Traffic Based Energy Consumption Analysis of AOMDV Protocol in a Mobile Ad Hoc Network

Malini, S.; Kannan, E.; Valarmathi, A.; Rajan, C.

doi:10.5120/1884-2500

Cited by 3 publications

(2 citation statements)

References 12 publications

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“…This discovery process can be exploited to collect fresh node information, such as residual energy, load level, and so on. Several studies [35][36][37] have shown that the AOMDV protocol is more robust and performs better in most of the simulated scenarios. So we selected this protocol, instead of any other reactive protocol (such as SMR [29]), as the reference for performance evaluation of our protocol.…”

Section: Aomdv Overviewmentioning

confidence: 99%

A multipath energy-conserving routing protocol for wireless ad hoc networks lifetime improvement

Smail

Cousin

Mekki

et al. 2014

J Wireless Com Network

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International audienceAd hoc networks are wireless mobile networks that can operate without infrastructure and without centralized networkmanagement. Traditional techniques of routing are not well adapted. Indeed, their lack of reactivity with respect to thevariability of network changes makes them difficult to use. Moreover, conserving energy is a critical concern in the design ofrouting protocols for ad hoc networks, because most mobile nodes operate with limited battery capacity, and the energydepletion of a node affects not only the node itself but also the overall network lifetime. In all proposed single-path routingschemes a new path-discovery process is required once a path failure is detected, and this process causes delay and wastage ofnode resources. A multipath routing scheme is an alternative to maximize the network lifetime. In this paper, we propose anenergy-efficient multipath routing protocol, called AOMR-LM (Ad hoc On-demand Multipath Routing with LifetimeMaximization), which preserves the residual energy of nodes and balances the consumed energy to increase the networklifetime. To achieve this goal, we used the residual energy of nodes for calculating the node energy level. The multipathselection mechanism uses this energy level to classify the paths. Two parameters are analyzed: the energy threshold beta and thecoefficient alpha. These parameters are required to classify the nodes and to ensure the preservation of node energy. Our protocolimproves the performance of mobile ad hoc networks by prolonging the lifetime of the network. This novel protocol has beencompared with other protocols: AOMDV and ZD-AOMDV. The protocol performance has been evaluated in terms of networklifetime, energy consumption, and end-to-end delay

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Section: Aomdv Overviewmentioning

confidence: 99%

A multipath energy-conserving routing protocol for wireless ad hoc networks lifetime improvement

Smail

Cousin

Mekki

et al. 2014

J Wireless Com Network

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“…It was also shown that AOMDV offers a significant reduction in delay and routing load. The impact of traffic flow on energy consumption of AOMDV compared with AODV is analyzed in [6]. The authors proposed load spreading on different paths, so that the load will be balanced in more paths resulting in energy preservation of nodes in the network.…”

Section: Wwwetasrcom Kute and Kharat: Analysis Of Quality Of Service ...mentioning

confidence: 99%

Analysis of Quality of Service for the AOMDV Routing Protocol

Kute¹,

Kharat²

2013

Eng. Technol. Appl. Sci. Res.

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Due to the dynamic nature of Mobile Ad-hoc Networks (MANETs), the provision of Quality of Service (QoS) guarantees is challenging. The route failure probability in a MANET is increased due to the mobility of nodes, which increases routing overhead. Multi-path routing protocols have relatively greater ability to reduce the routing overheads. This paper discuses the performance analysis of the Ad-hoc On-Demand Multi-Path Distance Vector (AOMDV) routing protocol. AOMDV is a multi-path extension of a very well known single path routing protocol, (AODV). Extensive simulations were carried out using ns-2.34 and the study concluded that for CBR traffic AOMDV performance degrades as the data packet generation rate increases.

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Load balancing maximal minimal nodal residual energy ad hoc on-demand multipath distance vector routing protocol (LBMMRE-AOMDV)

Alghamdi

2015

Wireless Netw

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Traffic Based Energy Consumption Analysis of AOMDV Protocol in a Mobile Ad Hoc Network

Cited by 3 publications

References 12 publications

A multipath energy-conserving routing protocol for wireless ad hoc networks lifetime improvement

A multipath energy-conserving routing protocol for wireless ad hoc networks lifetime improvement

Analysis of Quality of Service for the AOMDV Routing Protocol

Load balancing maximal minimal nodal residual energy ad hoc on-demand multipath distance vector routing protocol (LBMMRE-AOMDV)

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