Aggregating Mesh Network to Increase Throughput in Collision Rate and Reduce Energy Consumption

International Journal of Computer Trends and Technology (IJCTT)          
© 2016 by IJCTT Journal
Volume-39 Number-1
Year of Publication : 2016
Authors : Nanda P, Dr. Josephine Prem Kumar


Nanda P, Dr. Josephine Prem Kumar "Aggregating Mesh Network to Increase Throughput in Collision Rate and Reduce Energy Consumption". International Journal of Computer Trends and Technology (IJCTT) V39(1):12-17, September 2016. ISSN:2231-2803. Published by Seventh Sense Research Group.

Abstract -
A system ought to be exceedingly adaptable i.e. high data rates, high throughput, and low errors. Use of Remote LAN's utilizing IEEE 802.11n-2009 standard has expanded in the quantity of stations. As the quantity of stations builds the way gets to be congested and will prompt crashes. The IEEE 802.11n-2009 standard gives a high information rate of 100 Mbps at the physical layer yet not that information speed at Macintosh layer. The procedures like the frame aggregation outline increases the effectiveness at Macintosh layer yet none decrease the crash. Consequently collusion crash control is much vital to accomplishing high information rates to serve a vast number of stations. And also it increases the energy consumption. WHN (Wireless hybrid Network) technology application has expanded in almost all aspects of life. This is because of their ability and ease of performance of the technologies to solve problems. Although its implementation is very flexible and practical, there are several aspects that need to be investigated, there are several things need to be investigated in the technology development of the wireless Hybrid network, such as lifetime constraints, unreliable and communication and need for self-configuration. We propose Grouping/Gathering plan to decrease the impact rate. Here the stations are assembled and a pioneer is chosen. Just the pioneers of individual gathering contend which diminish the collusion . We contrast, our reproduction results and the DCF with frame aggregation and without frame aggregation. We present a protocol, HEED (Hybrid Energy- Efficient Distributed clustering), that periodically selects cluster heads according to a hybrid of the node residual energy and a secondary parameter, such as node proximity to its neighbors or node degree. This Clustering reduces the energy consumption and maximizes the throughput.

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MAC, DCF, Frame agrregation, WMNs, Routing Protocol, Energy consumption.