Energy Efficient Cross-Layer Approach for Wireless Sensor Networks

@article{Jony2015EnergyEC,
  title={Energy Efficient Cross-Layer Approach for Wireless Sensor Networks},
  author={Md. Imran Hossain Jony and Mohammad Rakibul Islam},
  journal={International Journal of Computer Applications},
  year={2015},
  volume={127},
  pages={31-37}
}
Energy minimization has become a burning issue for Wireless sensor networks (WSNs) which are mainly event based systems and rely on the collective effort of several microsensor nodes continuously observing a physical phenomenon. Energy efficient approaches or tools are the key to prolong the lifetime of the sensor nodes. This paper presents a cross-layer approach between the medium access control (MAC) and the network layer to achieve energy efficiency. Ad-hoc OnDemand Distance Vector (AODV) is… Expand
1 Citations
ENERGY MANAGEMENT IN WIRELESS SENSOR NETWORKS: CROSS LAYER APPROACH BRIEF REVIEW
Wireless sensor network represents a tremendous technology that attracts more and more considerable research attention in recent years. It has emerged as a result of recent advances in low powerExpand

References

SHOWING 1-10 OF 20 REFERENCES
Prolonging the lifetime of wireless sensor networks by cross-layer interaction
TLDR
It is shown that a tightly integrated set of networking protocols is a good solution to reach the target of highly energy-efficient WSNs and combines medium access organization with routing. Expand
An Energy Optimization Protocol Based on Cross-Layer for Wireless Sensor Networks
TLDR
An Energy Optimization Approach based on Cross-Layer for Wireless Sensor Networks named as EOA, which consider the joint optimal design of the physical, medium access control (MAC), and routing layer, and shows that EOA is an energy-efficient approach and able to achieve significant performance improvement. Expand
A Cross-Layer Protocol for Wireless Sensor Networks
TLDR
Performance evaluation results show that the proposed cross-layer protocol significantly improves the communication efficiency and outperforms the traditional layered protocol architecture that has been used so far in WSNs. Expand
Cross-layer energy analysis of multihop wireless sensor networks
TLDR
It is argued that single-hop communications has up to 40% lower energy consumption than multihop forwarding within the feasible transmission distances of an ISM radio. Expand
XLP: A Cross-Layer Protocol for Efficient Communication in Wireless Sensor Networks
TLDR
The design principle of XLP is based on the cross-layer concept of initiative determination, which enables receiver-based contention, initiative-based forwarding, local congestion control, and distributed duty cycle operation to realize efficient and reliable communication in WSNs. Expand
A Cross-Layer Approach to Minimize the Energy Consumption in Wireless Sensor Networks
TLDR
A cross-layer solution, based on the combined use of a duty-cycling protocol and a new kind of active wake-up circuit, is presented and validated by using a test bed approach, which significantly reduces idle listening periods by awakening the node only when a communication is detected. Expand
Cross-Layer, Energy-Efficient Design for Supporting Continuous Queries in Wireless Sensor Networks: A Quorum-Based Approach
TLDR
This work is interested in linking the asynchronous power-saving protocol and the continuous query-processing problem together, and proposes a cross-layer solution that interwork with each other to support continuous queries in an energy-efficient way. Expand
Medium access control with coordinated adaptive sleeping for wireless sensor networks
TLDR
This paper proposes S-MAC, a medium access control (MAC) protocol designed for wireless sensor networks that enables low-duty-cycle operation in a multihop network and reveals fundamental tradeoffs on energy, latency and throughput. Expand
Event-to-sink reliable transport in wireless sensor networks
TLDR
A new reliable transport scheme for WSN, the event-to-sink reliable transport (ESRT) protocol, is presented in this paper, a novel transport solution developed to achieve reliable event detection in WSN with minimum energy expenditure. Expand
Directed diffusion for wireless sensor networking
TLDR
The use of directed diffusion for a simple remote-surveillance sensor network analytically and experimentally indicates that directed diffusion can achieve significant energy savings and can outperform idealized traditional schemes (e.g., omniscient multicast) under the investigated scenarios. Expand
...
1
2
...