This paper proposes a new model named GHEST, a multi-population evolutionary-strategy-like algorithm applied to the optimal design of water distribution networks (WDN). GHEST hunts for the optimal solution by means of two different complementary processes. The first one, synthesizes and transmits the genetic patrimony (heritage) of the parent solutions using their statistical indicators. The second one, called ‘‘shuffle”, avoids the search to get stuck in local minima whenever the evolutionary potential of the population appears to be exhausted. GHEST makes use of hydraulic network solver EPANET 2. Tests carried out on classical WDN optimal design problems are shown for three small and well-known networks and for a large-size one. Performan...
Application of genetic algorithm (GA) in reliability-based optimal design of waterdistribution netwo...
The optimal design of a water distribution system (WDS) is a non-linear multi-modal multi-objective ...
Water distribution systems (WDSs) are becoming increasingly complex and larger in scale due to the r...
This paper proposes a new model named GHEST, a multi-population evolutionary-strategy-like algorithm...
In order to reduce the environmental load and the shortage in fresh water supply, recent studies hav...
The design of a WDN is conceptually a multi-objective problem characterized by stringent constraints...
The application of optimization to Water Distribution Systems encompasses the use of computer-based ...
This paper presents details of a relatively new approach to the design of water distribution systems...
A new multi-objective evolutionary optimization approach for joint topology and pipe size design of ...
This paper aims to compare the performance of three optimisation techniques in terms of optimising t...
Abstract. Genetic algorithms have been a standard technique for engineers op-timising water distribu...
Water is the most essential commodity required to maintain life. Water supplies in general and water...
The differential evolution (DE) algorithm is considered the most powerful evolutionary algorithm (EA...
The water distribution network (WDN) design problem is primarily concerned with finding the optimal ...
Water distribution systems are an integral part of the economic infrastructure of modern-day societi...
Application of genetic algorithm (GA) in reliability-based optimal design of waterdistribution netwo...
The optimal design of a water distribution system (WDS) is a non-linear multi-modal multi-objective ...
Water distribution systems (WDSs) are becoming increasingly complex and larger in scale due to the r...
This paper proposes a new model named GHEST, a multi-population evolutionary-strategy-like algorithm...
In order to reduce the environmental load and the shortage in fresh water supply, recent studies hav...
The design of a WDN is conceptually a multi-objective problem characterized by stringent constraints...
The application of optimization to Water Distribution Systems encompasses the use of computer-based ...
This paper presents details of a relatively new approach to the design of water distribution systems...
A new multi-objective evolutionary optimization approach for joint topology and pipe size design of ...
This paper aims to compare the performance of three optimisation techniques in terms of optimising t...
Abstract. Genetic algorithms have been a standard technique for engineers op-timising water distribu...
Water is the most essential commodity required to maintain life. Water supplies in general and water...
The differential evolution (DE) algorithm is considered the most powerful evolutionary algorithm (EA...
The water distribution network (WDN) design problem is primarily concerned with finding the optimal ...
Water distribution systems are an integral part of the economic infrastructure of modern-day societi...
Application of genetic algorithm (GA) in reliability-based optimal design of waterdistribution netwo...
The optimal design of a water distribution system (WDS) is a non-linear multi-modal multi-objective ...
Water distribution systems (WDSs) are becoming increasingly complex and larger in scale due to the r...