A Floating Backbone for Internet over the Ocean

Author

Jaeger, Michael C. ; Gero, M.

Author_Institution

Berlin Univ. of Technol., Berlin

Volume

9

Issue

12

fYear

2008

Firstpage

3

Lastpage

3

Abstract

Satellite-based Internet access, the preferred solution for remote locations on the ocean, either offers a low-bandwidth connection or is very expensive to deploy. A backbone structure that provides ocean-wide Internet coverage could provide an alternative to satellite uplinks. With a wide-area network forming a mesh of nodes using floating and moving objects as well as coastal facilities, the network would use next-generation long-range surface radio technology to provide medium- to high-bandwidth Internet access. To achieve high-bandwidth Internet access under these circumstances, the backbone must leverage state-of-the-art sensor network technology, autonomous routing mechanisms, and self-organizing abilities.

Keywords

Internet; satellite communication; backbone structure; coastal facilities; floating backbone; low-bandwidth connection; medium-to high-bandwidth Internet access; next-generation long-range surface radio; ocean-wide Internet coverage; satellite uplinks; satellite-based Internet access; IP networks; Internet; Marine technology; Next generation networking; Oceans; Routing; Satellite broadcasting; Sea measurements; Sea surface; Spine; drift tolerant networks; mobile ad-hoc networks; wireless mesh networking;

fLanguage

English

Journal_Title

Distributed Systems Online, IEEE

Publisher

ieee

ISSN

1541-4922

Type

jour

DOI

10.1109/MDSO.2008.33

Filename

4755178