Robotic Follow-up for Human Exploration | Zendy

Terrence Fong | Zendy; Maria Bualat | Zendy; Matthew Deans | Zendy; B. A. Adams | Zendy; Mark Allan | Zendy; Martha Altobelli | Zendy; Xavier Bouyssounouse | Zendy; Tamar Cohen | Zendy; Lorenzo Flückiger | Zendy; Joshua M. Garber | Zendy; Elizabeth Palmer | Zendy; Essam Heggy | Zendy; M. A. Helper | Zendy; K. V. Hodges | Zendy; J. M. Hurtado | Zendy; Frank Jürgens | Zendy; Tim Kennedy | Zendy; L. Kobayashi | Zendy; Rob Landis | Zendy; P. Lee | Zendy; Susan Y. Lee | Zendy; David Lees | Zendy; Jason Lum | Zendy; Mike Lundy | Zendy; Tim Shin | Zendy; Tod Milam | Zendy; Estrellina Pacis | Zendy; Eric Park | Zendy; Liam Pedersen | Zendy; Debra Schreckenghost | Zendy; Trey Smith | Zendy; Vinh To | Zendy; Hans Utz | Zendy; D. W. Wheeler | Zendy; K. E. Young | Zendy

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Robotic Follow-up for Human Exploration

Author(s) -

Terrence Fong,

Maria Bualat,

Matthew Deans,

B. A. Adams,

Mark Allan,

Martha Altobelli,

Xavier Bouyssounouse,

Tamar Cohen,

Lorenzo Flückiger,

Joshua M. Garber,

Elizabeth Palmer,

Essam Heggy,

M. A. Helper,

K. V. Hodges,

J. M. Hurtado,

Frank Jürgens,

Tim Kennedy,

L. Kobayashi,

Rob Landis,

P. Lee,

Susan Y. Lee,

David Lees,

Jason Lum,

Mike Lundy,

Tim Shin,

Tod Milam,

Estrellina Pacis,

Eric Park,

Liam Pedersen,

Debra Schreckenghost,

Trey Smith,

Vinh To,

Hans Utz,

D. W. Wheeler,

K. E. Young

Publication year - 2010

Publication title -

nasa sti repository (national aeronautics and space administration)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2010-8605

Subject(s) - computer science , artificial intelligence , human–computer interaction

: 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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