A system is described that measures, with a sampling frequency of 1 kHz, the orientation and position of a blowfly (Calliphora vicina) flying in a volume of 0.4×0.4×0.4 m 3. Orientation is measured with a typical accuracy of 0.5°, and position with a typical accuracy of 1 mm. This is accomplished by producing a time-varying magnetic field with three orthogonal pairs of field coils, driven sinusoidally at frequencies of 50, 68, and 86 kHz, respectively. Each pair induces a voltage at the corresponding frequency in each of three miniature orthogonal sensor coils mounted on the animal. The sensor coils are connected via thin (12 μm) wires to a set of 9 lock-in amplifiers, each locking to one of the three field frequencies. Two of the pairs of ...
Positional information is required in solving orientation tasks. In open loop experiments it was fou...
Background: The nervous functions of an organism are primarily reflected in the behavior it is capab...
Abstract—Autopilots for micro aerial vehicles (MAVs) with a maximum permissible avionic payload of o...
A system is described that measures, with a sampling frequency of 1 kHz, the orientation and positio...
A system is described that measures, with a sampling frequency of 1 kHz, the orientation and positio...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) was meas...
In this thesis eye movements of walking and flying blowflies are studied in detail. Eye movements of...
The article introduces a novel system for measuring locomotive response of small animals (specifical...
To discover general principles of biological sensorimotor control, insects have become remarkably su...
International audienceHere we describe a new sensor designed to ensure the non contact stabilization...
We present a method to record and simultaneously display the three rotatory components of arbitrary ...
Abstract—Four prototypes of biomimetic sensors have been designed and implemented for flight control...
Described is a design for easy-to-construct apparatus that measures movement of flying insects suita...
To pursue a more mechanistic understanding of the neural control of behavior, many neuroethologists ...
Positional information is required in solving orientation tasks. In open loop experiments it was fou...
Background: The nervous functions of an organism are primarily reflected in the behavior it is capab...
Abstract—Autopilots for micro aerial vehicles (MAVs) with a maximum permissible avionic payload of o...
A system is described that measures, with a sampling frequency of 1 kHz, the orientation and positio...
A system is described that measures, with a sampling frequency of 1 kHz, the orientation and positio...
The position and orientation of the thorax and head of flying blowflies (Calliphora vicina) was meas...
In this thesis eye movements of walking and flying blowflies are studied in detail. Eye movements of...
The article introduces a novel system for measuring locomotive response of small animals (specifical...
To discover general principles of biological sensorimotor control, insects have become remarkably su...
International audienceHere we describe a new sensor designed to ensure the non contact stabilization...
We present a method to record and simultaneously display the three rotatory components of arbitrary ...
Abstract—Four prototypes of biomimetic sensors have been designed and implemented for flight control...
Described is a design for easy-to-construct apparatus that measures movement of flying insects suita...
To pursue a more mechanistic understanding of the neural control of behavior, many neuroethologists ...
Positional information is required in solving orientation tasks. In open loop experiments it was fou...
Background: The nervous functions of an organism are primarily reflected in the behavior it is capab...
Abstract—Autopilots for micro aerial vehicles (MAVs) with a maximum permissible avionic payload of o...