Analysis of a chemotaxis system modeling ant foraging

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DOI10.1142/S0218202516500457zbMath1343.92557arXiv1505.00678OpenAlexW2963941870MaRDI QIDQ2816545

Paulo Amorim, Thierry Goudon, Ricardo J. Alonso

Publication date: 23 August 2016

Published in: Mathematical Models and Methods in Applied Sciences (Search for Journal in Brave)

Full work available at URL: https://arxiv.org/abs/1505.00678

zbMATH Keywords

chemotaxis reaction-diffusion equations animal movement De Giorgi's method ant foraging

Mathematics Subject Classification ID

Smoothness and regularity of solutions to PDEs (35B65) Nonlinear parabolic equations (35K55) Cell movement (chemotaxis, etc.) (92C17) Animal behavior (92D50)

Related Items (5)

A reaction-diffusion predator-prey model with pursuit, evasion, and nonlocal sensing ⋮ A chemotaxis predator-prey model with indirect pursuit-evasion dynamics and parabolic signal ⋮ Modeling ant foraging: a chemotaxis approach with pheromones and trail formation ⋮ Solutions of the 4-species quadratic reaction-diffusion system are bounded and \(C^\infty\)-smooth, in any space dimension ⋮ Global existence in a food chain model consisting of two competitive preys, one predator and chemotaxis

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