There is ever increasing commercial and regulatory pressure to minimise the cost of water distribution networks even as the demand for them keeps on growing. But cost minimizing is only one of the demands placed on network design. Satisfactory networks are required to operate above a minimum level even if they experience failure of components. Reliable hydraulic performance can be achieved if sufficient redundancy is built in the network. This has given rise to various water distribution system optimization methods including genetic algorithms and other evolutionary computing methods. Evolutionary computing approaches frequently assess the suitability of enormous numbers of potential solutions for which the calculation of accurate reliabili...
The aim of this paper is to investigate which between the entropy and resilience indices represents ...
This paper proposes a maximum entropy-based multi-objective genetic algorithm approach for the desig...
AbstractHydraulic resilience can be formulated as a measure of the ability of a water distribution n...
There is ever increasing commercial and regulatory pressure to minimise the cost of water distributi...
An investigation into the effectiveness of surrogate measures for the hydraulic reliability and/or r...
Water distribution networks are known to be costly infrastructures. A few decades ago the research e...
Water distribution networks (WDNs) must be reliable infrastructures since they provide an essential ...
Because of the large computational burden associated with the direct assessment of reliability, the ...
This paper investigates the similarity in performance of designs with equal maximum entropy values. ...
Evolutionary algorithms are used widely in optimization studies on water distribution networks. The ...
The replacement of existing pipes is a strategy for the rehabilitation of water distribution network...
An unbiased investigation is presented of four surrogate reliability measures which are commonly use...
AbstractThe aim of this paper is to investigate which between the entropy and resilience indices rep...
This is the author accepted manuscript. The final version is available from the publisher via the DO...
The aim of this paper is to investigate which between the entropy and resilience indices represents ...
The aim of this paper is to investigate which between the entropy and resilience indices represents ...
This paper proposes a maximum entropy-based multi-objective genetic algorithm approach for the desig...
AbstractHydraulic resilience can be formulated as a measure of the ability of a water distribution n...
There is ever increasing commercial and regulatory pressure to minimise the cost of water distributi...
An investigation into the effectiveness of surrogate measures for the hydraulic reliability and/or r...
Water distribution networks are known to be costly infrastructures. A few decades ago the research e...
Water distribution networks (WDNs) must be reliable infrastructures since they provide an essential ...
Because of the large computational burden associated with the direct assessment of reliability, the ...
This paper investigates the similarity in performance of designs with equal maximum entropy values. ...
Evolutionary algorithms are used widely in optimization studies on water distribution networks. The ...
The replacement of existing pipes is a strategy for the rehabilitation of water distribution network...
An unbiased investigation is presented of four surrogate reliability measures which are commonly use...
AbstractThe aim of this paper is to investigate which between the entropy and resilience indices rep...
This is the author accepted manuscript. The final version is available from the publisher via the DO...
The aim of this paper is to investigate which between the entropy and resilience indices represents ...
The aim of this paper is to investigate which between the entropy and resilience indices represents ...
This paper proposes a maximum entropy-based multi-objective genetic algorithm approach for the desig...
AbstractHydraulic resilience can be formulated as a measure of the ability of a water distribution n...