A deterministic energy-efficient clustering protocol for wireless sensor networks

Aderohunmu, Femi A.; Deng, Jeremiah D.; Purvis, Martin

doi:10.1109/issnip.2011.6146592

Cited by 62 publications

(53 citation statements)

References 6 publications

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“…It is a clustering protocol described in [2]. It guarantees the election of fixed number of cluster heads in each round.…”

Section: Deterministic Energy Efficient Clustering Protocol (Dec)mentioning

confidence: 99%

“…We consider the energy and data aggregation model as described in [2]. Energy consumption for communication is far greater than energy consumption for sensing and processing.…”

Section: Energy Modelmentioning

confidence: 99%

“…And to receive message per bit, energy dissipated by radio is given as following E RX (L) = LE elec (2) And to aggregate m such type of messages, the energy consumption is given as following…”

Section: Fig 2: Network Modelmentioning

confidence: 99%

“…LEACH [3] and TEEN [5] and are the examples of homogeneous protocols. SEP [6], ESEP [1], DEC [2] and DDEC [7] are examples of heterogeneous protocols. Numbers of different routing protocols are proposed by different authors described in [1], [2], [4], [6] and [7] to increase stability period and network lifetime using different approaches.…”

Section: Introductionmentioning

confidence: 99%

“…SEP [6], ESEP [1], DEC [2] and DDEC [7] are examples of heterogeneous protocols. Numbers of different routing protocols are proposed by different authors described in [1], [2], [4], [6] and [7] to increase stability period and network lifetime using different approaches. Clustering approach performs better than direct transmission and multi-hop approach.…”

Section: Introductionmentioning

confidence: 99%

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Zonal based Deterministic Energy Efficient Clustering Protocol for WSNs

Kaur¹,

Singh²

2015

IJCA

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Wireless Sensor Network has gained a tremendous attention of researchers due to its vast applications. Wireless sensor network consists of small size and low powered smart sensor nodes deployed in the region to be monitored. Sensor nodes sense the data and send the sensed data to sink directly or by coordinating with other sensor nodes. It is difficult to change the network topology and battery of sensor nodes. Hence, a key point to increase stability period and network lifetime is to efficiently utilize the energy of sensors. In this paper, we propose a new protocol, zonal based deterministic energy efficient clustering protocol (ZDEC) in which sensor field is divided into zones. Cluster heads are elected based on residual energy such that each zone contains minimum one cluster head. Our proposed protocol ensures uniform distribution of cluster heads which leads to the uniform energy dissipation over the sensor field. Simulations show that our proposed protocol increase stability period and network lifetime when compared with LEACH, ESEP and DEC in heterogeneous environment significantly.

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“…It is a clustering protocol described in [2]. It guarantees the election of fixed number of cluster heads in each round.…”

Section: Deterministic Energy Efficient Clustering Protocol (Dec)mentioning

confidence: 99%

“…We consider the energy and data aggregation model as described in [2]. Energy consumption for communication is far greater than energy consumption for sensing and processing.…”

Section: Energy Modelmentioning

confidence: 99%

Section: Fig 2: Network Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Zonal based Deterministic Energy Efficient Clustering Protocol for WSNs

Kaur¹,

Singh²

2015

IJCA

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Flower pollination algorithm‐based energy‐efficient stable clustering approach for WSNs

Sharma

Mittal

Sohi

2020

Int J Communication

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The advances in the size, cost of deployment, and user-friendly interface of wireless sensor devices have given rise to many wireless sensor network (WSN) applications. WSNs need to use protocols for transmitting data samples from event regions to sink through minimum cost links. Clustering is a commonly used method of data aggregation in which nodes are organized into groups to reduce energy consumption. Nonetheless, cluster head (CH) has to bear an additional load in clustering protocols to organize different activities within the cluster. Proper CH selection and load balancing using efficient routing protocol is therefore a critical aspect for WSN's long-term operation. In this paper, a threshold-sensitive energyefficient cluster-based routing protocol based on flower pollination algorithm (FPA) is proposed to extend the network's stability period. Using FPA, multihop communication between CHs and base station is used to achieve optimal link costs for load balancing distant CHs and energy minimization. Analysis and simulation results show that the proposed algorithm significantly outperforms competitive clustering algorithms in terms of energy consumption, stability period, and system lifetime. K E Y W O R D SFPA, network lifetime, stability period, WSN

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Survey on energy efficient dynamic sink optimum routing for wireless sensor network and communication technologies

Gupta

Singh

2022

Int J Communication

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Wireless sensor network (WSN) is frequently being used for increasing the data collection and monitoring critical parameters. Major challenge in WSN design is achieving the better energy efficiency and latency considering the dynamic sink location. Lots of research has been done for improving the performance of WSN systems in wide range of applications. Prime goal of this paper is to evaluate the performance of WSN routing under the grid-based dynamic sink locations. Later the performance of various existing critical protocols is compared to route data over centralized server. Various applications of WSNs are tabulated along with the sensor utilization. The paper contributed in three passes. Initial contribution of this research is to identify the issues and limitations of present WSN communication technologies. The paper contributed to present a case study to discover the implications of dynamic sink routing for building protocol to extend network's lifetime. The effectiveness of several clustering-based WSN routing algorithms is first compared in this paper. After that, the protocol with the longest network life is put to the test under a grid-based dynamic sink routing scenario. The significance of clustering-based protocols for improving lifetime of the network is evaluated as case study. The clustering-based energy efficient protocol like low energy adaptive clustering hierarchy (LEACH) and its different variants, PEGASIS, SEP, DEC, their variants, and so on, are compared in this paper. Various performance metrics like network delays, throughput, latency, energy consumption and network lifetime are defined for studying routing protocols. Significance of dynamic sink locations performance is evaluated for Enhanced Distributed Energy Efficient Clustering (EDEEC) protocol. Overall paper covers and reviewed many critical design aspects for WSN networks.

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A deterministic energy-efficient clustering protocol for wireless sensor networks

Cited by 62 publications

References 6 publications

Zonal based Deterministic Energy Efficient Clustering Protocol for WSNs

Zonal based Deterministic Energy Efficient Clustering Protocol for WSNs

Flower pollination algorithm‐based energy‐efficient stable clustering approach for WSNs

Survey on energy efficient dynamic sink optimum routing for wireless sensor network and communication technologies

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