The `tipping point' phenomenon is discussed as a mathematical object, and related to the behaviour of non-linear discontinuity waves in the dynamics of topical sociological and biological problems. The theory of such waves is applied to two illustrative systems in particular: a crowd-continuum model of pedestrian (or traffic) flow; and an hyperbolic reaction-diffusion model for the spread of the hantavirus infection (a disease carried by rodents). In the former, we analyse propagating acceleration waves, demonstrating how blow-up of the wave amplitude might indicate formation of a `human-shock', that is, a `tipping point' transition between safe pedestrian flow, and a state of overcrowding. While in the latter, we examine how travelling wav...
Many aspects of pedestrian dynamics can be described using natural scientific concepts, like flow, d...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
In this paper we present the macroscopic model for pedestrian flows pro-posed by Colombo and Rosini ...
Invasion processes are ubiquitous throughout cell biology and ecology. During invasion, individuals ...
Invasion processes are ubiquitous throughout cell biology and ecology. During invasion, individuals ...
The use of discontinuity surface propagation (e.g. shock waves and acceleration waves) is well known...
In this paper we give an overview of some recent results concerning partial differential equations m...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...
Stop-and-go waves are commonly observed in traffic and pedestrian flows. In traffic theory they are ...
Invasion processes are ubiquitous throughout cell biology and ecology. During invasion, individuals\...
Planning public buildings for emergencies following natural or manmade disasters is a great challeng...
Stop-and-go waves, also called phantom jams, are often observed in real traffic flows but can be pro...
Force-based models describe pedestrian dynamics in analogy to classical mechanics by a system of sec...
The dynamic of pedestrians finds a multitude of interesting and safety-critical applications in the ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Many aspects of pedestrian dynamics can be described using natural scientific concepts, like flow, d...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
In this paper we present the macroscopic model for pedestrian flows pro-posed by Colombo and Rosini ...
Invasion processes are ubiquitous throughout cell biology and ecology. During invasion, individuals ...
Invasion processes are ubiquitous throughout cell biology and ecology. During invasion, individuals ...
The use of discontinuity surface propagation (e.g. shock waves and acceleration waves) is well known...
In this paper we give an overview of some recent results concerning partial differential equations m...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...
Stop-and-go waves are commonly observed in traffic and pedestrian flows. In traffic theory they are ...
Invasion processes are ubiquitous throughout cell biology and ecology. During invasion, individuals\...
Planning public buildings for emergencies following natural or manmade disasters is a great challeng...
Stop-and-go waves, also called phantom jams, are often observed in real traffic flows but can be pro...
Force-based models describe pedestrian dynamics in analogy to classical mechanics by a system of sec...
The dynamic of pedestrians finds a multitude of interesting and safety-critical applications in the ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Many aspects of pedestrian dynamics can be described using natural scientific concepts, like flow, d...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
In this paper we present the macroscopic model for pedestrian flows pro-posed by Colombo and Rosini ...