There is evidence that flying animals such as pigeons, goshawks, and bats use optical flow sensing to enable high-speed flight through forest clutter. This paper discusses the elements of a theory of controlled flight through obstacle fields in which motion control laws are based on optical flow sensing. Performance comparison is made with feedback laws that use distance and bearing measurements, and practical challenges of implementation on an actual robotic air vehicle are described. The related question of fundamental performance limits due to clutter density is addressed
International audienceWhen insects or pilots are flying forward, the image of the environment sweeps...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
The movements of birds, bats, and other flying species are governed by complex sensorimotor systems ...
There is evidence that flying animals such as pigeons, goshawks, and bats use optical flow sensing t...
International audienceFlying insects and birds are able to fly smartly in an unpredictable environme...
Chapter 19: Aerial Navigation and Optic Flow Sensing: A Biorobotic Approach / Nicolas Franceschini, ...
International audienceWhen insects are flying forward, the image of the ground sweeps backward acros...
There is increased interest in new classes of mini- and rnicro-UAVs with sizes ranging from one metr...
Insects can smoothly control their height while flying by adjusting lift to maintain a set-point in ...
The movements of birds, bats, and other flying species are governed by complex sensorimotor systems ...
Unmanned Micro Aerial Vehicles (MAVs) have the potential to operate in diverse environments but are ...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
International audienceWhen insects are flying forward, the image of the environment sweeps backward ...
Flight through cluttered environments, such as forests, poses great challenges for animals and machi...
There is increased interest in new classes of mini- and micro-UAVs with sizes ranging from one meter...
International audienceWhen insects or pilots are flying forward, the image of the environment sweeps...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
The movements of birds, bats, and other flying species are governed by complex sensorimotor systems ...
There is evidence that flying animals such as pigeons, goshawks, and bats use optical flow sensing t...
International audienceFlying insects and birds are able to fly smartly in an unpredictable environme...
Chapter 19: Aerial Navigation and Optic Flow Sensing: A Biorobotic Approach / Nicolas Franceschini, ...
International audienceWhen insects are flying forward, the image of the ground sweeps backward acros...
There is increased interest in new classes of mini- and rnicro-UAVs with sizes ranging from one metr...
Insects can smoothly control their height while flying by adjusting lift to maintain a set-point in ...
The movements of birds, bats, and other flying species are governed by complex sensorimotor systems ...
Unmanned Micro Aerial Vehicles (MAVs) have the potential to operate in diverse environments but are ...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
International audienceWhen insects are flying forward, the image of the environment sweeps backward ...
Flight through cluttered environments, such as forests, poses great challenges for animals and machi...
There is increased interest in new classes of mini- and micro-UAVs with sizes ranging from one meter...
International audienceWhen insects or pilots are flying forward, the image of the environment sweeps...
International audienceWhen insects are flying forwards, the image of the ground sweeps backwards acr...
The movements of birds, bats, and other flying species are governed by complex sensorimotor systems ...