In this thesis eye movements of walking and flying blowflies are studied in detail. Eye movements of small insects are difficult to measure with a spatio-temporal accuracy comparable with that of the eyes, and current video techniques do not allow an accurate reconstruction of the visual input. In this thesis an existing technique is used, based on search-coils in magnetic fields, which can measure eye movements with a spatio-temporal accuracy comparable to that of the eyes. ... Zie: Samenvatting
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) were mea...
Dragonflies make their living by foraging on flying insects. We used two approaches to study their p...
Positional information is required in solving orientation tasks. In open loop experiments it was fou...
In this thesis eye movements of walking and flying blowflies are studied in detail. Eye movements of...
Flying insects, like many other animals that rely on their sense of vision to guide behaviour, have ...
A system is described that measures, with a sampling frequency of 1 kHz, the orientation and positio...
Flying blowflies shift their gaze by saccadic turns of body and head, keeping their gaze basically f...
Egelhaaf M, Kern R. Vision in flying insects. Current opinion in neurobiology. 2002;12(6):699-706.Vi...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
The stabilization of gaze may involve multiple sensory systems. In blowflies, the reflex depends on ...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
With their relatively simple nervous systems and purpose-designed behaviors and reflexes, insects ar...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) was meas...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) were mea...
The optokinetic nystagmus is a gaze-stabilizing mechanism reducing motion blur by rapid eye rotation...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) were mea...
Dragonflies make their living by foraging on flying insects. We used two approaches to study their p...
Positional information is required in solving orientation tasks. In open loop experiments it was fou...
In this thesis eye movements of walking and flying blowflies are studied in detail. Eye movements of...
Flying insects, like many other animals that rely on their sense of vision to guide behaviour, have ...
A system is described that measures, with a sampling frequency of 1 kHz, the orientation and positio...
Flying blowflies shift their gaze by saccadic turns of body and head, keeping their gaze basically f...
Egelhaaf M, Kern R. Vision in flying insects. Current opinion in neurobiology. 2002;12(6):699-706.Vi...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
The stabilization of gaze may involve multiple sensory systems. In blowflies, the reflex depends on ...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
With their relatively simple nervous systems and purpose-designed behaviors and reflexes, insects ar...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) was meas...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) were mea...
The optokinetic nystagmus is a gaze-stabilizing mechanism reducing motion blur by rapid eye rotation...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) were mea...
Dragonflies make their living by foraging on flying insects. We used two approaches to study their p...
Positional information is required in solving orientation tasks. In open loop experiments it was fou...