Add to ORKGA terrestrial robotic electrophysiology platform has been developed that can hold a moth (Manduca sexta), record signals from its brain or muscles, and use these signals to control the rotation of the robot. All signal processing (electrophysiology, spike detection, and robotic control) was performed onboard the robot with custom designed electronic circuits. Wireless telemetry allowed remote communication with the robot. In this study, we interfaced directionally-sensitive visual neurons and pleurodorsal steering muscles of the mesothorax with the robot and used the spike rate of these signals to control its rotation, thereby emulating the classical optomotor response known from studies of the fly visual system. The interfacing of insect a...
Flying insects have evolved to develop efficient strategies to navigate in natural environments. Yet...
The insect-machine interface (IMI) is a novel approach developed for man-made air vehicles, which di...
Vision dominates perception research in robotics and biology, but for many animals, it is not the do...
We present details of a novel bioelectric interface formed by placing microfabricated probes into in...
Controlled by neurons, muscles are actuated to do mechanical work by converting chemical energy into...
International audienceEquipped with a less-than-one-milligram brain, insects fly autonomously in com...
Simple to complex behaviors are directed by the brain, which possess nervous cells, called neurons. ...
In this paper, the pheromone-oriented behavior of moths will be demonstrated by synthesis with biose...
International audienceSimple to complex behaviors are directed by the brain, which possess nervous c...
Extensive studies about neural mechanisms involved in insect flight control have been carried out. ...
To pursue a more mechanistic understanding of the neural control of behavior, many neuroethologists ...
Flying insects are remarkable examples of sophisticated sensory-motor control systems. Insects have ...
Some researchers have long been interested in reconstructing natural insects into steerable robots o...
We report the first remote flight control of an insect using microfabricated flexible neuroprostheti...
Abstract Introduction Insect cyborg is a kind of novel robot based on insect–machine interface and p...
Flying insects have evolved to develop efficient strategies to navigate in natural environments. Yet...
The insect-machine interface (IMI) is a novel approach developed for man-made air vehicles, which di...
Vision dominates perception research in robotics and biology, but for many animals, it is not the do...
We present details of a novel bioelectric interface formed by placing microfabricated probes into in...
Controlled by neurons, muscles are actuated to do mechanical work by converting chemical energy into...
International audienceEquipped with a less-than-one-milligram brain, insects fly autonomously in com...
Simple to complex behaviors are directed by the brain, which possess nervous cells, called neurons. ...
In this paper, the pheromone-oriented behavior of moths will be demonstrated by synthesis with biose...
International audienceSimple to complex behaviors are directed by the brain, which possess nervous c...
Extensive studies about neural mechanisms involved in insect flight control have been carried out. ...
To pursue a more mechanistic understanding of the neural control of behavior, many neuroethologists ...
Flying insects are remarkable examples of sophisticated sensory-motor control systems. Insects have ...
Some researchers have long been interested in reconstructing natural insects into steerable robots o...
We report the first remote flight control of an insect using microfabricated flexible neuroprostheti...
Abstract Introduction Insect cyborg is a kind of novel robot based on insect–machine interface and p...
Flying insects have evolved to develop efficient strategies to navigate in natural environments. Yet...
The insect-machine interface (IMI) is a novel approach developed for man-made air vehicles, which di...
Vision dominates perception research in robotics and biology, but for many animals, it is not the do...