In this article, we introduce and study a new nonlocal hyperbolic model for the formation and movement of animal aggregations. We assume that the nonlocal attractive, repulsive, and alignment interactions between individuals can influence both the speed and the turning rates of group members. We use analytical and numerical techniques to investigate the effect of these nonlocal interactions on the long-time behavior of the patterns exhibited by the model. We establish the local existence and uniqueness and show that the nonlinear hyperbolic system does not develop shock solutions (gradient blow-up). Depending on the relative magnitudes of attraction and repulsion, we show that the solutions of the model either exist globally in time or may ...
Abstract We construct a continuum model for biological aggregations in which in-dividuals experience...
In this study we start by reviewing a class of 1D hyperbolic/kinetic models (with two velocities) us...
Pattern formation in self-organized biological aggregation is a phenomenon that has been studied int...
In this article, we introduce and study a new nonlocal hyperbolic model for the formation and moveme...
We consider an one-dimensional nonlocal hyperbolic model for group formation with application to sel...
The formation, persistence and movement of self-organised biological aggregations are medi...
The study of self-organised collective animal behaviour, such as swarms of insects or schools of fis...
The modelling and investigation of complex spatial and spatio-temporal patterns exhibited by a vario...
We briefly review hyperbolic and kinetic models for self-organized biological aggregations and traff...
In this thesis, we study a nonlocal hyperbolic model for biological aggregations in one spatial dime...
This book focuses on the spatio-temporal patterns generated by two classes of mathematical models (o...
This book focuses on the spatio-temporal patterns generated by two classes of mathematical models (o...
Abstract We construct a continuum model for biological aggregations in which in-dividuals experience...
In this study we start by reviewing a class of 1D hyperbolic/kinetic models (with two velocities) us...
Pattern formation in self-organized biological aggregation is a phenomenon that has been studied int...
In this article, we introduce and study a new nonlocal hyperbolic model for the formation and moveme...
We consider an one-dimensional nonlocal hyperbolic model for group formation with application to sel...
The formation, persistence and movement of self-organised biological aggregations are medi...
The study of self-organised collective animal behaviour, such as swarms of insects or schools of fis...
The modelling and investigation of complex spatial and spatio-temporal patterns exhibited by a vario...
We briefly review hyperbolic and kinetic models for self-organized biological aggregations and traff...
In this thesis, we study a nonlocal hyperbolic model for biological aggregations in one spatial dime...
This book focuses on the spatio-temporal patterns generated by two classes of mathematical models (o...
This book focuses on the spatio-temporal patterns generated by two classes of mathematical models (o...
Abstract We construct a continuum model for biological aggregations in which in-dividuals experience...
In this study we start by reviewing a class of 1D hyperbolic/kinetic models (with two velocities) us...
Pattern formation in self-organized biological aggregation is a phenomenon that has been studied int...