Researchers designing adult bipedal robots havefaced a challenge in limitations in a robot's walking pattern.They seek ways to improve on designs to have robots move more naturally.Improving the walking function has been the goalof researchers at theHumanoid Robotics Institute at Waseda Universityin Japan.Last month, led by ProfessorAtsuo Takanishi, the team presented the results of their efforts at the IEEE International Conference on Robotics and Automation (ICRA) in Germany.What they achieved more closely replicates normal human foot movements than before.The Institute's researchers turned to their humanoid robot,WABIAN-2R (WAseda BIpedal humANoid - No. 2 Refined), which already had a flexible pelvis, and stretched knees.WABIAN-2R's feet also had the distinction of a curving arch and flexible toes, landing heel-first and lifting off at its toes, noted the IEEE Spectrumreport.The robot is under 5 feet tall (148 cm), and weighs 64 kg (141 pounds), with 41 degrees of freedom.Their work on WABIAN has been in step with the Japan government's concern about technology for an aging population, to preserve a decent quality of life for the aging, despite limitations on freely moving about that may result from old age.The team stated in the past that a robot as "a human's partner" would provide daily robotic assistance, and that kind of application was more in their line of view than an industrial robot earmarked for highly specified and constrained applications.To accomplish the task, robots have to be able tomove in indoor and outdoor conditions, they said,and biped humanoid robots are best suited for this.They also noted that aside from robots as humanassistants, there was a need for evaluation methods for assistive equipment, dependent on human body measurements.A biped humanoid robot optimized to serve as a human motion simulator is a step in the right direction.In their latest workup of the WABIAN robot, now called WABIAN-2RIII.the researchers redesigned lower legs, after studying humans walking.They analyzed the average size and movement range in humans, and analyzed motion-capture data to decide on the best performance requirements.
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