Exploitation of biological resources and the harvest of population species are commonly practiced in fisheries, forestry and wild life management. Estimation of maximum harvesting effort has a great impact on the economics of fisheries and other bio-resources. The present paper deals with the problem of a bioeconomic fishery model under environmental variability. A technique for finding the maximum harvesting effort in fluctuating environment has been developed in a two-species competitive system, which shows that under realistic environmental variability the maximum harvesting effort is less than what is estimated in the deterministic model. This method also enables us to find out the safe regions in the parametric space for which the chan...
In this paper, we propose a bioeconomic model which describes a fishery in which each of two noninte...
This paper aims to study a single species fishery model with Von Bertaranphy law of growth.The dynam...
Optimal harvest rates for mixed stocks of fish are calculated using stochastic dynamic programming. ...
Abstract.- Classical one-parameter harvest policies (such as those based on maintaining a constant o...
Human activities and agricultural practices are having huge impacts on the development of fishery an...
We investigated alternative regularization schemes within a discrete time stochastic fishery model u...
In this study, the population dynamic of fish is considered following Logistic model with the inclus...
AbstractIn this paper, we have considered a mathematical model of commensalism between two species (...
A detailed model describing the economics of harvesting self-renewable resources is constructed. The...
The successful management of biological populations is essential to both the world's economic and en...
Classical fisheries biology aims to optimise fisheries-level outcomes, such as yield or profit, by ...
A harvesting fishery model is proposed to analyze the effects of the presence of red devil fish popu...
In a random environment, the growth of a population subjected to harvesting can be described by a st...
A model of prey and predator species is discussed to study the effects of the limited prey density a...
In this paper a bioeconomic model is developed for a commercial fishery with multiple gear types in ...
In this paper, we propose a bioeconomic model which describes a fishery in which each of two noninte...
This paper aims to study a single species fishery model with Von Bertaranphy law of growth.The dynam...
Optimal harvest rates for mixed stocks of fish are calculated using stochastic dynamic programming. ...
Abstract.- Classical one-parameter harvest policies (such as those based on maintaining a constant o...
Human activities and agricultural practices are having huge impacts on the development of fishery an...
We investigated alternative regularization schemes within a discrete time stochastic fishery model u...
In this study, the population dynamic of fish is considered following Logistic model with the inclus...
AbstractIn this paper, we have considered a mathematical model of commensalism between two species (...
A detailed model describing the economics of harvesting self-renewable resources is constructed. The...
The successful management of biological populations is essential to both the world's economic and en...
Classical fisheries biology aims to optimise fisheries-level outcomes, such as yield or profit, by ...
A harvesting fishery model is proposed to analyze the effects of the presence of red devil fish popu...
In a random environment, the growth of a population subjected to harvesting can be described by a st...
A model of prey and predator species is discussed to study the effects of the limited prey density a...
In this paper a bioeconomic model is developed for a commercial fishery with multiple gear types in ...
In this paper, we propose a bioeconomic model which describes a fishery in which each of two noninte...
This paper aims to study a single species fishery model with Von Bertaranphy law of growth.The dynam...
Optimal harvest rates for mixed stocks of fish are calculated using stochastic dynamic programming. ...