Add to ORKGIn this paper, a new model based approach to leakage localization in drinking water networks is propose based on generating a set of structured residuals. The residual evaluation is based on a numerical method based on an enhanced Newton-Raphson algorithm. The proposed method is suitable for water network systems because the non-linearities of the model make impossible to derive analytical residuals. Furthermore, the computed residuals are designed so that leaks are decoupled, which improves the localization of leaks with respect to other existing methods. Finally, the Hanoi water network benchmark is used to illustrate the results of the proposed approach.Postprint (published version
The efficient distribution of water is a subject of major concern for water utilities and authoritie...
This is an open access article under the CC BY-NC-ND licenseThis paper describes an integrated model...
A significant percentage of treated water is lost due to leakage in water distribution systems. The ...
In this paper, a new model based approach to leakage localization in drinking water networks is prop...
In this paper, a new model-based approach to leakage localization in drinking water distribution net...
In this paper, a new model based approach to leakage localization in drinking water networks is prop...
In order to take into account the scarcity of the water resource and the increasing of the populatio...
“The final publication is available at Springer via http://dx.doi.org/10.1016/j.conengprac.2016.07.0...
Water scarcity is becoming an increasing problem worldwide, and an issue compounding the problem is ...
The performance and success of model-based leak localization methods applied to water distribution n...
Model-based methodologies can assist in addressing the challenging problem of leakage detection and ...
The worldwide growing demand of water supply requires a proper management of the available hydraulic...
This chapter proposes an architecture and an associate methodology for leak localization in Water Di...
The performance and success of model-based leak localization methods applied to water distribution n...
Leakage is the main source of water loss in water distribution networks (WDNs). Therefore, leak dete...
The efficient distribution of water is a subject of major concern for water utilities and authoritie...
This is an open access article under the CC BY-NC-ND licenseThis paper describes an integrated model...
A significant percentage of treated water is lost due to leakage in water distribution systems. The ...
In this paper, a new model based approach to leakage localization in drinking water networks is prop...
In this paper, a new model-based approach to leakage localization in drinking water distribution net...
In this paper, a new model based approach to leakage localization in drinking water networks is prop...
In order to take into account the scarcity of the water resource and the increasing of the populatio...
“The final publication is available at Springer via http://dx.doi.org/10.1016/j.conengprac.2016.07.0...
Water scarcity is becoming an increasing problem worldwide, and an issue compounding the problem is ...
The performance and success of model-based leak localization methods applied to water distribution n...
Model-based methodologies can assist in addressing the challenging problem of leakage detection and ...
The worldwide growing demand of water supply requires a proper management of the available hydraulic...
This chapter proposes an architecture and an associate methodology for leak localization in Water Di...
The performance and success of model-based leak localization methods applied to water distribution n...
Leakage is the main source of water loss in water distribution networks (WDNs). Therefore, leak dete...
The efficient distribution of water is a subject of major concern for water utilities and authoritie...
This is an open access article under the CC BY-NC-ND licenseThis paper describes an integrated model...
A significant percentage of treated water is lost due to leakage in water distribution systems. The ...