Add to ORKGIn a recent study, a lower bound is established on the blow up time for solutions of a chemotaxis system, with nonlinear chemotactic sensitivity u(u+1)m−1, set in the three-dimensional unit ball. Here, u is the density of a cell or organism that produces a chemical, with density v, and moves preferentially toward regions of higher concentration of v according to the flux . With χ\u3e0, v is referred to as a “chemoattractant” and, in the case m=1, the system reduces to a version of the Keller–Segel model. Solutions that blow up in finite time have been previously established for the system on a ball in Rn provided n≥2, m\u3e2/n. For technical reasons, the lower bound proven for the blow up time applies in such cases when n=3and m≤2. We exten...
In this paper we study classical solutions to the zero–flux attraction–repulsion chemotaxis–system u...
This paper dealswith a parabolic–parabolic Keller–Segel-type systemin a bounded domain ofRN, fN D 2;...
In this paper we study classical solutions to the zero–flux attraction–repulsion chemotaxis–system u...
AbstractMany special cases of the classical Keller–Segel system for modeling chemotaxis have been in...
Many special cases of the classical Keller-Segel system for modeling chemotaxis have been investigat...
This paper deals with unbounded solutions to the following zero-flux chemotaxis system ut=∇⋅[(u+α)mj...
AbstractWe determine the critical blow-up exponent for a Keller–Segel-type chemotaxis model, where t...
This paper detects the lower bounds of blow-up time of smooth solutions for the chemotaxis model ...
AbstractThis paper deals with a chemotactic model of Keller–Segel type. The main feature of the Kell...
This paper detects the lower bounds of blow-up time of smooth solutions for the chemotaxis model ...
For a system of equations introduced by Jager and Luckhaus (1992) [6] as a model of chemotaxis, the ...
AbstractFor a system of equations introduced by Jäger and Luckhaus (1992) [6] as a model of chemotax...
This paper deals with a parabolic-parabolic Keller-Segel system, modeling chemotaxis, with time depe...
This paper deals with a parabolic-parabolic Keller-Segel system, modeling chemotaxis, with time depe...
AbstractWe determine the critical blow-up exponent for a Keller–Segel-type chemotaxis model, where t...
In this paper we study classical solutions to the zero–flux attraction–repulsion chemotaxis–system u...
This paper dealswith a parabolic–parabolic Keller–Segel-type systemin a bounded domain ofRN, fN D 2;...
In this paper we study classical solutions to the zero–flux attraction–repulsion chemotaxis–system u...
AbstractMany special cases of the classical Keller–Segel system for modeling chemotaxis have been in...
Many special cases of the classical Keller-Segel system for modeling chemotaxis have been investigat...
This paper deals with unbounded solutions to the following zero-flux chemotaxis system ut=∇⋅[(u+α)mj...
AbstractWe determine the critical blow-up exponent for a Keller–Segel-type chemotaxis model, where t...
This paper detects the lower bounds of blow-up time of smooth solutions for the chemotaxis model ...
AbstractThis paper deals with a chemotactic model of Keller–Segel type. The main feature of the Kell...
This paper detects the lower bounds of blow-up time of smooth solutions for the chemotaxis model ...
For a system of equations introduced by Jager and Luckhaus (1992) [6] as a model of chemotaxis, the ...
AbstractFor a system of equations introduced by Jäger and Luckhaus (1992) [6] as a model of chemotax...
This paper deals with a parabolic-parabolic Keller-Segel system, modeling chemotaxis, with time depe...
This paper deals with a parabolic-parabolic Keller-Segel system, modeling chemotaxis, with time depe...
AbstractWe determine the critical blow-up exponent for a Keller–Segel-type chemotaxis model, where t...
In this paper we study classical solutions to the zero–flux attraction–repulsion chemotaxis–system u...
This paper dealswith a parabolic–parabolic Keller–Segel-type systemin a bounded domain ofRN, fN D 2;...
In this paper we study classical solutions to the zero–flux attraction–repulsion chemotaxis–system u...