facility. This will be a requirement for companies to compete in the global marketplace.
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TX2 series of robots: the next generation of fast and precise 6-axis robots. This new robot range is redefining performance with the optimum balance of speed, rigidity, size and envelope. Those pioneer robots can be used in all areas, including sensitive and restrictive environments thanks to their unique features. Known worldwide for the quality of our design and innovation for more than a century, the Stäubli Group has brought its renowned engineering expertise and technological ingenuity to the forefront of robotics. Since 1982, we have built a highly regarded robotics business, and more significantly, transformed the way thousands of manufacturing operations perform. Today Stäubli Robotics is a leading player in robotics around the world, consistently delivering engineering as effective and reliable as our service and support.