Individual-based models of schooling in fish have demonstrated that, via processes of self-organization. artificial fish may school in the absence of a leader or external stimuli, using local information only. We study for the first time how body size and body form of artificial fish affect school formation in such a model. For a variety of group sizes we describe how school characteristics (i.e., group form, spread, density, polarization, turning rate, and speed) depend on body, characteristics. Furthermore, we demonstrate that the nearest neighbor distance and turning rate of individuals are different for different regions in the group, although the agents are completely identical. Our approach shows the significance of both self-organiza...
The main benefit of the oblong shape of schools of fish is supposed to be the protection against pre...
In fish schools the density varies per location and often individuals are sorted according to famili...
AbstractCollective behaviour has been studied in various fields of science. As an example, we may co...
Individual-based models of schooling in fish have demonstrated that, via processes of self-organizat...
Individual-based models of schooling in fish have demonstrated that, via processes of self-organizat...
Agent-based models have shown that local interactions between identical agents can, through self-org...
The main benefit of the oblong shape of schools of fish is supposed to be the protection against pre...
Individual-based models have shown that simple interactions among moving individuals (repulsion, att...
Models of swarming (based on avoidance, alignment and attraction) produce patterns of behaviour also...
In fish schools the density varies per location and often individuals are sorted according to famili...
In fish schools the density varies per location and often individuals are sorted according to famili...
International audienceIn moving animal groups, social interactions play a key role in the ability of...
While a rich variety of self-propelled particle models propose to explain the collective motion of f...
Fish schooling is a phenomenon of long-lasting interest in ethology and ecology, widely spread acros...
The main benefit of the oblong shape of schools of fish is supposed to be the protection against pre...
In fish schools the density varies per location and often individuals are sorted according to famili...
AbstractCollective behaviour has been studied in various fields of science. As an example, we may co...
Individual-based models of schooling in fish have demonstrated that, via processes of self-organizat...
Individual-based models of schooling in fish have demonstrated that, via processes of self-organizat...
Agent-based models have shown that local interactions between identical agents can, through self-org...
The main benefit of the oblong shape of schools of fish is supposed to be the protection against pre...
Individual-based models have shown that simple interactions among moving individuals (repulsion, att...
Models of swarming (based on avoidance, alignment and attraction) produce patterns of behaviour also...
In fish schools the density varies per location and often individuals are sorted according to famili...
In fish schools the density varies per location and often individuals are sorted according to famili...
International audienceIn moving animal groups, social interactions play a key role in the ability of...
While a rich variety of self-propelled particle models propose to explain the collective motion of f...
Fish schooling is a phenomenon of long-lasting interest in ethology and ecology, widely spread acros...
The main benefit of the oblong shape of schools of fish is supposed to be the protection against pre...
In fish schools the density varies per location and often individuals are sorted according to famili...
AbstractCollective behaviour has been studied in various fields of science. As an example, we may co...