Robotic Follow-Up for Human Exploration

We are studying how "robotic follow-up" can improve future planetary exploration. Robotic follow-up, which we define as augmenting human field work with subsequent robot activity, is a field exploration technique designed to increase human productivity and science return. To better underst...

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Bibliographic Details
Main Authors: Pedersen, Liam, Deans, Matthew C., Kobayashi, Linda, Lee, Susan Y., Cohen, Tamar, Flueckiger, Lorenzo, Garber, Joshua, Smith, Trey, To, Vinh, Lees, David, Kennedy, Tim, Park, Eric, Palmer, Elizabeth, Wheeler, Dawn, Altobelli, Martha, Heggy, Essam, Jurgens, Frank, Bualat, Maria, Lundy, Mike, Fong, Terrence, Adams, Byron, Bouyssounouse, Xavier, Utz, Hans, Allan, Mark, Lee, Pascal
Format: Other/Unknown Material
Language:unknown
Published: 2010
Subjects:
Cybernetics
Artificial Intelligence and Robotics
Canada
Devon Island
Online Access:http://hdl.handle.net/2060/20110008151
Description
Summary:We are studying how "robotic follow-up" can improve future planetary exploration. Robotic follow-up, which we define as augmenting human field work with subsequent robot activity, is a field exploration technique designed to increase human productivity and science return. To better understand the benefits, requirements, limitations and risks associated with this technique, we are conducting analog field tests with human and robot teams at the Haughton Crater impact structure on Devon Island, Canada. In this paper, we discuss the motivation for robotic follow-up, describe the scientific context and system design for our work, and present results and lessons learned from field testing.

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