Personal tools
You are here: Home Mars Papers Automating Capcom Using Mobile Agents And Robotic Assistants
Get involved!
Join us or renew!
Web or Paid
Please help the Mars Society make your Mars exploration ideals become a reality. Donate today!
 
 $
Log in


Forgot your password?
 

Clancey, William J.1, Sierhuis, Maarten2, Alena, Rick3, Berrios, Daniel4, Dowding, John5, Graham, Jeffrey S.6, Tyree, Kim S.7, Hirsh, Robert L.8, Garry, W. Brent9, Semple, Abigail10, Shum, Simon J. Buckingham11, Shadbolt, Nigel12, and Rupert, Shannon M.13 (2004)

Automating Capcom Using Mobile Agents And Robotic Assistants

Document Actions
  • Print this page

In: On To Mars 2, edited by Zubrin, RM, and Crossman, F. Collector's Guide Publishing Inc.

We have developed and tested an advanced EVA communications and computing system to increase astronaut self-reliance and safety, reducing dependence on continuous monitoring and advising from mission control on Earth. This system, called Mobile Agents (MA), is voice controlled and provides information verbally to the astronauts through programs called “personal agents.” The system partly automates the role of CapCom in Apollo—including monitoring and managing EVA navigation, scheduling, equipment deployment, telemetry, health tracking, and scientific data collection. EVA data are stored automatically in a shared database in the habitat/vehicle and mirrored to a site accessible by a remote science team. The program has been developed iteratively in the context of use, including six years of ethnographic observation of field geology. Our approach is to develop automation that supports the human work practices, allowing people to do what they do well, and to work in ways they are most familiar. Field experiments in Utah have enabled empirically discovering requirements and testing alternative technologies and protocols. This paper reports on the 2004 system configuration, experiments, and results, in which an EVA robotic assistant (ERA) followed geologists approximately 150 m through a winding, narrow canyon. On voice command, the ERA took photographs and panoramas and was directed to move and wait in various locations to serve as a relay on the wireless network. The MA system is applicable to many space work situations that involve creating and navigating from maps (including configuring equipment for local topology), interacting with piloted and unpiloted rovers, adapting to environmental conditions, and remote team collaboration involving people and robots.

1 - NASA/Ames Research Center, Moffett Field, CA, 94035 
2 - NASA/Ames Research Center, Moffett Field, CA, 94035 
3 - NASA/Ames Research Center, Moffett Field, CA, 94035 
4 - UC/Santa Cruz, Moffett Field, CA 94035 
5 - UC/Santa Cruz, Moffett Field, CA 94035 
6 - NASA/Johnson Space Center, Houston, TX, 77058 
7 - NASA/Johnson Space Center, Houston, TX, 77058 
8 - NASA/Johnson Space Center, Houston, TX, 77058 
9 - University at Buffalo, Buffalo, NY 14260 
10 - University at Buffalo, Buffalo, NY 14260 
11 - Open University, Milton Keynes, MK7 6AA, UK 
12 - University of Southampton, SO17 1BJ, UK 
13 - MiraCosta College, Oceanside, CA, 92056 

Analog Mars Research and Research Stations
Plain-form abstract

Become a Mars Society Member to access the full content
 
Buy at Amazon (a percentage of sales goes to the Society)
by Jean Lagarde last modified 2006-10-22 22:59 This material is declared a work of the U.S. Government and is not subject to copyright protection in the United States. This paper is based on a plenary presentation at the Mars Society 2004 Convention. Also published, 1st Space Exploration Conference [CD-ROM], AIAA, Orlando, FL, Jan. 2005.
The Mars Society Mall
A percentage of each purchase goes to support the Society's projects
Shop Now at eToys
 
Powered by Plone CMS, the Open Source Content Management System