Representing High-Dimensional Data to Intelligent Prostheses and other Wearable Assistive Robots: A First Comparison of Tile Coding and Selective Kanerva Coding
Prosthetic devices have advanced in their capabilities and in the number and type of sensors included in their design. As the space of sensorimotor data available to a conventional or machine learning prosthetic control system increases in dimensionality and complexity, it becomes increasingly important that this data be represented in a useful and computationally efficient way. Well structured sensory data allows prosthetic control systems to make informed, appropriate control decisions. In this study, we explore the impact that increased sensorimotor information has on current machine learning prosthetic control approaches. Specifically, we examine the effect that high-dimensional sensory data has on the computation time and prediction performance of a true-online temporal-difference learning prediction method as embedded within a resource-limited upper-limb prosthesis control system. We present results comparing tile coding, the dominant linear representation for real-time prosthetic machine learning, with a newly proposed modification to Kanerva coding that we call selective Kanerva coding. In addition to showing promising results for selective Kanerva coding, our results confirm potential limitations to tile coding as the number of sensory input dimensions increases. To our knowledge, this study is the first to explicitly examine representations for realtime machine learning prosthetic devices in general terms. This work therefore provides an important step towards forming an efficient prosthesis-eye view of the world, wherein prompt and accurate representations of high-dimensional data may be provided to machine learning control systems within artificial limbs and other assistive rehabilitation technologies.Citation
J. Travnik, P. Pilarski. "Representing High-Dimensional Data to Intelligent Prostheses and other Wearable Assistive Robots: A First Comparison of Tile Coding and Selective Kanerva Coding". International Conference on Rehabilitation Robotics (ICORR), pp 1443-1450, July 2017.| Keywords: | |
| Category: | In Conference |
| Web Links: | DOI |
| IEEE |
BibTeX
@incollection{Travnik+Pilarski:ICORR17,
author = {Jaden B. Travnik and Patrick M. Pilarski},
title = {Representing High-Dimensional Data to Intelligent Prostheses and
other Wearable Assistive Robots: A First Comparison of Tile Coding and
Selective Kanerva Coding},
Pages = {1443-1450},
booktitle = {International Conference on Rehabilitation Robotics (ICORR)},
year = 2017,
}Last Updated: December 02, 2020Submitted by Sabina P
