Recent results for the logarithmic Keller-Segel-Fisher/KPP System

Yanni Zeng; Kun Zhao

doi:10.5269/bspm.v38i7.44494

Yanni Zeng University of Alabama at Birmingham
Kun Zhao Tulane University

DOI: https://doi.org/10.5269/bspm.v38i7.44494

Abstract

We consider a Keller-Segel type chemotaxis model with logarithmic sensitivity and logistic growth. It is a 2 by 2 system describing the interaction of cells and a chemical signal. We study Cauchy problem with finite initial data, i.e., without the commonly used smallness assumption on initial perturbations around a constant ground state. We survey a sequence of recent results by the authors on the existence of global-in-time solution, long-time behavior, vanishing coefficient limit and optimal time decay rates of the solution.

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Zeng, Y. and Zhao, K., Optimal decay rates for a chemotaxis model with logistic growth, logarithmic sensitivity and density-dependent production/consumption rate. J. Differential Equations, to appear.