DocumentCode
1906844
Title
Predictive Multiple Metrics in Proactive Mobile Ad Hoc Network Routing
Author
Guo, Zhihao ; Malakooti, Behnam
Author_Institution
Case Western Reserve Univ., Cleveland
fYear
2007
fDate
15-18 Oct. 2007
Firstpage
755
Lastpage
762
Abstract
In this paper we present a MANET proactive routing enhancement scheme by comprehensive evaluation of multiple dynamic routing metrics, including delay, energy cost, and link stability. We developed efficient routing metric prediction methods: predicting delay and energy using double exponential smoothing, and predicting link stability using a heuristic based on the normal-like distributions of the link lifetimes in typical MANET mobility scenarios. The routing metrics predictions are incorporated with regular routing information exchanges. On each node, routing table is constructed by a modified version of Dijkstra´s algorithm, which evaluates the predicted metrics values compositively. We integrated such a multi-metric prediction/evaluation mechanism into OLSR and name it OLSR MC. We show by simulation that OLSR MC is more adaptive to the network dynamics and therefore is able to improve performance significantly on multiple routing objectives, including higher packet delivery ratio, shorter average end-to- end delay, and prolonged network energy lifetime.
Keywords
ad hoc networks; mobile radio; telecommunication network routing; Dijkstra´s algorithm; double exponential smoothing; information exchanges; link stability; multiple dynamic routing metrics; predictive multiple metrics; proactive mobile ad HOC network routing; Bandwidth; Broadcasting; Computer networks; Costs; Delay; Lagrangian functions; Mobile ad hoc networks; Performance evaluation; Routing protocols; Stability; MANET proactive routing; OLSR_MC; double expenential smooting; metric; multi-objective routing; prediction;
fLanguage
English
Publisher
ieee
Conference_Titel
Local Computer Networks, 2007. LCN 2007. 32nd IEEE Conference on
Conference_Location
Dublin
ISSN
0742-1303
Print_ISBN
0-7695-3000-1
Electronic_ISBN
0742-1303
Type
conf
DOI
10.1109/LCN.2007.90
Filename
4367912
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