Advanced search
Publication Cover
Canadian Water Resources Journal / Revue canadienne des ressources hydriques Volume 38, 2013 - Issue 1: Tackling Challenging Water Resources Problems in Canada: A Systems Approach
Submit an article Journal homepage
3,303
Views
45
CrossRef citations to date
0
Altmetric
Articles

Forecasting watermain failure using artificial neural network modelling

Ahmad Asnaashari Water Eng. Faculty, Power and Water University of Technology (PWUT), Tehran, Iran; School of Engineering, University of Guelph, Guelph, Ontario, N1G 2W1Correspondence[email protected]
,
Edward A. McBean School of Engineering, University of Guelph, Guelph, Ontario, N1G 2W1
,
Bahram Gharabaghi School of Engineering, University of Guelph, Guelph, Ontario, N1G 2W1
&
Donald Tutt School of Engineering, University of Guelph, Guelph, Ontario, N1G 2W1
Pages 24-33 | Published online: 28 Mar 2013

References

  • Ahn , J. C. , Lee , S. W. , Lee , G. S. and Koo , J. Y. 2005 . Predicting water pipe breaks using neural network . Water Science and Technology: Water Supply , 5 ( 3–4 ) : 159 – 172 .
  • Al-Barqawi , H. and Zayed , T. 2008 . Infrastructure management: integrated AHP/ANN model to evaluate municipal watermains’ performance . Journal of Infrastructure Systems , 14 ( 4 ) : 305 – 318 .
  • Asnaashari , A. , McBean , E. A. , Shahrour , I. and Gharabaghi , B. 2009 . Prediction of watermain failure frequencies using multiple and Poisson regression . Water Science and Technology: Water Supply , 9 ( 1 ) : 9 – 19 .
  • Bowden , G. J. , Nixon , J. B. , Dandy , G. C. , Maier , H. R. and Holmes , M. 2006 . Forecasting chlorine residuals in a water distribution system using a general regression neural network . Mathematical and Computer Modelling , 44 ( 5–6 ) : 469 – 484 .
  • Caudill , M. 1988 . Neural networks primer, Part III . AI Expert , 3 ( 6 ) : 53 – 59 .
  • Chambers, G. M. 1994. “Reducing water utility costs in Winnipeg.” In Proceedings of the Western Canada Water and Wastewater Association Conference, 1–12. Winnipeg, Canada: Western Canada Water and Wastewater Association.
  • Ciottoni , A. S. 1985 . “ Updating the New York City water system ” . In Proceedings of the Specialty Conference on Infrastructure for Urban Growth , Edited by: Guyer , J. P. 69 – 77 . New York : American Society of Civil Engineers .
  • City of Toronto. 2009. Watermains and watermain breaks. Water supply: fact sheets. Accessed January 2011. http://www.toronto.ca/water/supply/system/watermains.htm.
  • Cybenko , G. 1989 . Approximation by Superpositions of a Sigmoidal Function . Mathematics of Control, Signals, and Systems , 2 : 303 – 314 .
  • Dandy , G. C. and Engelhardt , M. 2001 . The optimal scheduling of water main replacement using genetic algorithms . Journal of Water Resources Planning and Management ASCE , 127 ( 4 ) : 214 – 223 .
  • Despagne , F. and Massart , D. L. 1998 . Tutorial review: neural networks in multivariate calibration . The Analyst , 123 : 157R – 178R .
  • Goulter , I. C. and Kazemi , A. 1988 . Spatial and temporal groupings of watermain pipe breakage in Winnipeg . Canadian Journal of Civil Engineering , 15 ( 1 ) : 91 – 97 .
  • Habibian , A. 1994 . Effect of temperature changes on water-main break . Journal of Transportation Engineering , 120 ( 2 ) : 312 – 321 .
  • Hajela, P., and L. Berke. 1991. “Neurobiological computational modes in structural analysis and design.” Computers & Structures 41 (4): 657–667.
  • Hecht-Nielsen, R. 1989. “Theory of the back-propagation neural network.” Vol. 1 of Proceedings of the International Joint Conference on Neural Networks, 593–606. Washington, DC: IEEE TAB Neural Network Committee.
  • Ho , C. I. , Lin , M. D. and Lo , S. L. 2009 . Use of GIS-based hybrid artificial neural network to prioritize the order of pipe replacement in a water distribution network . Journal of Environmental Monitoring and Assessment , 166 ( 1–4 ) : 177 – 189 . doi: 10.1007/s10661-009-0994-6
  • Hornik , K. , Stinchcombe , M. and White , H. 1989 . Multilayer Feedforward Networks are Universal Approximators . Neural Networks , 2 ( 5 ) : 359 – 366 .
