Article

A hybrid variational principle for the Keller–Segel system in R2

Adrien Blanchet, José Antonio Carrillo, David Kinderlehrer, Michal Kowalczyk, Philippe Laurençot et Stefano Lisini

Résumé

We construct weak global in time solutions to the classical Keller–Segel system describing cell movement by chemotaxis in two dimensions when the total mass is below the established critical value. Our construction takes advantage of the fact that the Keller–Segel system can be realized as a gradient flow in a suitable functional product space. This allows us to employ a hybrid variational principle which is a generalisation of the minimizing implicit scheme for Wasserstein distances introduced by [R. Jordan, D. Kinderlehrer and F. Otto, SIAM J. Math. Anal. 29 (1998) 1–17].

Mots-clés

Chemotaxis; Keller–Segel model; minimizing scheme; Kantorovich–Rubinstein–Wasserstein distance;

Référence

Adrien Blanchet, José Antonio Carrillo, David Kinderlehrer, Michal Kowalczyk, Philippe Laurençot et Stefano Lisini, « A hybrid variational principle for the Keller–Segel system in R2 », Mathematical Modelling and Numerical Analysis, vol. 49, n° 6, Nov. - Dec. 2015, p. 1553–1576.

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Publié dans

Mathematical Modelling and Numerical Analysis, vol. 49, n° 6, Nov. - Dec. 2015, p. 1553–1576