DocumentCode
3037475
Title
GPSDTN: Predictive Velocity-Enabled Delay-Tolerant Networks for Arctic Research and Sustainability
Author
Beck, Roman ; Hinkel, K. ; Eisner, W. ; Norda, J. ; Ngoc Hoang ; Fall, Kevin ; Jiang Li ; Garuba, Moses ; Machida, R. ; Smith, Samuel ; Burleigh, S. ; Torgerson, L. ; Bulger, R. ; Sheehan, G. ; Ellis, Brandon ; Durst, R. ; Doria, A. ; Uden, M. ; Fed, J. ;
Author_Institution
Univ. Cincinnati, Cincinnati
fYear
2007
fDate
1-5 July 2007
Firstpage
34
Lastpage
34
Abstract
A Delay-Tolerant Network (DTN) is a necessity for communication nodes that may need to wait for long periods to form networks. The IETF Delay Tolerant Network Research Group is developing protocols to enable such networks for a broad variety of Earth and interplanetary applications. The Arctic would benefit from a predictive velocity-enabled version of DTN that would facilitate communications between sparse, ephemeral, often mobile and extremely power-limited nodes. We propose to augment DTN with power-aware, buffer-aware location- and time-based predictive routing for ad-hoc meshes to create networks that are inherently location and time (velocity) aware at the network level to support climate research, emergency services and rural education in the Arctic. On Earth, the primary source of location and universal time information for networks is the Global Positioning System (GPS). We refer to this Arctic velocity-enabled Delay-Tolerant Network protocol as "GPSDTN" accordingly. This paper describes our requirements analysis and general implementation strategy for GPSDTN to support Arctic research and sustainability efforts.
Keywords
Global Positioning System; ad hoc networks; mobile radio; routing protocols; telecommunication network topology; Arctic research; Earth application; Global Positioning System; ad-hoc network mesh; climate research; emergency service; interplanetary application; power-aware buffer-aware location-based predictive routing; power-limited mobile node; predictive velocity-enabled delay-tolerant network routing protocol; requirements analysis; rural education; Arctic; Disruption tolerant networking; Earth; Global Positioning System; Internet; Monitoring; NASA; Protocols; Space technology; Springs;
fLanguage
English
Publisher
ieee
Conference_Titel
Internet Monitoring and Protection, 2007. ICIMP 2007. Second International Conference on
Conference_Location
San Jose, CA
Print_ISBN
0-7695-2911-9
Electronic_ISBN
0-7695-2911-9
Type
conf
DOI
10.1109/ICIMP.2007.20
Filename
4271779
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