A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Early Cost Estimating of Road Tunnel Construction Using Neural Networks
Road tunnel construction is subject to underground uncertainties and risks, and as such it is difficult to predict the final construction cost, especially at the conception phase where issues are evaluated and important design decisions are made. A system assisting in the early cost estimation of road tunnels would therefore be of great value as it would allow the quick costing of alternative and more economical solutions. The development of such an early cost estimation system is discussed in this paper. First, the basic parameters (geological, geometrical, and work quantities-related) affecting temporary and permanent support and final construction cost are determined. After that, appropriate real-world data derived from the analysis of 33 twin tunnels of 46 km total length constructed for the Egnatia Motorway in northern Greece from 1998 to 2004 and related to work quantities is collected and normalized. Appropriate price lists are then applied to calculate the costs; subsequently, cost-estimating models are developed using two types of neural networks: (1) the multilayer feed-forward network; and (2) the general regression neural network. Finally, these models are compared against real quantities and costs for accuracy and robustness. The main conclusion is that the models developed are fit for their purpose and may lead to fairly accurate work quantities and cost estimates of road tunnels.
Early Cost Estimating of Road Tunnel Construction Using Neural Networks
Road tunnel construction is subject to underground uncertainties and risks, and as such it is difficult to predict the final construction cost, especially at the conception phase where issues are evaluated and important design decisions are made. A system assisting in the early cost estimation of road tunnels would therefore be of great value as it would allow the quick costing of alternative and more economical solutions. The development of such an early cost estimation system is discussed in this paper. First, the basic parameters (geological, geometrical, and work quantities-related) affecting temporary and permanent support and final construction cost are determined. After that, appropriate real-world data derived from the analysis of 33 twin tunnels of 46 km total length constructed for the Egnatia Motorway in northern Greece from 1998 to 2004 and related to work quantities is collected and normalized. Appropriate price lists are then applied to calculate the costs; subsequently, cost-estimating models are developed using two types of neural networks: (1) the multilayer feed-forward network; and (2) the general regression neural network. Finally, these models are compared against real quantities and costs for accuracy and robustness. The main conclusion is that the models developed are fit for their purpose and may lead to fairly accurate work quantities and cost estimates of road tunnels.
Early Cost Estimating of Road Tunnel Construction Using Neural Networks
Petroutsatou, K. (author) / Georgopoulos, E. (author) / Lambropoulos, S. (author) / Pantouvakis, J. P. (author)
Journal of Construction Engineering and Management ; 138 ; 679-687
2011-08-31
92012-01-01 pages
Article (Journal)
Electronic Resource
English
Early Cost Estimating of Road Tunnel Construction Using Neural Networks
| British Library Online Contents | 2012
Early Cost Estimating of Road Tunnel Construction Using Neural Networks
| Online Contents | 2012
Early cost estimating for road construction projects using multiple regression techniques
| DOAJ | 2011
Early cost estimating for road construction projects using multiple regression techniques
| DOAJ | 2011
A life cycle model for estimating road tunnel cost
| Elsevier | 2021