Simulation Based Performance Analysis of Proactive, Reactive and Hybrid Routing Protocols in Wireless Sensor Network

Ema, Romana Rahman; Anik, Abdullah; Nahar, Nurun; Rahman, M.A.; Eti, Khaleda Parven; Islam, Tajul

doi:10.1109/icccnt49239.2020.9225672

Cited by 13 publications

(10 citation statements)

References 9 publications

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“…The present article has introduced the reduction of time between the control messages and hence also reduced the delay. In SG applications, delay, optimal path for transmitting the data, and missing link identification are prime requirements, which are covered, analyzed and evaluated by the proposed methodology over OLSR, hybrid routing, AoMDV and DSDV [ 25 ] protocols.…”

Section: Related Workmentioning

confidence: 99%

An Optimized Framework for WSN Routing in the Context of Industry 4.0

Rani

Koundal

Kavita

et al. 2021

Sensors

101

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The advancements in Industry 4.0 have opened up new ways for the structural deployment of Smart Grids (SGs) to face the endlessly rising challenges of the 21st century. SGs for Industry 4.0 can be better managed by optimized routing techniques. In Mobile Ad hoc Networks (MANETs), the topology is not fixed and can be encountered by interference, mobility of nodes, propagation of multi-paths, and path loss. To extenuate these concerns for SGs, in this paper, we have presented a new version of the standard Optimized Link State Routing (OLSR) protocol for SGs to improve the management of control intervals that enhance the efficiency of the standard OLSR protocol without affecting its reliability. The adapted fault tolerant approach makes the proposed protocol more reliable for industrial applications. The process of grouping of nodes supports managing the total network cost by reducing severe flooding and evaluating an optimized head of clusters. The head of the unit is nominated according to the first defined expectation factor. With a sequence of rigorous performance evaluations under simulation parameters, the simulation results show that the proposed version of OLSR has proliferated Quality of Service (QoS) metrics when it is compared against the state-of-the-art-based conventional protocols, namely, standard OLSR, DSDV, AOMDV and hybrid routing technique.

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Section: Related Workmentioning

confidence: 99%

An Optimized Framework for WSN Routing in the Context of Industry 4.0

Rani

Koundal

Kavita

et al. 2021

Sensors

101

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“…Routes exploration includes path requests (RREQ) and route response (RREP). Maintenance of the route consists of records, changes of route and configuration errors (RERR) [16].…”

Section: Ad Hoc On-demand Distance Vector (Aodv)mentioning

confidence: 99%

“…A type of protocol created on frequently changed route tables is a protocol for active routing protocols. DSDV and OLSR [16] are example instances of building transmitting protocols.…”

Section: Proactive Routing Protocolmentioning

confidence: 99%

Enhanced-AODV Node Reliability Approach for MANET to Optimize Performance Metrics and Energy Consumption

2021

IJATCSE

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Ad-hoc network is a network of moving wireless nodes which do not have a central or permanent influence over their connections. It is a mobile node device that is auto configured and connected to an arbitrary infrastructure through wireless connections. Therefore, due to the highly complex environment, MANET routing is acrucial activity. Various protocols are used to enhance the routing process, such that a network route is found between every transmitter and the host receiver. In this post, we modified the AODV protocol to increase the rate of throughput, end-to-end delays, and packet distribution, etc. We used ns3 simulator to compare the protocols AODV, DSDV, OLSR and Enhanced AODV. It is noteworthy that EAODV routing protocols perform much better than OLSR that the DSDV routing protocol provides high throughput, a lower latency and high delivery ratio of packages. In addition, our proposed energy efficient model has changed conventional AODV. Our improved EAODV protocol's overall performance is 3% superior to other conventional protocols.

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“…Routing protocols in ad hoc networks can be divided into categories depending on the way the data are captured and the manner in which paths are estimated on the basis of the captured data. Routing protocols can be categorised as follows [3]:…”

Section: Routing Protocols In Wsnsmentioning

confidence: 99%

Data collection protocols for wireless sensor networks

Borham

Khoriba

Mostafa

2021

Int. j. electr. comput. eng. syst. (Online)

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Data collection in wireless sensor networks (WSNs) has a significant impact on the network’s performance and lifetime. Recently, several data collection techniques that use mobile elements (MEs) have been recommended, especially techniques that focus on maximising data delivery. However, energy consumption and the time required for data collection are significant for many WSN applications, particularly real-time systems. In this paper, a review of data collection techniques is presented, providing a comparison between the maximum amount shortest path (MASP) and zone-based energy-aware (ZEAL) data collection protocols implemented in the NS-3 simulator. Finally, the study provides a suitable data collection strategy that satisfies the requirements of WSN applications in terms of data delivery, energy consumption, and the time required for data collection.

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Simulation Based Performance Analysis of Proactive, Reactive and Hybrid Routing Protocols in Wireless Sensor Network

Cited by 13 publications

References 9 publications

An Optimized Framework for WSN Routing in the Context of Industry 4.0

An Optimized Framework for WSN Routing in the Context of Industry 4.0

Enhanced-AODV Node Reliability Approach for MANET to Optimize Performance Metrics and Energy Consumption

Data collection protocols for wireless sensor networks

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