Event camera is a novel bio-inspired vision sensor that outputs event stream. In this paper, we propose a novel data fusion algorithm called EAS to fuse conventional intensity images with the event stream. The fusion result is applied to some ego-motion estimation frameworks, and is evaluated on a public dataset acquired in dim scenes. In our 3-DoF rotation estimation framework, EAS achieves the highest estimation accuracy among intensity images and representations of events including event slice, TS and SITS. Compared with original images, EAS reduces the average APE by 69%, benefiting from the inclusion of more features for tracking. The result shows that our algorithm effectively leverages the high dynamic range of event cameras to impro...
New vision sensors, such as the dynamic and active-pixel vision sensor (DAVIS), incorporate a conven...
How can we distinguish the scene motion from the camera motion? In most of the computer vision appli...
Event cameras are bio-inspired sensors that differ from conventional frame cameras: Instead of captu...
Event cameras are bioinspired vision sensors that output pixel-level brightness changes instead of s...
In this paper we present a method for fusing optical flow and inertial measurements. To this end, we...
Computer vision has been dominated by classical, CMOS frame-based imaging sensors for many years. Ye...
We present EVO, an Event-based Visual Odometry algorithm. Our algorithm successfully leverages the o...
Motion estimation is considered essential for many applications such as robotics, automation, and au...
Robotic vision algorithms have become widely used in many consumer products which enabled technolog...
In the field of automotive engineering, the estimation of ego-motion plays an important role in robo...
We present an algorithm to estimate the rotational motion of an event camera. In contrast to traditi...
Event cameras are novel bio-inspired sensors which mimic the function of the human retina. Rather th...
Event cameras are bioinspired vision sensors that output pixel-level brightness changes instead of s...
In this paper, a simple and robust method to recover ego-motion from a RGB-D camera is proposed. Fo...
We present the first event-based learning approach for motion segmentation in indoor scenes and the ...
New vision sensors, such as the dynamic and active-pixel vision sensor (DAVIS), incorporate a conven...
How can we distinguish the scene motion from the camera motion? In most of the computer vision appli...
Event cameras are bio-inspired sensors that differ from conventional frame cameras: Instead of captu...
Event cameras are bioinspired vision sensors that output pixel-level brightness changes instead of s...
In this paper we present a method for fusing optical flow and inertial measurements. To this end, we...
Computer vision has been dominated by classical, CMOS frame-based imaging sensors for many years. Ye...
We present EVO, an Event-based Visual Odometry algorithm. Our algorithm successfully leverages the o...
Motion estimation is considered essential for many applications such as robotics, automation, and au...
Robotic vision algorithms have become widely used in many consumer products which enabled technolog...
In the field of automotive engineering, the estimation of ego-motion plays an important role in robo...
We present an algorithm to estimate the rotational motion of an event camera. In contrast to traditi...
Event cameras are novel bio-inspired sensors which mimic the function of the human retina. Rather th...
Event cameras are bioinspired vision sensors that output pixel-level brightness changes instead of s...
In this paper, a simple and robust method to recover ego-motion from a RGB-D camera is proposed. Fo...
We present the first event-based learning approach for motion segmentation in indoor scenes and the ...
New vision sensors, such as the dynamic and active-pixel vision sensor (DAVIS), incorporate a conven...
How can we distinguish the scene motion from the camera motion? In most of the computer vision appli...
Event cameras are bio-inspired sensors that differ from conventional frame cameras: Instead of captu...