New Robot Technology Indicates Bright Future for Prosthetics From: Rehab Management Magazine - 04/2005 - page 10 At the recent annual meeting of the American Association for the Advancement of Science (AAAS), three independent research teams unveiled novel, low-energy, bipedal robot models, which displayed human-like gait when walking. The latest advancements in the development of these robots may offer promise for amputees hoping to one day use prosthetics that feel more like a natural limb. Read the entire story at: http://www.rehabpub.com/departments/42005/2.asp Image caption: Left to right, Delta, MIT, and Cornell walking robots. Links: Walking robots http://www-personal.engin.umich.edu/~shc/robots.html Robots toddle along with human efficiency http://www.nature.com/news/2005/050214/pf/050214-13_pf.html New Robots Based on Old-Style Toys http://dsc.discovery.com/news/briefs/20050214/robot.html 'Toddler' Takes a Robotic Step Forward http://www.npr.org/templates/story/story.php?storyId=4511843 New Robots Approach More Humanlike Gaits http://www.sciam.com/article.cfm?articleID=0005CC27-34A1-1215-B4A183414B7F0000&chanID=sa009 Robo-Toddler Learns to Walk Like a Human http://apnews.myway.com/article/20050218/D88AUDP80.html One giant leap for walking robots http://msnbc.msn.com/id/6975006 Humanoid robots walk naturally http://www.trnmag.com/Stories/2005/022305/Humanoid_robots_walk_naturally_022305.html --- Rambling Robots Show Human Efficiency From: New Scientist - 02/17/2005 By: Will Knight Three robots that stride like human beings made their debut at the annual meeting of the American Association for the Advancement of Science on Feb. 17. The machines, which were produced by researchers at the University of Michigan, MIT, Cornell University, and Delft University in the Netherlands, amble along using simple mechanical dynamics and minimal motorization; each robot's frame and joints are configured so that they can walk without overexerting themselves. "Our robots demonstrate that utilizing the natural dynamics of the body can make robots much more efficient," said the University of Michigan's Steve Collins. The robots' designs were inspired by mechanical walking toys that automatically respond to gravity by striding down a slope, and this capability was refined to accommodate flat surfaces with the addition of a few motors. The Cornell and Delft robots boast exceptional power efficiency, consuming around the same amount of energy as the average walking human--about 10 times less than is consumed by Honda's Asimo android. The MIT bot, nicknamed "Toddler," was hailed by one robotics researcher as the most conceptually innovative of the three because it adapts to terrain via a learning algorithm. University of Michigan researcher Art Kuo noted that practical walking bots must be made capable of climbing stairs through a combination of simple dynamics and greater control. http://www.newscientist.com/article.ns?id=dn7023 --- US scientists build robot that learns to walk like toddler From: Science - 02/19/2005 The difference between man and machine is shrinking. Scientists have developed a robot that "learns" to walk like a toddler, improving its step and balance with every stride. The walking robot looks more like a moving Erector set than a human being but the machine has the unmistakable gait of a person strolling along. The robot uses its curved feet and motorized ankles to spring its legs forward, its arms swinging at every step to help with balance. Researchers showed off the learning, walking robot along with two less-advanced models, at the national meeting of the American Association for the Advancement of Science. A report on the research appears this week in the journal Science. The machines use what the researchers called a "passive-dynamic design" that closely mimics the way humans walk. Earlier robots required powerful machines to stroll, with each leg, knee and ankle requiring motorized assistance. The effort requires a lot of energy. The passive dynamic design uses gravity, along with muscle-like springs and motors. The energy required is just a fraction of that needed by other walking robots, said Andy Ruina, a Cornell University researcher. Ruina said the walking robots move like humans, falling and catching themselves as they move forward. This essentially is the same movement people use, a motion toddlers must master to walk. "We let the machines take care of a lot of the motion," he said. By contrast, most walking robots, such as Asimo, developed by the Honda Motor Co., require a motor to power every motion. A robot designed by Russ Tedrake of Massachusetts Institute of Technology is equipped with sensors that help the machine learn to walk in a way similar to humans' gait. Appropriately, the machine is called Toddler. The robot's sensors measure the machine's motion, tilt and rate of movement and then direct small motors to adjust and compensate for changes. "It can learn to walk in 20 minutes," Tedrake said. "Once it learns to walk, then it adapts its gait to new terrain." He said the sensors take measurements at the rate of 200 times a second and constantly send new instructions to the motors that control the tilt and motion. The sensors also direct actuators that control the tension on springs in the robot ankles. This helps the machine push forward with each stride. "Every time it takes a step, it changes the parameters a little bit, based on its experience," Tedrake said. "It will walk on any surface and adjust the way it walks." In effect, the robot changes its stride just as humans do when moving from sand to grass to pavement. He said the machine even has learned to walk on a treadmill, making adjustments as the surface tilts or speeds up. The robot can start on its own and even walk backward. The big advantage of the passive-dynamic robots is they require about the same energy that humans use to walk. This is only one-tenth of the energy needed to make Asimo go, Ruina said. The less energy used, the longer the robots can operate without needing new batteries. "For a robot to ever be practical, it will have to be able to run for a long time," Ruina said. Links: http://www.sciencemag.org