Simulation modeling of the sensitivity analysis of differential effects of the intrinsic growth rate of a fish population: its implication for the selection of a local minimum
Journal: International Journal of Advanced engineering, Management and Science (Vol.4, No. 1)Publication Date: 2018-01-11
Authors : Nwachukwu Eucharia C. Ekaka-a Enu-Obari N. Atsu Jeremiah U.;
Page : 29-34
Keywords : Uncertainty analysis; differential effects; p-norms sensitivity analysis; intrinsic growth rate; local minimum; ODE45.;
Abstract
The vulnerability of the differential effects of the intrinsic growth rates of the fish population on the uncertainty analysis can only be controlled by using the mathematical technique of a sensitivity analysis that is called a local minimum selection method based on a Matlab numerical scheme of ordinary differential equations of order 45 (ODE 45). The quantification of the p-norms sensitivity analysis depends on the application of the 1-norm, 2-norm, 3-norm, 4-norm, 5-norm, 6-norm and infinity-norm. In the context of this study, the best-fit intrinsic growth rate of fish population with a small error has occurred when its value is 0.303 which minimizes the bigger sensitivity values previously obtained irrespective of the p-norm sensitivity values. The novel results which we have obtained have not been seen elsewhere. These results are fully presented and discussed in this study.
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Last modified: 2018-01-19 01:27:42