Flying insects are capable of vision-based navigation in cluttered environments, reliably avoiding obstacles through fast and agile maneuvers, while being very efficient in the processing of visual stimuli. Meanwhile, autonomous micro air vehicles still lag far behind their biological counterparts, displaying inferior performance at a much higher energy consumption. In light of this, we want to mimic flying insects in terms of their processing capabilities, and consequently show the efficiency of this approach in the real world. This letter does so through evolving spiking neural networks for controlling landings of micro air vehicles using optical flow divergence from a downward-looking camera. We demonstrate that the resulting neuromorphi...
We give an overview of the EPFL indoor flying project, whose goal is to evolve autonomous, adaptive,...
Flying robots are at the peak of attention when considering new approaches to search and rescue oper...
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP. Spatial vision in insects is facilitated by ...
Flying insects are capable of vision-based navigation in cluttered environments, reliably avoiding o...
Flying insects are capable of autonomous vision-based navigation in cluttered environments, reliably...
141 pagesRecent developments in manufacturing, processing capabilities, and sensor design point to a...
Automatic optimization of robotic behavior has been the long-standing goal of Evolutionary Robotics....
Autonomous flight for large aircraft appears to be within our reach. However, launching autonomous s...
We describe an incremental approach towards the development of autonomous indoor flyers that use onl...
International audienceWhen insects are flying forward, the image of the ground sweeps backward acros...
This paper addresses control surface segmentation in Micro Aerial Vehicles (MAVs) by leveraging neur...
The energy efficiency and flight endurance of small unmanned aerial vehicles (SUAVs) can be improved...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
Experimental results from insect biology suggest that in flies visual cues provide important informa...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
We give an overview of the EPFL indoor flying project, whose goal is to evolve autonomous, adaptive,...
Flying robots are at the peak of attention when considering new approaches to search and rescue oper...
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP. Spatial vision in insects is facilitated by ...
Flying insects are capable of vision-based navigation in cluttered environments, reliably avoiding o...
Flying insects are capable of autonomous vision-based navigation in cluttered environments, reliably...
141 pagesRecent developments in manufacturing, processing capabilities, and sensor design point to a...
Automatic optimization of robotic behavior has been the long-standing goal of Evolutionary Robotics....
Autonomous flight for large aircraft appears to be within our reach. However, launching autonomous s...
We describe an incremental approach towards the development of autonomous indoor flyers that use onl...
International audienceWhen insects are flying forward, the image of the ground sweeps backward acros...
This paper addresses control surface segmentation in Micro Aerial Vehicles (MAVs) by leveraging neur...
The energy efficiency and flight endurance of small unmanned aerial vehicles (SUAVs) can be improved...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
Experimental results from insect biology suggest that in flies visual cues provide important informa...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
We give an overview of the EPFL indoor flying project, whose goal is to evolve autonomous, adaptive,...
Flying robots are at the peak of attention when considering new approaches to search and rescue oper...
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP. Spatial vision in insects is facilitated by ...