Real Time Prototype to Measure Structural Acceleration and Tilt of High-Rise Building

Haque, M. E; Zain, M. F. M; Hannan, M. A.; Jamil, M.; Asikuzzaman, M

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Artykuł - szczegóły

Czasopismo

Przegląd Elektrotechniczny

2015 | R. 91, nr 2 | 177-182

Tytuł artykułu

Real Time Prototype to Measure Structural Acceleration and Tilt of High-Rise Building

Autorzy

Haque, M. E. , Zain, M. F. M. , Hannan, M. A. , Jamil, M. , Asikuzzaman, M.

Wybrane pełne teksty z tego czasopisma

http://pe.org.pl/

Warianty tytułu

Prototyp systemu pomiarowego do badania wibracji i odchylenia konstrukcji budynków

Języki publikacji

Abstrakty

Smart sensor is the new invention applying to detect the damage of the 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 structural strength at a light price and greater bulk than traditional monitoring tactics. The aim of this article is to validate the MEMS accelerometer sensor to measure vibration and tilt of the high-rise civil building infrastructures. The experimental result shows that the propose prototype has been successfully measured high-rise building vibration and tilt sensing information.

W artykule opisano możliwości zastosowania czujników przyśpieszenia typu MEMS do pomiaru wibracji i odchylenia konstrukcji budynków. Przedstawione wyniki badań eksperymentalnych potwierdzają przydatność tych czujników szczególnie w sytuacjach dużych zagrożeń.

Słowa kluczowe

czujnik przyspieszenia czujnik MEMS ochrona budynku

structural health monitoring acceleration tilt MEMS sensor

Wydawca

Czasopismo

Przegląd Elektrotechniczny

Rocznik

2015

Tom

R. 91, nr 2

Strony

177-182

Opis fizyczny

Bibliogr. 16 poz., rys., tab., wykr.

Twórcy

autor

Haque, M. E.

Department of Electrical, Electronics and System Engineering, Univerrsiti Kebangsaan Malaysia (UKM), Selangor, Bangi, ershadul.ruet05@gmail.com

autor

Zain, M. F. M.

Faculty of Engineering and Bult Environment, Universiti Kebangsaan Malaysia (UKM), Selangor, Bangi, 43600, fauzizain@gmail.com

autor

Hannan, M. A.

Department of Electrical, Electronics and System Engineering, Univerrsiti Kebangsaan Malaysia (UKM), Selangor, Bangi, hannan@eng.ukm.my

autor

Jamil, M.

Faculty of Engineering and Bult Environment, Universiti Kebangsaan Malaysia (UKM), Selangor, Bangi, 43600, lynyeeha@gmail.com

autor

Asikuzzaman, M.

School of Engineering and Information Technology, University of New South Wales, polash_ruet@yahoo.com

Bibliografia

[1] Kumar S., Lobiyal D.K., Sensing Coverage Prediction for Wireless Sensor Networks in Shadowed and Multipath Environment. The Scientific World Journal., 2013; (2013).
[2] Naghdy, F.; Samali, B.; Zhang, N.; Du, H. Robust Sampled-Data Control Of Structures Subject To Parameter Uncertainties and Actuator Saturation, Engineering Structures, 2012; 36 (2012): 9-48.
[3] Su,W. C.; Huang, C.S.; Hung,S.L.; Chen,L.J.; Lin,W.J. Locating damaged storeys in a shear building based on its substructural natural frequencies, Engineering Structures, 2012;39: 126-138.
[4] Zheng, W.; Zhu, Y. A bio-inspired memory model for structural health monitoring, Measurement Science and Technology, 2009;20(4): 045704.
[5] Antoine-Santoni,T.; Santucci, J.F.; Gentili,E.D.; Silvani, X.; Morandini,F.Performance of a protected wireless sensor network in a fire. Analysis of fire spread and data transmission, Sensors, 2009;9(8): 5878-5893.
[6] Chen Z, Xiao Y, Li X, Li R. A Clustering Protocol for Wireless Sensor Networks Based on Energy Potential Field. The Scientific World Journal 2013;7.
[7] Wu, W.; Yang,H.; Li, Q.; Chew,D. An integrated information management model for proactive prevention of struck-by-falling object accidents on construction sites, Automation in Construction, 2013; 34:67–74.
[8] Jang,W. S.; Healy, W.M.; Skibniewski, M.J. Wireless sensor networks as part of a web-based building environmental monitoring system, Automation in Construction, 2008; 17(6): 729–736.
[9] Pradhananga, N.; Teizer, J. Automaticspatio-temporal analysis of construction site equipment operations using GPS data. Automation in Construction, 2013; 29: 107–122.
[10] Jang,W., Lee, S., E.D.; Choi, J. Ad-hoc performance of wireless sensor network for large scale civil and construction engineering applications, Automation in Construction, 2012, 26, 32–45.
[11] Kim, C.; Park, T.; Lim, H.; Kim, H. On-site construction management using mobile computing technology, Automation in Construction, 2013; 35:415–423.
[12] Haque, M.E.; Zain, M.F.M.; Jamil, M.;Hannan, M. A.; Suman, A.Al. M-array quadrature amplitude modulation wireless sensor network modulator reliability and accuracy analyze in civil SHM. Journal of Computer Science, 2013; 9(12): 1738.
[13] Haque, M.E.; Zain, M.F.M.; Hannan, M.A.; Jamil, M.; Johari, H. Loss monitoring of star topology sensor network based on scheduling algorithm for assessing structural health information. American Journal of Applied Sciences 2013;10(12):1484-1491.
[14] Haque, M.E.; Zain, M.F M.; Hannan, M.A.; Jamil, M.; Johari, H. Transmission loss computed of star topology sensor network base on DT, RED and SFQ buffer mechanism for overseeing high rise building structural health, Int. J. Biosci., Biochem. Bioinform 2013; 3:646-649.
[15] Haque, M.E.; Zain, M.F.M.; Hannan, M.A.; Jamil, M.; Johari, H. Recent Application of Structural Civil Health Monitoring Using WSN and FBG. World Applied Sciences Journal 2012;20(4):585-590.
[16] Yun, G.; Lee, S.G.; Carletta, J.; Nagayama, T. Decentralized damage identification using wavelet signal analysis embedded on wireless smart sensors. Engineering Structures 2011; 33 (7): 2162-2172.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.baztech-889acf49-bf5e-4df2-96b4-eaa2f147e207