Corpus ID: 772647

Energy Consumption Estimation in Cluster based Underwater Wireless Sensor Networks using M/M/1 Queuing Model

@article{Keshtgary2012EnergyCE,
  title={Energy Consumption Estimation in Cluster based Underwater Wireless Sensor Networks using M/M/1 Queuing Model},
  author={Manijeh Keshtgary and Reza Mohammadi and Mohammad Reza Mahmoudi and Mohammad Reza Mansouri},
  journal={International Journal of Computer Applications},
  year={2012},
  volume={43}
}
Underwater Wireless Sensor Networks (UWSN) has attracted significant attention recently. One of the most important issues in these networks is the energy constraint. Battery power in UWSN is limited and usually batteries cannot be easily recharged or changed. Therefore energy saving in this type of networks is vital. Network life time can be estimated by estimating energy consumption of nodes. In this paper, first we propose an analytical model for energy consumption estimation in cluster based… Expand
Energy Efficient K-Means Clustering Technique for Underwater Wireless Sensor Network
TLDR
A novel approach, Multihop Energy Efficient K-Means Clustering algorithm (MH-EKMC) is introduced and developed and shows better performance for an energy-constrained network. Expand
Cluster-Based MAC Protocol for Collision Avoidance and TDMA Scheduling in Underwater Wireless Sensor Networks
TLDR
Simulation results show that the proposed MAC protocol reduces the delay and energy consumption while by increasing the packet delivery ratio. Expand
EEARP - an Efficient and Energy Aware Routing Protocol for Underwater Wireless Sensor Networks
TLDR
EEARP, a series of new routing protocols for underwater networks to improve the performance of existing DBR as a well-known underwater routing protocol, is proposed and results confirm that EEARP outperforms DBR in terms of energy saving, network lifetime, end-to-end delay and packet loss ratio. Expand
Distance-Based Underwater Routing Protocol : DBURP
Nowadays, underwater wireless sensor networks (UWSNs) are known as a powerful technique for aquatic applications. UWNS has long propagation delay, limited bandwidth and higher error rates inExpand
An SDN-based framework for QoS routing in internet of underwater things
TLDR
A new QoS routing technique for SDN-based IoUT aiming at improving QoS by establishing reliable paths between sensor nodes by gathering 3D coordinates of each underwater sensor and estimating the reliability of each link by using underwater acoustic equations. Expand
Bidirectional multi-optical line terminals incorporated converged WSN-PON network using M/M/1 queuing
Wireless Sensor Networks (WSNs) have an assortment of application areas, for instance, civil, military, and video surveillance with restricted power resources and transmission link. To accommodateExpand
Power Minimization through Packet Retention in Cognitive Radio Sensor Networks under Interference and Delay Constraints: An Optimal Stopping Approach
TLDR
Simulations proved that the proposed scheme of packets retention through the Optimal Stopping Policy outperforms traditional transmission method as far as dropped packet rate and Average Power per Transmitted Packet (APTP) are concerned. Expand
Feasibility and modelling for convergence of optical-wireless network – A review
Abstract Now a days, the convergence of wireless and optical network gaining popularity to enhance the data carrying capacity, QoS and to support future multimedia applications. The queue theoryExpand
Power Minimization Through Packet Retention in Cognitive Radio Sensor Networks Under Interference and Delay Constraints: An Optimal Stopping Approach
TLDR
Simulations proved that the proposed scheme of packets retention through the Optimal Stopping Policy outperforms traditional transmission method as far as dropped packet rate and APTP are substantially concerned, where end to end delay could be tolerated. Expand

References

SHOWING 1-10 OF 19 REFERENCES
Comparative Performance Evaluation of MAC Layer Protocols for Underwater Wireless Sensor Networks
TLDR
The performance of three underwater MAC protocols for underwater environment, R-MAC, Slotted FAMA and UWAN-MAC are evaluated and the effectiveness of the proposed method is shown. Expand
A Survey of Existing Medium Access Control (MAC) for Underwater Wireless Sensor Network (UWSN)
  • F. Yunus, S. Ariffin, Y. Zahedi
  • Computer Science
  • 2010 Fourth Asia International Conference on Mathematical/Analytical Modelling and Computer Simulation
  • 2010
TLDR
To achieve reliable data transfer in underwater sensor network scenarios, a new event MAC protocol need to be developed to provide energy efficient and reliable upstream data transfer. Expand
Power Optimization Method for Heterogeneous Sensor Network with Finite Buffer Capacity
A critical issue in wireless sensor networks is the limited availability of energy and hence optimizing energy is very important. In any sensor node, transitions from idle to busy state and viceExpand
Power Control Algorithm for Wireless Sensor Networks using N-Policy M/M/1 Queueing Model
TLDR
An analytical model of a wireless sensor network with finite buffer capacity is developed and the performance of the proposed scheme to reduce the power consumption of nodes by reducing the number of transitions of the sensor node based on theNumber of packets in the queue i.e., queue threshold is analyzed. Expand
An Analytical Model for Wireless Sensor Networks with Sleeping Nodes
TLDR
A Markov model of the network representing the behavior of a single sensor as well as the dynamics of the entire network, and the channel contention among sensors, is developed to evaluate the system performance in terms of energy consumption; network capacity, and data delivery delay. Expand
Challenges for efficient communication in underwater acoustic sensor networks
TLDR
In this paper, several fundamental key aspects of underwater acoustic communications are investigated, different architectures for two-dimensional and three-dimensional underwater sensor networks are discussed, and the underwater channel is characterized. Expand
The challenges of building mobile underwater wireless networks for aquatic applications
TLDR
The conclusion is that building scalable mobile UWSNs is a challenge that must be answered by interdisciplinary efforts of acoustic communications, signal processing, and mobile acoustic network protocol design. Expand
A Networking Protocol for Underwater Acoustic Networks
Abstract : There exists an increasing demand for reliable, high capacity Underwater Acoustic Networks (UANs), as evidenced by the large volume of research invested over the last decade in overcomingExpand
Issues in Underwater Acoustic Sensor Networks
TLDR
This paper presents several fundamental key aspects and architectures of UWSNs, emerging research issues of underwater sensor networks and exposes the researchers into networking of underwater communication devices for exciting ocean monitoring and exploration applications. Expand
Aqua-Sim: An NS-2 based simulator for underwater sensor networks
In this paper, we present a network simulator, Aqua-Sim, for underwater sensor networks. Aqua-Sim is based on NS-2, one of the most widely used network simulators, and it follows object-orientedExpand
...
1
2
...