Although flying insects have limited visual acuity (approx. 1°) and relatively small brains, many species pursue tiny targets against cluttered backgrounds with high success. Our previous computational model, inspired by electrophysiological recordings from insect ‘small target motion detector’(STMD) neurons, did not account for several key properties described from the biological system. These include the recent observations of response ‘facilitation’ (a slow build-up of response to targets that move on long, continuous trajectories) and ‘selective attention’, a competitive mechanism that selects one target from alternatives. Here, we present an elaborated STMD-inspired model, implemented in a closed loop target-tracking system that uses a...
Extent: 29p.Dragonflies detect and pursue targets such as other insects for feeding and conspecific ...
Aerial predators, such as the dragonfly, determine the position and movement of their prey even when...
We present a computational model for target discrimination based on intracellular recordings from ne...
Although flying insects have limited visual acuity (approx. 1°) and relatively small brains, many sp...
Many species of flying insects detect and chase prey or conspecifics within a visually cluttered sur...
Objective. Many computer vision and robotic applications require the implementation of robust and ef...
Vision is an important sensory modality for many animals and a useful source of information for arti...
Flying insects are valuable animal models for elucidating computational processes underlying visual ...
Despite being equipped with low-resolution eyes and tiny brains, many insects show exquisite abiliti...
Target tracking is a complicated task from an engineering perspective, especially where targets are ...
Dragonflies are masters of visually guided aerial pursuit. Their visual systems overcome the challen...
Flying insects chase prey and mates, skillfully exhibiting their ability to detect, track and pursue...
Many animals visualize and track small moving targets at long distances—be they prey, approaching pr...
Many insects are able to detect, isolate and track small targets that move quickly against a dynamic...
This is the final version of the article. It first appeared from Elsevier via https://doi.org/10.101...
Extent: 29p.Dragonflies detect and pursue targets such as other insects for feeding and conspecific ...
Aerial predators, such as the dragonfly, determine the position and movement of their prey even when...
We present a computational model for target discrimination based on intracellular recordings from ne...
Although flying insects have limited visual acuity (approx. 1°) and relatively small brains, many sp...
Many species of flying insects detect and chase prey or conspecifics within a visually cluttered sur...
Objective. Many computer vision and robotic applications require the implementation of robust and ef...
Vision is an important sensory modality for many animals and a useful source of information for arti...
Flying insects are valuable animal models for elucidating computational processes underlying visual ...
Despite being equipped with low-resolution eyes and tiny brains, many insects show exquisite abiliti...
Target tracking is a complicated task from an engineering perspective, especially where targets are ...
Dragonflies are masters of visually guided aerial pursuit. Their visual systems overcome the challen...
Flying insects chase prey and mates, skillfully exhibiting their ability to detect, track and pursue...
Many animals visualize and track small moving targets at long distances—be they prey, approaching pr...
Many insects are able to detect, isolate and track small targets that move quickly against a dynamic...
This is the final version of the article. It first appeared from Elsevier via https://doi.org/10.101...
Extent: 29p.Dragonflies detect and pursue targets such as other insects for feeding and conspecific ...
Aerial predators, such as the dragonfly, determine the position and movement of their prey even when...
We present a computational model for target discrimination based on intracellular recordings from ne...