Add to ORKGA fishery is simulated in which 20 artificial vessels learn to make decisions through an artificial neural network in order to search for schools of fish among the available fishing grounds. Three scenarios with different degrees of variability, including uncertainty in the searching process, are considered. The simulation model accounts for the main features commonly observed in a purse seine tuna fishery in a time and a space scale. Vessel strategies are chosen by the artificial neural network, on the basis of the following decision criteria: information concerning time searching in a specific area, previous performance in this area, knowledge of the quality of surrounding fishing grounds, presence of other vessels fishing actively and tr...
The possibility to use Artificial Neural Network for estimating ship resistance and propulsion coeff...
Trawl performance was studied based on net spread and variability in the contact of the footrope wit...
Accurate and reliable predictions of ship operating fuel expenditures can significantly increase the...
A fishery is simulated in which 20 artificial vessels learn to make decisions through an artificial ...
A simulation study, combining grid- and individual-based approaches, was conducted to analyse the sh...
A simulator dedicated to the modeling of individual search behaviors of fishing vessels has been bu...
The spatial behavior of numerous fishing fleets is nowadays well documented thanks to satellite Vess...
International audienceThe spatial behavior of numerous fishing fleets is nowadays well documented th...
The identification of groups of vessels with the same exploitation pattern (e.g. gear used, fishing ...
In the lack of direct estimate of tuna abundance, the French tropical tuna fleet of purse-seiners pr...
In the Mediterranean, bottom trawlers are multispecific and frequently apply different fishing tacti...
In the lack of direct estimate of tuna abundance, the French tropical tuna fleet of purse-seiners pr...
The total allowable catch system (TACs) is a basic, widely used system for maintaining marine fisher...
The possibility to use Artificial Neural Network for estimating ship resistance and propulsion coeff...
Trawl performance was studied based on net spread and variability in the contact of the footrope wit...
Accurate and reliable predictions of ship operating fuel expenditures can significantly increase the...
A fishery is simulated in which 20 artificial vessels learn to make decisions through an artificial ...
A simulation study, combining grid- and individual-based approaches, was conducted to analyse the sh...
A simulator dedicated to the modeling of individual search behaviors of fishing vessels has been bu...
The spatial behavior of numerous fishing fleets is nowadays well documented thanks to satellite Vess...
International audienceThe spatial behavior of numerous fishing fleets is nowadays well documented th...
The identification of groups of vessels with the same exploitation pattern (e.g. gear used, fishing ...
In the lack of direct estimate of tuna abundance, the French tropical tuna fleet of purse-seiners pr...
In the Mediterranean, bottom trawlers are multispecific and frequently apply different fishing tacti...
In the lack of direct estimate of tuna abundance, the French tropical tuna fleet of purse-seiners pr...
The total allowable catch system (TACs) is a basic, widely used system for maintaining marine fisher...
The possibility to use Artificial Neural Network for estimating ship resistance and propulsion coeff...
Trawl performance was studied based on net spread and variability in the contact of the footrope wit...
Accurate and reliable predictions of ship operating fuel expenditures can significantly increase the...