A Constant Bound on Throughput Improvement of Multicast Network Coding in Undirected Networks

In this paper, we address the issue of maximizing the lifetime of a static wireless ad-hoc network wherein the nodes are battery powered and have limited energy. In such scenarios, routing the traffic along shortest paths will lead to over-use of some nodes leading to premature network partition and an eventual end of communication. Network Coding is a promising technique that has been used, of late, by researchers for throughput improvement. We propose an algorithm that exploits network coding to route a set of unicast traffic demands, the objective being network lifetime maximization. The routing algorithm uses a link metric that takes care of the communication power consumption, the residual energy at the nodes and also the potential coding opportunities available at the node. Simulation results show that this algorithm enhances the network lifetime compared to the existing algorithms that do not employ network coding.

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A Novel Network Coding Based Routing Protocol for Throughput Improvement in Wireless Mesh Networks

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.765-767.1134 ◽

2013 ◽

Vol 765-767 ◽

pp. 1134-1137

Author(s):

Yu Huai Peng ◽

Yin Peng Yu ◽

Fan Zhao Wang ◽

Lei Guo ◽

Qing Xu Deng

Keyword(s):

Network Coding ◽

Wireless Mesh Networks ◽

High Throughput ◽

Routing Protocol ◽

Mesh Networks ◽

Wireless Mesh ◽

Throughput Improvement ◽

Working Principle ◽

Simulation Results ◽

End To End

Considering the high throughput requirement in Wireless Mesh Networks (WMNs), a novel network coding based routing (NCBR) protocol is presented in this paper. The NCBR protocol could actively create potential coding opportunities in the process of path establishment, which attempts to choose an appreciated route with more coding benefits among available path candidates. After this paper gives the proposed coding condition, it describes the working principle of NCBR protocol in detail. Based on NS-2 platform, average end-to-end throughput is measured to evaluate the effectiveness of NCBR by varying the offered load and number of flows. The simulation results demonstrate that the proposed NCBR protocol performs better in enhancing average end-to-end throughput than traditional AODV and AODV+COPE schemes. In particular, average end-to-end throughput could be improved by 11% compared with the AODV+COPE case.

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Efficient Network Coding with Interference-Awareness and Neighbor States Updating in Wireless Networks

Wireless Communications and Mobile Computing ◽

10.1155/2017/4974165 ◽

2017 ◽

Vol 2017 ◽

pp. 1-22

Author(s):

Xiaojiang Chen ◽

Jingjing Zhao ◽

Dan Xu ◽

Shumin Cao ◽

Haitao Li ◽

...

Keyword(s):

Network Coding ◽

Mesh Networks ◽

Buffer Occupancy ◽

Coding Scheme ◽

Coding Schemes ◽

Wireless Mesh ◽

Error Ratio ◽

Inherent Error ◽

Throughput Improvement ◽

The Impact

Network coding is emerging as a promising technique that can provide significant improvements in the throughput of Internet of Things (IoT). Previous network coding schemes focus on several nodes, regardless of the topology and communication range in the whole network. Consequently, these schemes are greedy. Namely, all opportunities of combinations of packets in these nodes are exploited. We demonstrate that there is still room for whole network throughput improvement for these greedy design principles. Thus, in this paper, we propose a novel network coding scheme, ECS (Efficient Coding Scheme), which is designed to achieve a higher throughput improvement with lower computational complexity and buffer occupancy compared to current greedy schemes for wireless mesh networks. ECS utilizes the knowledge of the topologies to minimize interference and obtain more throughput. We also prove that the widely used expected transmission count metric (ETX) in opportunistic listening has an inherent error ratio that would lead to decoding failure. ECS therefore exploits a more reliable broadcast protocol to decrease the impact of this inherent error ratio in ETX. Simulation results show that ECS can greatly improve the performance of network coding and decrease buffer occupancy.

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Accelerating Network Coding on Graphics Processors

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.513-517.1573 ◽

2014 ◽

Vol 513-517 ◽

pp. 1573-1576

Author(s):

Xiao Hui Pan

Keyword(s):

Distributed Systems ◽

Network Coding ◽

Network Dynamics ◽

Graphics Processors ◽

Graphic Processing Units ◽

Computing Power ◽

Computational Overhead ◽

Throughput Improvement ◽

Many Core ◽

Core Graphic

Network coding has recently been widely applied in various distributed systems for throughput improvement and/or resilience to network dynamics. However, the computational overhead introduced by network coding operations is not negligible and has become the obstacle for practical deployment of network coding. In this paper, I exploit the computing power of commodity many-core Graphic Processing Units (GPUs) and multi-core CPUs to accelerate the network coding computation. With the implementation of the algorithms, significant encoding and decoding throughput can be achieved.

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