Due to their wide field of view, omnidirectional cameras are frequently used by autonomous vehicles, drones and robots for navigation and other computer vision tasks. The images captured by such cameras, are often analyzed and classified with techniques designed for planar images that unfortunately fail to properly handle the native geometry of such images and therefore results in suboptimal performance. In this paper we aim at improving popular deep convolutional neural networks so that they can properly take into account the specific properties of omnidirectional data. In particular we propose an algorithm that adapts convolutional layers, which often serve as a core building block of a CNN, to the properties of omnidirectional images. Th...
Omnidirectional cameras for computer vision and robotics are becoming increasingly widespread. Indee...
With 360 imaging devices becoming widely accessible, omnidirectional content has gained popularity i...
In this thesis, we develop new image processing tools suited to omnidirectional vision. These new to...
International audienceOmnidirectional images have drawn great research attention recently thanks to ...
International audienceState-of-the-art 2D image compression schemes rely on the power of convolution...
Omnidirectional cameras are widely used in such areas as robotics and virtual reality as they provid...
State-of-the-art 2D image compression schemes rely on the power of convolutional neural networks (CN...
Les caméras omnidirectionnelles sont de plus en plus répandues en vision par ordinateur et robotique...
We propose a method to compute scale invariant features in omnidirectional images. We present a form...
International audienceDeep Reinforcement Learning (DRL) is highly efficient for solving complex task...
Though deep learning (DL) algorithms are very powerful for image processing tasks, they generally re...
International audienceSpherical cameras and the latest image processing techniques open up new horiz...
We propose a method to compute scale invariant features in omnidirectional images. We present a form...
In this paper we propose a new approach to Deep Neural Networks (DNNs) based on the particular needs...
This thesis addresses the problem of investigating the properties and abilities of a variety of comp...
Omnidirectional cameras for computer vision and robotics are becoming increasingly widespread. Indee...
With 360 imaging devices becoming widely accessible, omnidirectional content has gained popularity i...
In this thesis, we develop new image processing tools suited to omnidirectional vision. These new to...
International audienceOmnidirectional images have drawn great research attention recently thanks to ...
International audienceState-of-the-art 2D image compression schemes rely on the power of convolution...
Omnidirectional cameras are widely used in such areas as robotics and virtual reality as they provid...
State-of-the-art 2D image compression schemes rely on the power of convolutional neural networks (CN...
Les caméras omnidirectionnelles sont de plus en plus répandues en vision par ordinateur et robotique...
We propose a method to compute scale invariant features in omnidirectional images. We present a form...
International audienceDeep Reinforcement Learning (DRL) is highly efficient for solving complex task...
Though deep learning (DL) algorithms are very powerful for image processing tasks, they generally re...
International audienceSpherical cameras and the latest image processing techniques open up new horiz...
We propose a method to compute scale invariant features in omnidirectional images. We present a form...
In this paper we propose a new approach to Deep Neural Networks (DNNs) based on the particular needs...
This thesis addresses the problem of investigating the properties and abilities of a variety of comp...
Omnidirectional cameras for computer vision and robotics are becoming increasingly widespread. Indee...
With 360 imaging devices becoming widely accessible, omnidirectional content has gained popularity i...
In this thesis, we develop new image processing tools suited to omnidirectional vision. These new to...