Add to ORKGDeployment of deep neural networks (DNNs) for monocular depth estimation in safety-critical scenarios on resource-constrained platforms requires well-calibrated and efficient uncertainty estimates. However, many popular uncertainty estimation techniques, including state-of-the-art ensembles and popular sampling-based methods, require multiple inferences per input, making them difficult to deploy in latencyconstrained or energy-constrained scenarios. We propose a new algorithm, called Uncertainty from Motion (UfM), that requires only one inference per input. UfM exploits the temporal redundancy in video inputs by merging incrementally the per-pixel depth prediction and per-pixel aleatoric uncertainty prediction of points that are see...
This work focuses on comparing three widely used methods for improving uncertainty estimations: Deep...
Fast estimates of model uncertainty are required for many robust robotics applications. Deep Ensembl...
Deep Learning (DL) methods have shown substantial efficacy in computer vision (CV) and natural langu...
Deployment of deep neural networks (DNNs) for monocular depth estimation in safety-critical scenari...
The focus in deep learning research has been mostly to push the limits of prediction accuracy. Howev...
Existing methods for estimating uncertainty in deep learning tend to require multiple forward passes...
We present a robust and real-time monocular six degree of freedom visual relocalization system. We u...
Recent work has demonstrated that it is possible to learn deep neural networks for monocular depth a...
Neural networks (NNs) have drastically improved the performance of mobile and embedded applications ...
In monocular depth estimation, disturbances in the image context, like moving objects or reflecting ...
Deep learning (DL) has become a cornerstone for advancements in computer vision, yielding models cap...
Deep neural networks have amply demonstrated their prowess but estimating the reliability of their p...
This paper presents a probabilistic framework to obtain both reliable and fast uncertainty estimates...
International audienceClassical problems in computational physics such as data-driven forecasting an...
Despite the popularity of Convolutional Neural Networks (CNN), the problem of uncertainty quantifica...
This work focuses on comparing three widely used methods for improving uncertainty estimations: Deep...
Fast estimates of model uncertainty are required for many robust robotics applications. Deep Ensembl...
Deep Learning (DL) methods have shown substantial efficacy in computer vision (CV) and natural langu...
Deployment of deep neural networks (DNNs) for monocular depth estimation in safety-critical scenari...
The focus in deep learning research has been mostly to push the limits of prediction accuracy. Howev...
Existing methods for estimating uncertainty in deep learning tend to require multiple forward passes...
We present a robust and real-time monocular six degree of freedom visual relocalization system. We u...
Recent work has demonstrated that it is possible to learn deep neural networks for monocular depth a...
Neural networks (NNs) have drastically improved the performance of mobile and embedded applications ...
In monocular depth estimation, disturbances in the image context, like moving objects or reflecting ...
Deep learning (DL) has become a cornerstone for advancements in computer vision, yielding models cap...
Deep neural networks have amply demonstrated their prowess but estimating the reliability of their p...
This paper presents a probabilistic framework to obtain both reliable and fast uncertainty estimates...
International audienceClassical problems in computational physics such as data-driven forecasting an...
Despite the popularity of Convolutional Neural Networks (CNN), the problem of uncertainty quantifica...
This work focuses on comparing three widely used methods for improving uncertainty estimations: Deep...
Fast estimates of model uncertainty are required for many robust robotics applications. Deep Ensembl...
Deep Learning (DL) methods have shown substantial efficacy in computer vision (CV) and natural langu...