International audienceReliable and fast sensing of the environment is a fundamental requirement for autonomous mobile robotic platforms. Unfortunately, the frame-based acquisition paradigm at the basis of main stream artificial perceptive systems is limited by low temporal dynamics and redundant data flow, leading to high computational costs. Hence, conventional sensing and relative computation are obviously incompatible with the design of high speed sensor-based reactive control for mobile applications, that pose strict limits on energy consumption and computational load. This paper introduces a fast obstacle avoidance method based on the output of an asynchronous event-based time encoded imaging sensor. The proposed method relies on an ev...
International audienceEvent cameras asynchronously report brightness changes with a temporal resolut...
Event cameras are bio-inspired sensors that work radically different from traditional cameras. Inste...
Vision-based autonomous navigation systems rely on fast and accurate object detection algorithms to ...
Reliable and fast sensing of the environment is a fundamental requirement for autonomous mobile robo...
A reliable and fast sensing of the environment is a fundamental necessity of mobile platforms. Unfor...
International audienceTime to Contact (TTC) is a biologically inspired method for obstacle detection...
Cameras are appealing sensors for mobile robots because they are small, passive, inexpensive and pro...
Humans are remarkable at navigating and moving through dynamic and complex spaces, such as crowded s...
Machine vision can give rich information about the environment. However, image processing usually de...
This paper presents an bio-inspired event-based perception scheme for agile aerial robot maneuvering...
The broad scope of obstacle avoidance has led to many kinds of computer vision-based approaches. Des...
Presentado al ECMR'09 celebrado en Croacia del 23 al 25 de septiembre.Time to Contact (TTC) is a bio...
This work discusses the use of optical flow to generate the sensorial information a mobile robot nee...
Today’s autonomous drones have reaction times of tens of milliseconds, which is not enough for navig...
Event-based cameras have an incredible potential in real-time and real-world robotics. They would en...
International audienceEvent cameras asynchronously report brightness changes with a temporal resolut...
Event cameras are bio-inspired sensors that work radically different from traditional cameras. Inste...
Vision-based autonomous navigation systems rely on fast and accurate object detection algorithms to ...
Reliable and fast sensing of the environment is a fundamental requirement for autonomous mobile robo...
A reliable and fast sensing of the environment is a fundamental necessity of mobile platforms. Unfor...
International audienceTime to Contact (TTC) is a biologically inspired method for obstacle detection...
Cameras are appealing sensors for mobile robots because they are small, passive, inexpensive and pro...
Humans are remarkable at navigating and moving through dynamic and complex spaces, such as crowded s...
Machine vision can give rich information about the environment. However, image processing usually de...
This paper presents an bio-inspired event-based perception scheme for agile aerial robot maneuvering...
The broad scope of obstacle avoidance has led to many kinds of computer vision-based approaches. Des...
Presentado al ECMR'09 celebrado en Croacia del 23 al 25 de septiembre.Time to Contact (TTC) is a bio...
This work discusses the use of optical flow to generate the sensorial information a mobile robot nee...
Today’s autonomous drones have reaction times of tens of milliseconds, which is not enough for navig...
Event-based cameras have an incredible potential in real-time and real-world robotics. They would en...
International audienceEvent cameras asynchronously report brightness changes with a temporal resolut...
Event cameras are bio-inspired sensors that work radically different from traditional cameras. Inste...
Vision-based autonomous navigation systems rely on fast and accurate object detection algorithms to ...