Perceptual control with large feature and actuator networks
Files
Accepted manuscript
Date
2019-12-11
DOI
Authors
Baillieul, John
Version
Accepted manuscript
OA Version
Citation
J. Baillieul. 2019. "Perceptual Control with Large Feature and Actuator Networks." IEEE Conference on Decision and Control, Volume 58, pp. 3819 - 3826 (8).
Abstract
This paper discusses elements of a control theory of systems comprised of networks of simple agents that collectively achieve sensing and actuation goals despite having strictly limited capability when acting alone. The goal is to understand sensorimotor feedback control in which streams of data come from large arrays of sensors (e.g. photo-receptors in the eye) and actuation requires coordination of large numbers of actuators (e.g. motor neurons). The context for this work is set by consideration of a stylized problem of robot navigation that uses optical flow as sensed by two idealized and precise photoreceptors. A robust steering law in this setting establishes a foundation for exploiting optical flow based on averaged noisy inputs from large numbers of imprecise sensing elements. Taking inspiration from neurobiology, the challenges of actuator and sensor intermittency are discussed as are learning actuator coordination strategies. It is shown that there are advantages in having large numbers of control inputs and outputs.