Title :
Development of the skewed rotation plane (SRP) waist joint for humanoid robots
Author :
Ellenberg, Robert W. ; Vallett, Richard ; Gross, R.S. ; Nutt, Brittany ; Oh, Paul Y.
Abstract :
As humanoid robotics advances beyond bipedal walking, complex motions involving the whole body are necessary. Most recent humanoids represent the range of motion of the human spine with a single rotation joint. While this joint allows the body to swing during dynamic walking, any bending must be performed only with the legs. This paper develops a skewed rotation plane (SRP) waist joint to give a humanoid robot the same range of torso motion as a human. The SRP design reduces holding torque compared to a orthogonal-axis joint. An inverse kinematics solver using Jacobian Pseudo-inverse was developed to produce smooth torso orientation trajectories. Finally, a mechanical prototype developed and fitted to Drexel University´s Jaemi Hubo to verify and validate the model.
Keywords :
humanoid robots; inverse problems; legged locomotion; robot dynamics; robot kinematics; Drexel University Jaemi Hubo; Jacobian pseudo inverse approach; SRP waist joint; bending; bipedal walking; dynamic walking; humanoid robots; inverse kinematics solver; orthogonal axis joint; skewed rotation plane waist joint; torso motion; torso orientation trajectories; Educational institutions; Irrigation; Jacobian matrices; Legged locomotion;
Conference_Titel :
Technologies for Practical Robot Applications (TePRA), 2013 IEEE International Conference on
Conference_Location :
Woburn, MA
Print_ISBN :
978-1-4673-6223-8
DOI :
10.1109/TePRA.2013.6556357
