In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behaviour. Here it is hypothesised that the presence of a fluctuating environment drives the formation of transient, local order (synchronized subgroups), and that this local order pushes the swarm as a whole into a new state that is robust to environmental perturbations. The hypothesis finds support in a theoretical analysis and in an analysis of pre-existing telemetry data for swarming mosquitoes. I suggest that local order is sufficient to make swarms fault-tolerant and that the swarm state and structure may be tuneable with environmental noise as a control parameter. The new theory opens a window onto thermodynamic descriptions of swarm behavio...
Recent models from theoretical physics have predicted that mass-migrating animal groups may share gr...
<div><p>Locusts exhibit two interconvertible behavioral phases, solitarious and gregarious. While so...
We propose a simple adaptive-network model describing recent swarming experiments. Exploiting an ana...
In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behavi...
Collective behaviour is a widespread phenomenon in biology, cutting through a huge span of scales, f...
Collective behaviour is a widespread phenomenon in biology, cutting through a huge span of scales, f...
A grand challenge in the field of artificial life is to find a gen-eral theory of emergent self-orga...
We simulate the swarming behavior of three synthetic animal species that differ only by the degree o...
International audienceThe roots of swarm intelligence are deeply embedded in the biological study of...
Animals of all sizes form groups, as acting together can convey advantages over acting alone; thus, ...
Intrinsic stochasticity associated with finite population size is fundamental to the emergence of co...
A system is complex if it contains many interacting components. The motivation to study the properti...
Social animals commonly form aggregates that exhibit emergent collective behaviour, with group dynam...
In swarms of flying insects, the motions of individuals are largely uncoordinated with those of thei...
Swarming is a phenomenon where collective motion arises from simple local interactions between typic...
Recent models from theoretical physics have predicted that mass-migrating animal groups may share gr...
<div><p>Locusts exhibit two interconvertible behavioral phases, solitarious and gregarious. While so...
We propose a simple adaptive-network model describing recent swarming experiments. Exploiting an ana...
In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behavi...
Collective behaviour is a widespread phenomenon in biology, cutting through a huge span of scales, f...
Collective behaviour is a widespread phenomenon in biology, cutting through a huge span of scales, f...
A grand challenge in the field of artificial life is to find a gen-eral theory of emergent self-orga...
We simulate the swarming behavior of three synthetic animal species that differ only by the degree o...
International audienceThe roots of swarm intelligence are deeply embedded in the biological study of...
Animals of all sizes form groups, as acting together can convey advantages over acting alone; thus, ...
Intrinsic stochasticity associated with finite population size is fundamental to the emergence of co...
A system is complex if it contains many interacting components. The motivation to study the properti...
Social animals commonly form aggregates that exhibit emergent collective behaviour, with group dynam...
In swarms of flying insects, the motions of individuals are largely uncoordinated with those of thei...
Swarming is a phenomenon where collective motion arises from simple local interactions between typic...
Recent models from theoretical physics have predicted that mass-migrating animal groups may share gr...
<div><p>Locusts exhibit two interconvertible behavioral phases, solitarious and gregarious. While so...
We propose a simple adaptive-network model describing recent swarming experiments. Exploiting an ana...