Performance Assessment of tree topology sensor network based on scheduling algorithm for overseeing high-rise building structural health information

Research output: Contribution to journalArticle

6 Citations (Scopus)

Abstract

Wireless sensor network (WSN) is the new invention applied for detecting the damage of the high-rise building structural health. The research has been focused in the early age and curing phase period. The objective of this article is to provide a solution to find out the optimum throughput, queue loss and queue size mechanism technique for tree topology sensor network in high-rise civil building structural health. Sensor technology offers new opportunities to advance monitoring for civil large building infrastructure health and maintenance by providing relevant information regarding the condition of high-rise building structure strength at a light price compared with traditional monitoring tactics. To cover the whole patient area, sensor network topology is one of the most important issues. From all investigation result shows that, queue loss of the FQ (fair queuing) buffer mechanism with Newreno, Reno, Tahoe and Vegas based tree topology network offer optimum buffering technique when Vegas DT (drop tail), SFQ (stochastic fair queuing) delivered the same output. On the other hand, Vegas based TCP (transmission control protocol) mechanism with any scheduling algorithm provides the optimum throughput tree topology sensor network.

Original languageEnglish
Article number55441
Pages (from-to)1676-1682
Number of pages7
JournalOptik
Volume126
Issue number18
DOIs
Publication statusPublished - 1 Sep 2015

Fingerprint

Trees (mathematics)
scheduling
Scheduling algorithms
Sensor networks
health
topology
Topology
Health
sensors
Throughput
Transmission control protocol
Monitoring
tactics
Patents and inventions
inventions
Curing
Wireless sensor networks
Buffers
curing
maintenance

Keywords

  • Building structural health
  • Queue loss
  • Queue size
  • Scheduling algorithm
  • Tree topology sensor network

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Electrical and Electronic Engineering
  • Atomic and Molecular Physics, and Optics

Cite this

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title = "Performance Assessment of tree topology sensor network based on scheduling algorithm for overseeing high-rise building structural health information",
abstract = "Wireless sensor network (WSN) is the new invention applied for detecting the damage of the high-rise building structural health. The research has been focused in the early age and curing phase period. The objective of this article is to provide a solution to find out the optimum throughput, queue loss and queue size mechanism technique for tree topology sensor network in high-rise civil building structural health. Sensor technology offers new opportunities to advance monitoring for civil large building infrastructure health and maintenance by providing relevant information regarding the condition of high-rise building structure strength at a light price compared with traditional monitoring tactics. To cover the whole patient area, sensor network topology is one of the most important issues. From all investigation result shows that, queue loss of the FQ (fair queuing) buffer mechanism with Newreno, Reno, Tahoe and Vegas based tree topology network offer optimum buffering technique when Vegas DT (drop tail), SFQ (stochastic fair queuing) delivered the same output. On the other hand, Vegas based TCP (transmission control protocol) mechanism with any scheduling algorithm provides the optimum throughput tree topology sensor network.",
keywords = "Building structural health, Queue loss, Queue size, Scheduling algorithm, Tree topology sensor network",
author = "Haque, {M. E.} and {Mohd. Zain}, {Muhammad Fauzi} and Maslina Jamil",
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AB - Wireless sensor network (WSN) is the new invention applied for detecting the damage of the high-rise building structural health. The research has been focused in the early age and curing phase period. The objective of this article is to provide a solution to find out the optimum throughput, queue loss and queue size mechanism technique for tree topology sensor network in high-rise civil building structural health. Sensor technology offers new opportunities to advance monitoring for civil large building infrastructure health and maintenance by providing relevant information regarding the condition of high-rise building structure strength at a light price compared with traditional monitoring tactics. To cover the whole patient area, sensor network topology is one of the most important issues. From all investigation result shows that, queue loss of the FQ (fair queuing) buffer mechanism with Newreno, Reno, Tahoe and Vegas based tree topology network offer optimum buffering technique when Vegas DT (drop tail), SFQ (stochastic fair queuing) delivered the same output. On the other hand, Vegas based TCP (transmission control protocol) mechanism with any scheduling algorithm provides the optimum throughput tree topology sensor network.

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