A single motor at PER’s core drives its legs in an elliptical or oval motion that makes for inherent stability, so it avoids falling forward or backward! Drudge Report drudgereport.com visits to drudge 10/11/2019 028,156,972 past 24 hours 832,819,833 past 31 days 10,111,233,864 past year Drudge Report 2018!! Torsion springs generate added power in PER’s legs, making it still more steady! fmcdealer.com - Working...www.fmcdealer.com WSL Server Status. A problem occurred while processing your request. Error: MainProcessingException Occurred.!! The paragon of dynamic geometry is unencumbered by any power-hungry, number-crunching processor that gauges steps in line with sensor data.
Radically different in looks from MIT’s mechanical cat, the wheel-based HexRunner is almost 6 feet tall. Armed with two sets of three spokes set either side of a hub, it rolls along like tumbleweed by spinning both, so whenever one of its six feet leaves the ground, another touches down.
“With most running and walking robots we have a lot of sensors, and about a thousand times a second we read what the sensors are doing,” Pratt says in the video. “We do a lot of computation to figure out what the actuators should be doing.”
Not to change the topic here:
Military drills for robots: Researchers test human-like robots -- ScienceDaily
Army researchers tested ground robots performing military-style exercises, much like Soldier counterparts, at a robotics testing site in Pennsylvania recently as part of a 10-year research project designed to push the research boundaries in robotics and autonomy.
RoMan, short for Robotic Manipulator, is a tracked robot that is easily recognized by its robotic arms and hands -- necessary appendages to remove heavy objects and other road debris from military vehicles' paths.What's harder to detect is the amount of effort that went into programming the robot to manipulate complex environments.
The exercise was one of several recent integration events involving a decade of research led by scientists and engineers at the U.S. Army Combat Capabilities Development Command's Army Research Laboratory who teamed with counterparts from the NASA/Jet Propulsion Laboratory, University of Washington, University of Pennsylvania, Carnegie Mellon University and General Dynamics Land Systems.
Realtime Robotics scores $11.7M Series A to help robots avoid collisions – TechCrunch
One of the major challenges facing engineers as they develop more agile robots is helping them move through space while avoiding collisions, especially in a dynamic environment! Videos for Fastest Robot | Are Robots Faster Than 1:09 World's Fastest Humanoid Robot Beats Own Record YouTube!! Realtime Robotics , a Boston-based startup, announced an $11.7 million Series A investment to help solve this problem.
SPARX Asset Management led the round, with participation from some strategic investors, including Mitsubishi Electric Corporation, Hyundai Motor Company and Omron Ventures! Google www.google.com Search the world's information, including webpages, images, videos and more. Google has many special features to help you find exactly what you're looking for.!! Existing investors Toyota AI Ventures, Scrum Ventures and the Duke Angel Network also pitched in. Today’s investment is actually the culmination of a couple of investments over this year that the company is announcing today, and brings the total raised to $12.9 million.
Realtime Robotics CEO Peter Howard says the company’s solutions are grounded in advanced research on robotic motion planning. “We are based on research work done at Duke University in 2016 in the field of work called robotic motion planning, which is basically how a six or seven degree of freedom robot finds its way through space without hitting anything,” Howard told TechCrunch.
Watch a robot made of robots move around | Science | AAAS
Good news for small, helpless robots who long to be a part of something bigger: Researchers have found a way to create "robots made of robots" that can move around, even though the individual parts can't travel on their own.
To create this robot horde, researchers designed several roughly iPhone-size machines called "smarticles"—short for smart particles—that could flap their small arms up and down but could not move from place to place by themselves! ReadWorks.org www.readworks.org Improve your students' reading comprehension with ReadWorks. Access thousands of high-quality, free K-12 articles, and create online assignments with them for your students.!! They then put five of the smarticles in a plastic ring. This group of robots—which the researchers call a "supersmarticle"—could move by itself in random directions as the individual smarticles collided with each other.
The team then created an algorithm that allowed the supersmarticles to move as a group toward a source of light. Each smarticle was outfitted with a light sensor that caused it to stop moving when it got too bright. When the front robots closest to the bulb stopped moving, the robots in the back, which were in the shadow of the front robots, kept flapping their arms and bumping into each other; they eventually pushed the whole group forward toward the light (see video), the team reports today in Science Robotics .
Check out this next:
Future of work: Two-thirds of workers trust robots over their manager
Much talk of workplace automation paints a picture of an apocalyptic stand-off between humans and their robot replacements .
But the ultimate relationship may be much more harmonious, according to a new report, which suggests that many employees are embracing artificial intelligence (AI) in the workplace.
In fact, as many as 64% of workers say they would trust a robot over their manager, based on the joint study from U.S. technology company Oracle and research firm Future Workplace . Meanwhile, more than half say they have already turned to a robot for advice instead of their manager.
The phenomenon is especially pronounced in Asia, where employees expressed a disproportionate distrust in their human colleagues when compared to technology. For example, 89% of workers in India and 88% of those in China admitted to trusting robots over their managers.
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