Title :
Recursive algorithm for motion primitive estimation
Author :
Enes, Aaron R. ; Book, Wayne J.
Author_Institution :
Tech. Staff, MIT Lincoln Lab., Lexington, MA, USA
Abstract :
The need for knowing future manipulator motion arises in several robotics applications, including notification or avoidance of imminent collisions and real-time optimization of velocity commands. This paper presents a real-time, low overhead algorithm for identification of future manipulator motions, based on measurements of prior motions and the instantaneous sensed actuator velocity commanded by an operator. Experimental results with a human-controlled, two degree-of-freedom manipulator demonstrate the ability to quickly learn and accurately estimate future manipulator motions.
Keywords :
actuators; collision avoidance; manipulators; motion estimation; optimisation; recursive estimation; collision avoidance; future manipulator motion identification; instantaneous sensed actuator velocity; manipulator motion; motion primitive estimation; real-time low overhead algorithm; real-time velocity command optimization; robotic application; two degree-of-freedom manipulator; Actuators; Covariance matrix; Estimation; Least squares approximation; Manipulators; Principal component analysis; Trajectory;
Conference_Titel :
Robotics and Automation (ICRA), 2011 IEEE International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-61284-386-5
DOI :
10.1109/ICRA.2011.5980456
