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 Simulator and location-aware routing protocol for mobile ad hoc acoustic networks of AUVs.


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Type of Resource: text

Genre: Electronic Thesis or Dissertation

Issuance: monographic

Date Issued: 2009

Publisher: Florida Atlantic University

Physical Form: electronic

Extent: xiii, 229 p. : ill. (some col.).

Language(s): English

Summary: Acoustic networks of autonomous underwater vehicles (AUVs) show great promise, but a lack of simulation tools and reliance on protocols originally developed for terrestrial radio networks has hindered progress. This work addresses both issues. A new simulator of underwater communication among AUVs provides accurate communication modeling and flexible vehicle behavior, while a new routing protocol, location-aware source routing (LASR) provides superior network performance. The new simulator was used to evaluate communication without networking, and then with networking using the coding or dynamic source routing (DSR) protocols. The results confirmed that a network was essential to ensure effective fleet-wide communication. The flooding protocol provided extremely reliable communication but with low message volumes. The DSR protocol, a popular routing protocol due to its effectiveness in terrestrial radio networks, proved to be a bad choice in an acoustic environment: in most cases, it suffered from both poor reliability and low message volumes. Due to the high acoustic latency, even moderate vehicle speeds caused the network topology to change faster than DSR could adapt. DSR's reliance on shortest-path routing also proved to be a significant disadvantage. Several DSR optimizations were also tested; most proved to be unhelpful or actually harmful in an underwater acoustic network. LASR was developed to address the problems noted in flooding and DSR. LASR was loosely derived from DSR, most significantly retaining source routes and the reply/request route discovery technique. However, LASR added features which proved, in simulation, to be significant advantages -- two of the most effective were a link/route metric and a node tracking system. To replace shortest-path routing, LASR used the expected transmission count (ETX) metric.

Summary: This allowed LASR to make more informed routing decisions which greatly increased performance compared to DSR. The node tracking system was the most novel addition: using only implicit communication coupled with the use of time-division multiple access (TDMA), the tracking system provided predicted node locations. These predictions made it possible for LASR to proactively respond to topology changes. In most cases, LASR outperformed flooding and DSR in message delivery reliability and message delivery volume.

Identifier: 320762186 (oclc), 187208 (digitool), FADT187208 (IID), fau:2930 (fedora)

Note(s): by Edward A. Carlson.Thesis (Ph.D.)--Florida Atlantic University, 2009.Includes bibliography.Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web.

Subject(s): Ad hoc networks (Computer networks)Computer network protocolsRouters (Computer networks)Mobile communication systems -- Design and constructionRemote submersibles -- Design and construction

Held by: FBoU FAUER

Persistent Link to This Record: http://purl.flvc.org/FAU/187208

Owner Institution: FAU



Autor: Carlson, Edward A.

Fuente: http://fau.digital.flvc.org/islandora/object/fau%3A2930



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