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Hydraulic Deterioration Models for Storm-Water Drainage Pipes: Ordered Probit versus Probabilistic Neural Network |
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| Authors: | D. H. Tran B. J. C. Perera A. W. M. Ng |
| Affiliation: | 1Postdoctoral Research Fellow, School of Engineering and Science, and Institute of Sustainability and Innovation, Victoria Univ., P.O. Box 14428 Melbourne, 8001 Victoria, Australia. E-mail: dung.tran@vu.edu.au 2Professor, Faculty of Health, Engineering and Science, Victoria Univ., P.O. Box 14428, Melbourne, 8001 Victoria, Australia (corresponding author). E-mail: chris.perera@vu.edu.au 3Senior Lecturer, School of Engineering and Science, Victoria Univ., P.O. Box 14428, Melbourne, 8001 Victoria, Australia. E-mail: anne.ng@vu.edu.au |
| Abstract: | A decrease in discharge capacity of storm-water drainage pipes is the result of the so-called hydraulic deterioration which reduces the cross sectional area of pipes and increases the pipe roughness. Hydraulic deterioration is caused by tree root intrusion, sediment accumulation, and encrustation, and is affected by many influential factors such as pipe size and pipe location. Predicting hydraulic deterioration is important for effective management of drainage pipes. An ordered probit deterioration model (OPDM) and a probabilistic neural network deterioration model (PNNDM) were developed in this study using the influential factors as model inputs and the hydraulic condition as model output. Their predictive performances were compared against each other using a case study from Melbourne, Australia with a sample of 417 storm-water drainage pipes subjected to closed circuit television inspection. The results show that the PNNDM is more suitable for predicting the hydraulic deterioration and outperforms the OPDM. Several input factors such as pipe size and pipe age are found significant to the hydraulic deterioration. |
| Keywords: | Stormwater management Probability Neural networks Deterioration Pipes Hydraulic models |