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Found 6 papers, 3 papers with code
Unsupervised Monocular Depth Estimation for Night-time Images using Adversarial Domain Feature Adaptation
We propose to solve this problem by posing it as a domain adaptation problem where a network trained with day-time images is adapted to work for night-time images.
Tighter Variational Bounds are Not Necessarily Better. A Research Report on Implementation, Ablation Study, and Extensions
We provide theoretical and empirical evidence that increasing the number of importance samples $K$ in the importance weighted autoencoder (IWAE) (Burda et al., 2016) degrades the signal-to-noise ratio (SNR) of the gradient estimator in the inference network and thereby affecting the full learning process.
Spherical Mask: Coarse-to-Fine 3D Point Cloud Instance Segmentation with Spherical Representation
Coarse-to-fine 3D instance segmentation methods show weak performances compared to recent Grouping-based, Kernel-based and Transformer-based methods.
Ranked #1 on
3D Instance Segmentation
on ScanNet(v2)
Real-Time Hybrid Mapping of Populated Indoor Scenes using a Low-Cost Monocular UAV
Monocular approaches to such tasks exist, and dense monocular mapping approaches have been successfully deployed for UAV applications.
Monocular 3D Human Pose Estimation
Monocular Depth Estimation
When the Sun Goes Down: Repairing Photometric Losses for All-Day Depth Estimation
In this paper, we show how to use a combination of three techniques to allow the existing photometric losses to work for both day and nighttime images.
Sample, Crop, Track: Self-Supervised Mobile 3D Object Detection for Urban Driving LiDAR
Supervised approaches typically require the annotation of large training sets; there has thus been great interest in leveraging weakly, semi- or self-supervised methods to avoid this, with much success.
