Event cameras offer many advantages over standard frame-based cameras, such as low latency, high temporal resolution, and a high dynamic range. They respond to pixel- level brightness changes and, therefore, provide a sparse output. However, in textured scenes with rapid motion, millions of events are generated per second. Therefore, state- of-the-art event-based algorithms either require massive parallel computation (e.g., a GPU) or depart from the event-based processing paradigm. Inspired by frame-based pre-processing techniques that reduce an image to a set of features, which are typically the input to higher-level algorithms, we propose a method to reduce an event stream to a corner event stream. Our goal is twofold: extract relevant tr...
Event cameras are bio-inspired sensors that differ from conventional frame cameras: Instead of captu...
Event cameras are bio-inspired sensors that work radically different from traditional cameras. Inste...
Cameras are appealing sensors for mobile robots because they are small, passive, inexpensive and pro...
Event cameras offer many advantages over standard frame-based cameras, such as low latency, high tem...
We propose a learning approach to corner detection for event-based cameras that is stable even under...
Event-based cameras are vision devices that transmit only brightness changes with low latency and ul...
Event cameras, i.e., the Dynamic and Active-pixel Vision Sensor (DAVIS) ones, capture the intensity ...
Traditional frame-based cameras have become the de facto sensor of choice for a multitude of applica...
Corner detection is widely used as a pre-processing step for many computer vision (CV) problems. It ...
Abstract Where feature points are used in real-time frame-rate applications, a high-speed feature de...
Spatial convolution is arguably the most fundamental of two-dimensional image processing operations....
Recently, the event camera has become a popular and promising vision sensor in the research of simul...
Unlike standard cameras that send intensity images at a constant frame rate, event-driven cameras as...
Fast corner-detector algorithms are important for achieving real time in different computer vision a...
Corner feature point detection with both the high-speed and high-quality is still very demanding for...
Event cameras are bio-inspired sensors that differ from conventional frame cameras: Instead of captu...
Event cameras are bio-inspired sensors that work radically different from traditional cameras. Inste...
Cameras are appealing sensors for mobile robots because they are small, passive, inexpensive and pro...
Event cameras offer many advantages over standard frame-based cameras, such as low latency, high tem...
We propose a learning approach to corner detection for event-based cameras that is stable even under...
Event-based cameras are vision devices that transmit only brightness changes with low latency and ul...
Event cameras, i.e., the Dynamic and Active-pixel Vision Sensor (DAVIS) ones, capture the intensity ...
Traditional frame-based cameras have become the de facto sensor of choice for a multitude of applica...
Corner detection is widely used as a pre-processing step for many computer vision (CV) problems. It ...
Abstract Where feature points are used in real-time frame-rate applications, a high-speed feature de...
Spatial convolution is arguably the most fundamental of two-dimensional image processing operations....
Recently, the event camera has become a popular and promising vision sensor in the research of simul...
Unlike standard cameras that send intensity images at a constant frame rate, event-driven cameras as...
Fast corner-detector algorithms are important for achieving real time in different computer vision a...
Corner feature point detection with both the high-speed and high-quality is still very demanding for...
Event cameras are bio-inspired sensors that differ from conventional frame cameras: Instead of captu...
Event cameras are bio-inspired sensors that work radically different from traditional cameras. Inste...
Cameras are appealing sensors for mobile robots because they are small, passive, inexpensive and pro...