Quantitative Evaluation of Standing Stabilization Using Stiff and Compliant Actuators

Abstract: Abstract-In this paper we evaluate the benefits of series elastic actuation in performing a balancing task on a humanoid robot. By having the possibility to replace the type of transmission at the ankles level, it was possible to repeat the very same experiment in two different conditions: (1) Using series elastic actuators (SEA); (2) Replacing the elastic elements with rigid transmissions. The experiments consisted in perturbing a balanced posture with an impulsive force. Perturbations were applied in two dif… Show more

“…2.2 SEAs and Our Design Ideas. SEAs have been successfully implemented in a number of robotic applications to precisely control torque, including in a few exoskeletons for the lower extremity [26,27] and upper extremity [28], humanoids [29], and bipeds [30]. Table 1 presents a survey of important SEAs for robotic applications.…”

Series Elastic Actuators for Small-Scale Robotic Applications

“…2.2 SEAs and Our Design Ideas. SEAs have been successfully implemented in a number of robotic applications to precisely control torque, including in a few exoskeletons for the lower extremity [26,27] and upper extremity [28], humanoids [29], and bipeds [30]. Table 1 presents a survey of important SEAs for robotic applications.…”

Series Elastic Actuators for Small-Scale Robotic Applications

Sensorimotor Coordination in a Humanoid Robot: Building Intelligence on the iCub