The Influence of Communication Range on Connectivity for Resilient Wireless Sensor Networks Using a Probabilistic Approach

Huang, Yuanjiang; Martínez-Ortega, José-Fernán; Sendra, J. Rafael; López, Lourdes

doi:10.1155/2013/482727

Cited by 16 publications

(23 citation statements)

References 38 publications

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“…If the target comes in the SR of any MSN, it detects the target. Communication Range (CR) / radio range is a radius of MSN in which MSNs can communicate with each other for sharing their location coordinates and sharing a message mentioning the target is in its SR. [27], [28], [29]. SR and CR are shown in Fig.…”

Section: Proposed Workmentioning

confidence: 99%

Self Organized Hybrid Wireless Sensor Network for Finding Randomly Moving Target in Unknown Environment

Nighot¹,

Ghatol²,

Thakare³

2018

IJIMAI

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Section: Proposed Workmentioning

confidence: 99%

Self Organized Hybrid Wireless Sensor Network for Finding Randomly Moving Target in Unknown Environment

Nighot¹,

Ghatol²,

Thakare³

2018

IJIMAI

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“…As shown in [24,28,29], the energy required to transmit a data packet from node u to node v relates to the distance between these two nodes, which can be expressed as:…”

Section: The Relationship Between Energy-efficiency and Interference-mentioning

confidence: 99%

Probability of Interference-Optimal and Energy-Efficient Analysis for Topology Control in Wireless Sensor Networks

Martínez-Ortega

Díaz

et al. 2016

Applied Sciences

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Abstract:Because wireless sensor networks (WSNs) have been widely used in recent years, how to reduce their energy consumption and interference has become a major issue. Topology control is a common and effective approach to improve network performance, such as reducing the energy consumption and network interference, improving the network connectivity, etc. Many topology control algorithms reduce network interference by dynamically adjusting the node transmission range. However, reducing the network interference by adjusting the transmission range is probabilistic. Therefore, in this paper, we analyze the probability of interference-optimality for the WSNs and prove that the probability of interference-optimality increases with the increasing of the original transmission range. Under a specific transmission range, the probability reaches the maximum value when the transmission range is 0.85r in homogeneous networks and 0.84r in heterogeneous networks. In addition, we also prove that when the network is energy-efficient, the network is also interference-optimal with probability 1 both in the homogeneous and heterogeneous networks.

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“…In general, there are three models can express the connection mode between nodes, which are shown in Figure 1 [20]. Figure 1a illustrates the k nearest neighbor model; each node in this model has constant node degree and maintains the node degree by changing communication range dynamically.…”

Section: Network Model and Problem Statementmentioning

confidence: 99%

“…Figure 1c illustrates the Erdos-Renyi random graph that connects any two nodes by the same probability which is not appropriate in WSNs. Disc model is more plausible in WSN since obtaining k neighbors is not always feasible due to the communication range limitation [20]. Therefore, in this paper, we only interested in the Disc model.…”

Section: Network Model and Problem Statementmentioning

confidence: 99%

Probability Model Based Energy Efficient and Reliable Topology Control Algorithm

Martínez-Ortega

López

et al. 2016

Energies

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Abstract:Topology control is an effective method for improving the performance of wireless sensor networks (WSNs). Many topology control algorithms can achieve high energy efficiency by dynamically changing the transmission range of nodes. However, these algorithms prefer to choose short multihop communication links rather than the long directly communication links which also energy efficient probabilistic. Note that these fact, in this paper, we propose a mathematic model to explore the probability that the long directly communication links are more energy efficient than the short links. We investigate the properties of this probability and find out the optimal transmission range which has highest probability of energy efficient. Based on this conclusion, we propose the energy efficient and reliable topology control algorithm (ERTC) to maintain the r-range for the nodes instead of the k-connection; moreover, ERTC can achieve energy efficient and network connection at the same time.

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The Influence of Communication Range on Connectivity for Resilient Wireless Sensor Networks Using a Probabilistic Approach

Cited by 16 publications

References 38 publications

Self Organized Hybrid Wireless Sensor Network for Finding Randomly Moving Target in Unknown Environment

Self Organized Hybrid Wireless Sensor Network for Finding Randomly Moving Target in Unknown Environment

Probability of Interference-Optimal and Energy-Efficient Analysis for Topology Control in Wireless Sensor Networks

Probability Model Based Energy Efficient and Reliable Topology Control Algorithm

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