by Maldonado Cañon, Jaime Leonardo, Kluss, Thorsten and Zetzsche, Christoph
Abstract:
The investigation of human perception and movement kinematics during manipulation tasks provides insights that can be applied in the design of robotic systems in order to perform human-like manipulations in different contexts and with precision requirements. In this paper we investigate motor control in an unload precision task, in which a tool is moved vertically until it touches a support surface. We evaluate how acoustic and haptic sensory information generated at the moment of contact modulates the kinematic parameters of the movement. Experimental results show differences in the achieved motor control precision and provide insights into the different weights given to haptic and acoustic information.
Reference:
Maldonado Cañon, Jaime Leonardo, Kluss, Thorsten and Zetzsche, Christoph, "Exploring Human Kinematic Control for Robotics Applications: The Role of Afferent Sensory Information in a Precision Task", In IROS 2018: Workshop - Towards Robots that Exhibit Manipulation Intelligence, 2018.
Bibtex Entry:
@InProceedings{maldonado2018iros,
author = {Maldonado Cañon, Jaime Leonardo and Kluss, Thorsten and Zetzsche, Christoph},
booktitle = {IROS 2018: Workshop - Towards Robots that Exhibit Manipulation Intelligence},
title = {Exploring Human Kinematic Control for Robotics Applications: The Role of Afferent Sensory Information in a Precision Task},
year = {2018},
abstract = {The investigation of human perception and movement kinematics during manipulation tasks provides insights
that can be applied in the design of robotic systems in order
to perform human-like manipulations in different contexts
and with precision requirements. In this paper we investigate
motor control in an unload precision task, in which a tool is
moved vertically until it touches a support surface. We evaluate
how acoustic and haptic sensory information generated at the
moment of contact modulates the kinematic parameters of
the movement. Experimental results show differences in the
achieved motor control precision and provide insights into the
different weights given to haptic and acoustic information.},
keywords = {easecrc_perception},
location = {Madrid},
}