Design of Hybrid Mobile Communication Networks for Planetary Exploration

The mobile exploration system project (MEX) at NASA Ames Research Center has been conducting studies into hybrid communication networks for future planetary missions. These networks consist of space-based communication assets connected to ground-based Internets and planetary surface-based mobile wir...

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Published in:2004 IEEE Aerospace Conference Proceedings (IEEE Cat. No.04TH8720)
Main Authors: Alena, Richard L., Ossenfort, John, Lee, Charles, Walker, Edward, Stone, Thom
Format: Conference Object
Language:unknown
Published: Zenodo 2004
Subjects:
Arctic
Online Access:https://doi.org/10.1109/aero.2004.1367716
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spelling ftzenodo:oai:zenodo.org:1263548 2024-09-09T19:27:31+00:00 Design of Hybrid Mobile Communication Networks for Planetary Exploration Alena, Richard L. Ossenfort, John Lee, Charles Walker, Edward Stone, Thom 2004-01-01 https://doi.org/10.1109/aero.2004.1367716 unknown Zenodo https://doi.org/10.1109/aero.2004.1367716 oai:zenodo.org:1263548 info:eu-repo/semantics/openAccess Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode info:eu-repo/semantics/conferencePaper 2004 ftzenodo https://doi.org/10.1109/aero.2004.1367716 2024-07-25T20:36:06Z The mobile exploration system project (MEX) at NASA Ames Research Center has been conducting studies into hybrid communication networks for future planetary missions. These networks consist of space-based communication assets connected to ground-based Internets and planetary surface-based mobile wireless networks. These hybrid mobile networks have been deployed in rugged field locations in the American desert and the Canadian arctic for support of science and simulation activities on at least six occasions. This work has been conducted over the past five years resulting in evolving architectural complexity, improved component characteristics and better analysis and test methods. A rich set of data and techniques have resulted from the development and field testing of the communication network during field expeditions such as the Haughton Mars project and NASA mobile agents project. This paper defines design, analysis and test methods for hybrid mobile communication networks, identifying the key issues and constraints that affect performance in both the radio frequency (RF) and network engineering disciplines. Previous work by the MEX team has addressed the architecture and detailed analysis of wireless networks including the results of field tests. We continue the analysis using a new 802.11b backbone utilizing two repeaters that significantly increase range and coverage but greatly increase latency, which reduces overall network throughput. The addition of a satellite link can result in significant additional throughput loss due to light-speed delays in the space segment interacting with variable latencies in the multi-hop wireless network. The paper analyzes and presents RF domain field test results combined with network performance metrics which describe a comprehensive approach for designing and optimizing future hybrid mobile networks. Conference Object Arctic Zenodo Arctic 2004 IEEE Aerospace Conference Proceedings (IEEE Cat. No.04TH8720) 2 1161 1179
institution Open Polar
collection Zenodo
op_collection_id ftzenodo
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description The mobile exploration system project (MEX) at NASA Ames Research Center has been conducting studies into hybrid communication networks for future planetary missions. These networks consist of space-based communication assets connected to ground-based Internets and planetary surface-based mobile wireless networks. These hybrid mobile networks have been deployed in rugged field locations in the American desert and the Canadian arctic for support of science and simulation activities on at least six occasions. This work has been conducted over the past five years resulting in evolving architectural complexity, improved component characteristics and better analysis and test methods. A rich set of data and techniques have resulted from the development and field testing of the communication network during field expeditions such as the Haughton Mars project and NASA mobile agents project. This paper defines design, analysis and test methods for hybrid mobile communication networks, identifying the key issues and constraints that affect performance in both the radio frequency (RF) and network engineering disciplines. Previous work by the MEX team has addressed the architecture and detailed analysis of wireless networks including the results of field tests. We continue the analysis using a new 802.11b backbone utilizing two repeaters that significantly increase range and coverage but greatly increase latency, which reduces overall network throughput. The addition of a satellite link can result in significant additional throughput loss due to light-speed delays in the space segment interacting with variable latencies in the multi-hop wireless network. The paper analyzes and presents RF domain field test results combined with network performance metrics which describe a comprehensive approach for designing and optimizing future hybrid mobile networks.
format Conference Object
author Alena, Richard L.
Ossenfort, John
Lee, Charles
Walker, Edward
Stone, Thom
spellingShingle Alena, Richard L.
Ossenfort, John
Lee, Charles
Walker, Edward
Stone, Thom
Design of Hybrid Mobile Communication Networks for Planetary Exploration
author_facet Alena, Richard L.
Ossenfort, John
Lee, Charles
Walker, Edward
Stone, Thom
author_sort Alena, Richard L.
title Design of Hybrid Mobile Communication Networks for Planetary Exploration
title_short Design of Hybrid Mobile Communication Networks for Planetary Exploration
title_full Design of Hybrid Mobile Communication Networks for Planetary Exploration
title_fullStr Design of Hybrid Mobile Communication Networks for Planetary Exploration
title_full_unstemmed Design of Hybrid Mobile Communication Networks for Planetary Exploration
title_sort design of hybrid mobile communication networks for planetary exploration
publisher Zenodo
publishDate 2004
url https://doi.org/10.1109/aero.2004.1367716
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_relation https://doi.org/10.1109/aero.2004.1367716
oai:zenodo.org:1263548
op_rights info:eu-repo/semantics/openAccess
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op_doi https://doi.org/10.1109/aero.2004.1367716
container_title 2004 IEEE Aerospace Conference Proceedings (IEEE Cat. No.04TH8720)
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container_start_page 1161
op_container_end_page 1179
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