Representing the majority of living animals, insects are the most ubiquitous biological organisms on Earth. Being able to simulate insect swarms could enhance visual realism of various graphical applications. However, the very complex nature of insect behaviors makes its simulation a challenging computational problem. To address this, we present a general biologically-inspired framework for visual simulation of insect swarms. Our approach is inspired by the observation that insects exhibit emergent behaviors at various scales in nature. At the low level, our framework automatically selects and configures the most suitable steering algorithm for the local collision avoidance task. At the intermediate level, it processes insect trajectories i...
International audienceA multiscale model was developed to simulate the rate of landing of a winged i...
AbstractBackground: An animal's behavioral strategies are often constrained by its evolutionary hist...
International audienceFlying insects rely on Optic Flow (OF) cues to avoid collisions, control their...
We present a biologically plausible dynamics model to simulate swarms of flying insects. Our formula...
Figure 1: A variety of insect swarms can be simulated by our approach: (left) a large swarm of migra...
Insect swarms are common phenomena in nature and therefore have been actively pursued in computer an...
We simulate the swarming behavior of three synthetic animal species that differ only by the degree o...
Insects are common in our world, such as ants, spiders, cockroaches etc. Virtual representations of ...
In recent years, complex systems techniques for modelling biological systems (plants, cells genes an...
Through evolution, insects have obtained magnificent skills to fly and navigate through cluttered en...
<div><p>Avoiding collisions is one of the most basic needs of any mobile agent, both biological and ...
Insect behaviour has been a rich source of inspiration for the field of robotics as the perception a...
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP. Spatial vision in insects is facilitated by ...
Visually guided navigation presents the perfect arena for studying the relationship between brain, b...
Insect behaviour has been a rich source of inspiration for the field of robotics as the perception a...
International audienceA multiscale model was developed to simulate the rate of landing of a winged i...
AbstractBackground: An animal's behavioral strategies are often constrained by its evolutionary hist...
International audienceFlying insects rely on Optic Flow (OF) cues to avoid collisions, control their...
We present a biologically plausible dynamics model to simulate swarms of flying insects. Our formula...
Figure 1: A variety of insect swarms can be simulated by our approach: (left) a large swarm of migra...
Insect swarms are common phenomena in nature and therefore have been actively pursued in computer an...
We simulate the swarming behavior of three synthetic animal species that differ only by the degree o...
Insects are common in our world, such as ants, spiders, cockroaches etc. Virtual representations of ...
In recent years, complex systems techniques for modelling biological systems (plants, cells genes an...
Through evolution, insects have obtained magnificent skills to fly and navigate through cluttered en...
<div><p>Avoiding collisions is one of the most basic needs of any mobile agent, both biological and ...
Insect behaviour has been a rich source of inspiration for the field of robotics as the perception a...
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP. Spatial vision in insects is facilitated by ...
Visually guided navigation presents the perfect arena for studying the relationship between brain, b...
Insect behaviour has been a rich source of inspiration for the field of robotics as the perception a...
International audienceA multiscale model was developed to simulate the rate of landing of a winged i...
AbstractBackground: An animal's behavioral strategies are often constrained by its evolutionary hist...
International audienceFlying insects rely on Optic Flow (OF) cues to avoid collisions, control their...