Add to ORKGWe present a unifying framework to solve several computer vision problems with event cameras: motion, depth and optical flow estimation. The main idea of our framework is to find the point trajectories on the image plane that are best aligned with the event data by maximizing an objective function: the contrast of an image of warped events. Our method implicitly handles data association between the events, and therefore, does not rely on additional appearance information about the scene. In addition to accurately recovering the motion parameters of the problem, our framework produces motion-corrected edge-like images with high dynamic range that can be used for further scene analysis. The proposed method is not only simple, but more importa...
Event-Based cameras, also known as neuromophic cameras or dynamic vision sensors, are an imaging mod...
We propose to incorporate feature correlation and sequential processing into dense optical flow esti...
Optical flow (OF) which refers to the task of determining the apparent motion of objects in the scen...
We present a unifying framework to solve several computer vision problems with event cameras: motion...
Event cameras are bio-inspired sensors that perform well in challenging illumination conditions and ...
Contrast maximisation estimates the motion captured in an event stream by maximising the sharpness o...
Event cameras are bio-inspired sensors that have a high dynamic range and temporal resolution. This ...
In this thesis, we employ optical flow features for the detection of the rigid or non‐rigid single o...
Event cameras are novel bio-inspired sensors which mimic the function of the human retina. Rather th...
We present an algorithm to estimate the rotational motion of an event camera. In contrast to traditi...
Analysing objects interacting in a 3D environment and captured by a video camera requires knowledge ...
We propose a novel Entropy Minimisation (EMin) frame-work for event-based vision model estimation. T...
International audienceIn this paper we consider the problem of estimating a 3D motion field using mu...
Event cameras, such as the Dynamic Vision Sensor (DVS), are bio-inspired vision sensors that output ...
In contrast to traditional cameras, whose pixels have a common exposure time, event-based cameras ar...
Event-Based cameras, also known as neuromophic cameras or dynamic vision sensors, are an imaging mod...
We propose to incorporate feature correlation and sequential processing into dense optical flow esti...
Optical flow (OF) which refers to the task of determining the apparent motion of objects in the scen...
We present a unifying framework to solve several computer vision problems with event cameras: motion...
Event cameras are bio-inspired sensors that perform well in challenging illumination conditions and ...
Contrast maximisation estimates the motion captured in an event stream by maximising the sharpness o...
Event cameras are bio-inspired sensors that have a high dynamic range and temporal resolution. This ...
In this thesis, we employ optical flow features for the detection of the rigid or non‐rigid single o...
Event cameras are novel bio-inspired sensors which mimic the function of the human retina. Rather th...
We present an algorithm to estimate the rotational motion of an event camera. In contrast to traditi...
Analysing objects interacting in a 3D environment and captured by a video camera requires knowledge ...
We propose a novel Entropy Minimisation (EMin) frame-work for event-based vision model estimation. T...
International audienceIn this paper we consider the problem of estimating a 3D motion field using mu...
Event cameras, such as the Dynamic Vision Sensor (DVS), are bio-inspired vision sensors that output ...
In contrast to traditional cameras, whose pixels have a common exposure time, event-based cameras ar...
Event-Based cameras, also known as neuromophic cameras or dynamic vision sensors, are an imaging mod...
We propose to incorporate feature correlation and sequential processing into dense optical flow esti...
Optical flow (OF) which refers to the task of determining the apparent motion of objects in the scen...