|
|
| Record Number | 1420 |
| Reference Type | Journal Article |
| Author(s) | Schaal, S.;Atkeson, C. G.;Vijayakumar, S. |
| Year | 2002 |
| Title | Scalable techniques from nonparameteric statistics for real-time robot learning |
| Journal/Conference/Book Title | Applied Intelligence |
| Keywords | statistical learning, nonparametric regression, distance metric, dimensionality reduction, high dimensional learning, robot learning, real-time learning |
Abstract |
Locally weighted learning (LWL) is a class of techniques from nonparametric statistics that provides useful representations and training algorithms for learning about complex phenomena during autonomous adaptive control of robotic systems. This paper introduces several LWL algorithms that have been tested successfully in real-time learning of complex robot tasks. We discuss two major classes of LWL, memory-based LWL and purely incremental LWL that does not need to remember any data explicitly. In contrast to the traditional belief that LWL methods cannot work well in high-dimensional spaces, we provide new algorithms that have been tested on up to 90 dimensional learning problems. The applicability of our LWL algorithms is demonstrated in various robot learning examples, including the learning of devil-sticking, pole-balancing by a humanoid robot arm, and inverse-dynamics learning for a seven and a 30 degree-of-freedom robot. In all these examples, the application of our statistical neural networks techniques allowed either faster or more accurate acquisition of motor control than classical control engineering.
|
| Notes | clmc |
| URL(s) | http://www-clmc.usc.edu/publications/S/schaal-JAI2002.pdf
|
| Volume | 17 |
| Number | 1 |
| Pages | 49-60 |
| Short Title | Scalable techniques from nonparameteric statistics for real-time robot learning |
| Papers are available as Adobe PDF ".pdf" files. Adobe Reader is available for free for all computer platforms.
|
|
|
|
|
Page last modified on August 10, 2006, at 06:47 PM
|
|
