6533b821fe1ef96bd127aeb4
RESEARCH PRODUCT
Analysis of a parabolic cross-diffusion population model without self-diffusion
Li ChenAnsgar Jüngelsubject
Self-diffusioneducation.field_of_studyKullback–Leibler divergenceRelative entropyStrong cross-diffusionApplied MathematicsMathematical analysisPopulationLong-time behavior of solutionsWeak competitionArbitrarily largeCompact spaceExponential growthPopulation modelEntropy (information theory)Global-in-time existence of weak solutionseducationPopulation equationsAnalysisMathematicsdescription
Abstract The global existence of non-negative weak solutions to a strongly coupled parabolic system arising in population dynamics is shown. The cross-diffusion terms are allowed to be arbitrarily large, whereas the self-diffusion terms are assumed to disappear. The last assumption complicates the analysis since these terms usually provide H 1 estimates of the solutions. The existence proof is based on a positivity-preserving backward Euler–Galerkin approximation, discrete entropy estimates, and L 1 weak compactness arguments. Furthermore, employing the entropy–entropy production method, we show for special stationary solutions that the transient solution converges exponentially fast to its steady state. As a by-product, we prove that only constant steady states exist if the inter-specific competition parameters disappear no matter how strong the cross-diffusion constants are.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2006-05-01 | Journal of Differential Equations |