The deterministic power law logistic model is used to describe density-dependent population growth for cases when ordinary logistic model is found to be insufficient. This paper estimates the parameters of stochastic power law logistic model specifically the Lotka-Volterra model by employing the two-step approach. The Bayesian approach is implemented in the first step of estimating the regression spline parameters. Combining the existing and proposed nonparametric criterion, the structural parameters of SDE are estimated in the second step. Results indicate high percentage of accuracy of the estimated diffusion parameter of Lotka-Volterra model supporting the adequacy of the proposed criterion as an alternative to the classical methods
Taylor’s power law (TPL) can be applied to the mean-variance relationship for various quantities, e....
This paper examines the asymptotic behaviour of the stochastic extension of a fundamentally importa...
We consider two distinct techniques for estimating random parameters in random differential equation...
The deterministic power law logistic model is used to describe density-dependent population growth f...
Two-step method is introduced as an alternative method to classical methods in estimating the drift ...
Santr. anglBibliogr.: p. 762 (7 pavad.)Vytauto Didžiojo universitetasŽemės ūkio akademij
We consider stochastic logistic type delayed growth model (Verhulst, Gompertz, von Bertalanrry, Rich...
AbstractThe transition density of a stochastic, logistic population growth model with multiplicative...
We consider stochastic logistic type delayed growth model (Verhulst, Gompertz, Richards) of a single...
In this paper, we estimated the drift and diffusion parameters of the stochastic logistic models for...
Non-parametric modelling is a method which relies heavily on data and motivated by the smoothness pr...
Abstract In this paper, we estimate the drift and diffusion parameters of the stochas-tic logistic m...
In this paper we develop approximate Bayes estimators of the two parameters logistic distribution. L...
The population of two types of bacteria found in the Gulf Coast of Florida, V.chagasii and V. harvey...
Non-parametric modeling is a method which relies heavily on data and motivated by the smoothness pro...
Taylor’s power law (TPL) can be applied to the mean-variance relationship for various quantities, e....
This paper examines the asymptotic behaviour of the stochastic extension of a fundamentally importa...
We consider two distinct techniques for estimating random parameters in random differential equation...
The deterministic power law logistic model is used to describe density-dependent population growth f...
Two-step method is introduced as an alternative method to classical methods in estimating the drift ...
Santr. anglBibliogr.: p. 762 (7 pavad.)Vytauto Didžiojo universitetasŽemės ūkio akademij
We consider stochastic logistic type delayed growth model (Verhulst, Gompertz, von Bertalanrry, Rich...
AbstractThe transition density of a stochastic, logistic population growth model with multiplicative...
We consider stochastic logistic type delayed growth model (Verhulst, Gompertz, Richards) of a single...
In this paper, we estimated the drift and diffusion parameters of the stochastic logistic models for...
Non-parametric modelling is a method which relies heavily on data and motivated by the smoothness pr...
Abstract In this paper, we estimate the drift and diffusion parameters of the stochas-tic logistic m...
In this paper we develop approximate Bayes estimators of the two parameters logistic distribution. L...
The population of two types of bacteria found in the Gulf Coast of Florida, V.chagasii and V. harvey...
Non-parametric modeling is a method which relies heavily on data and motivated by the smoothness pro...
Taylor’s power law (TPL) can be applied to the mean-variance relationship for various quantities, e....
This paper examines the asymptotic behaviour of the stochastic extension of a fundamentally importa...
We consider two distinct techniques for estimating random parameters in random differential equation...