首页|Report Summarizes Robotics and Automation Study Findings from Technical University Wien (TU Wien) (Highly Maneuverable Humanoid Running Via 3d Slip+foot Dynamics)
Report Summarizes Robotics and Automation Study Findings from Technical University Wien (TU Wien) (Highly Maneuverable Humanoid Running Via 3d Slip+foot Dynamics)
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NETL
NSTL
IEEE
Fresh data on Robotics - Robotics and Automation are presented in a new report. According to news reporting from Vienna, Austria, by NewsRx journalists, research stated, “Spring loaded inverted pendulum (SLIP) is a template dynamics used to model the steady-state running of humans and animals ranging from cockroaches to horses. This study extends the conventional 3D SLIP model with a foot and an active controller to also model transitioning from stationary to high-speed running and vice versa.” Financial support for this research came from European Research Council (ERC). The news correspondents obtained a quote from the research from Technical University Wien (TU Wien), “It also compares behavioral differences between the conventional deadbeat-controlled 3D SLIP and actively controlled 3D SLIP with a foot, especially during trajectory transitioning. Focusing on humanoid robots, the objective is to enhance the system's trajectory switching and the disturbance rejection performance while keeping the trajectories implementable and forces feasible for the whole body dynamics.” According to the news reporters, the research concluded: “The results are verified on a humanoid robot Kangaroo through simulations in MuJoCo.”
ViennaAustriaEuropeRobotics and AutomationRoboticsTechnical University Wien (TU Wien)
NETL
NSTL
IEEE
