Maximum principle for a nonlinear size-structured model of fish and fry management
Articles
Rong Liu
Shanxi University, China
Guirong Liu
Shanxi University, China
Published 2018-08-10
https://doi.org/10.15388/NA.2018.4.5
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Keywords

size-structure
maximum principle
well-posedness
uniqueness
Ekeland's variational principle

How to Cite

Liu, R. and Liu, G. (2018) “Maximum principle for a nonlinear size-structured model of fish and fry management”, Nonlinear Analysis: Modelling and Control, 23(4), pp. 533–552. doi:10.15388/NA.2018.4.5.

Abstract

This paper investigates the maximum principle for a nonlinear size-structured model that describes the optimal management of the fish resources taking into account harvesting the fish and putting the fry. We establish the well-posedness of the state system by Banach fixed-point theorem. Necessary conditions for optimality are established via the normal cone technique and adjoint system. The existence of a unique optimal policy is proved via Ekeland's variational principle and fixed-point reasoning. Finally, some examples and numerical results demonstrate the effectiveness of the theoretical results in our paper.

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