  • Jafar , R. , Shahrour , I. and Juran , I. 2010 . Application of Artificial Neural Networks (ANN) to model the failure of urban water mains . Mathematical and Computer Modelling , 51 ( 9–10 ) : 1170 – 1180 .
  • Kleiner Y., S. McDonald, and B. Rajani. 2003. “Cathodic protection of water mains in Ottawa: analysis and planning.” Corrosion Control for Enhanced Reliability and Safety: 1–14.
  • Kleiner , Y. and Rajani , B. 2001 . Comprehensive review of structural deterioration of watermains: statistical models . Urban Water , 3 ( 3 ) : 131 – 150 .
  • Kleiner, Y., and B. Rajani. 2002. “Forecasting variations and trends in water-main breaks.” Journal of Infrastructure Systems 8 (4): 122–131.
  • Lackington , D. W. and Large , J. M. 1980 . The integrity of existing distribution systems . Journal of the Institution of Water Engineers and Scientists , 34 : 15 – 32 .
  • Lochbaum, B. S. 1993. “PSE & G develops models to predict main breaks.” Pipeline & Gas Journal 20 (9): 20–27.
  • Maier , H. R. and Dandy , G. C. 2000 . Neural networks for the prediction and forecasting of water resources variables: a review of modelling issues and applications . Environmental Modelling and Software , 15 : 101 – 124 .
  • Moselhi , O. and Shehab-Eldeen , T. 2000 . Classification of defects in sewer pipes using neural networks . Journal of Infrastructure Systems , 6 ( 3 ) : 97 – 105 .
  • Najjar , Y. M. and Basheer , I. A. 1996 . Neural network approach for site characterization and uncertainty prediction . ASCE Geotechnical Special Publication , 58 ( 1 ) : 134 – 148 .
  • Najjar , Y. M. , Basheer , I. A. and Hajmeer , M. N. 1997 . Computational neural networks for predictive microbiology: I. methodology . International Journal of Food Microbiology , 34 ( 1 ) : 27 – 49 .
  • Needham , D. and Howe , M. 1981 . Why gas mains fail, Part 1 . Pipe Line Industry , 55 : 47 – 50 .
  • Newport , R. 1981 . Factors influencing the occurrence of bursts in iron watermains . Water Supply and Management , 3 : 274 – 278 .
  • O’Day , D. K. 1982 . Organizing and analyzing leak and break data for making main replacement decisions . Journal of the American Water Works Association , 74 ( 11 ) : 589 – 594 .
  • Pelletier , G. and Villeneuve , J. -P. 2003 . Modelling water pipe breaks – three case studies . Journal of Water Resources Planning and Management , 129 ( 2 ) : 115 – 123 .
  • Press, J. 2009. Water main breaks shifting.The Whig. Accessed May 2012. http://www.thewhig.com/ArticleDisplay.aspx?e=1474179&archive=true.
  • Rogers P. D. and N. S. Grigg. 2009. “Failure assessment modelling to prioritize water pipe renewal: Two case studies.” Journal of Infrastructure Systems 15 (3): 162–171.
  • Salchenberger , L. M. , Cinar , E. M. and Lash , N. A. 1992 . Neural networks: A new tool for predicting thrift failures . Journal of Decision Sciences , 23 : 899 – 916 .
  • Schuster , C. and McBean , E. 2008 . Impacts of cathodic protection on pipe break probabilities: A Toronto case study . Canadian Journal of Civil Engineering , 35 : 210 – 216 .
  • Selvakumar , A. , Clark , R. M. and Sivaganesan , M. 2002 . Costs for water supply distribution system rehabilitation . Journal of Water Resources Planning and Management , 128 ( 4 ) : 303 – 306 .
  • Shahin , M. A. , Jaksa , M. B. and Maier , H. R. 2002 . Artificial neural network based settlement prediction formula for shallow foundations on granular soils . Australian Geomechanics , 37 ( 4 ) : 45 – 52 .
  • Shamir , U. and Howard , C. 1979 . Analytic approach to scheduling pipe replacement . Journal of the American Water Works Association , 71 ( 5 ) : 248 – 258 .
  • Tabesh, M., J. Soltani, R. Farmani and D. Savic. 2009, Assessing pipe failure rate and mechanical reliability of water distribution networks using data-driven modelling. Journal of Hydroinformatics (11)1: 1–17.
  • Walski , T. M. and Pelliccia , A. 1982 . Economic analyses of watermain breaks . Journal of the American Water Works Association , 74 ( 3 ) : 140 – 147 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.