Your search keyword '"Torres, Ricardo da S."' showing total 3 results

1. Principled Interpolation in Normalizing Flows

Author

Fadel, Samuel G., Mair, Sebastian, Torres, Ricardo da S., and Brefeld, Ulf

Subjects

Statistics - Machine Learning, Computer Science - Machine Learning

Abstract

Generative models based on normalizing flows are very successful in modeling complex data distributions using simpler ones. However, straightforward linear interpolations show unexpected side effects, as interpolation paths lie outside the area where samples are observed. This is caused by the standard choice of Gaussian base distributions and can be seen in the norms of the interpolated samples. This observation suggests that correcting the norm should generally result in better interpolations, but it is not clear how to correct the norm in an unambiguous way. In this paper, we solve this issue by enforcing a fixed norm and, hence, change the base distribution, to allow for a principled way of interpolation. Specifically, we use the Dirichlet and von Mises-Fisher base distributions. Our experimental results show superior performance in terms of bits per dimension, Fr\'echet Inception Distance (FID), and Kernel Inception Distance (KID) scores for interpolation, while maintaining the same generative performance., Comment: Under review

Published

2020

2. Parallax Motion Effect Generation Through Instance Segmentation And Depth Estimation

Author

Pinto, Allan, Córdova, Manuel A., Decker, Luis G. L., Flores-Campana, Jose L., Souza, Marcos R., Santos, Andreza A. dos, Conceição, Jhonatas S., Gagliardi, Henrique F., Luvizon, Diogo C., Torres, Ricardo da S., and Pedrini, Helio

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Stereo vision is a growing topic in computer vision due to the innumerable opportunities and applications this technology offers for the development of modern solutions, such as virtual and augmented reality applications. To enhance the user's experience in three-dimensional virtual environments, the motion parallax estimation is a promising technique to achieve this objective. In this paper, we propose an algorithm for generating parallax motion effects from a single image, taking advantage of state-of-the-art instance segmentation and depth estimation approaches. This work also presents a comparison against such algorithms to investigate the trade-off between efficiency and quality of the parallax motion effects, taking into consideration a multi-task learning network capable of estimating instance segmentation and depth estimation at once. Experimental results and visual quality assessment indicate that the PyD-Net network (depth estimation) combined with Mask R-CNN or FBNet networks (instance segmentation) can produce parallax motion effects with good visual quality., Comment: 2020 IEEE International Conference on Image Processing (ICIP), Abu Dhabi, United Arab Emirates

Published

2020

3. Link Prediction in Dynamic Graphs for Recommendation

Author

Fadel, Samuel G. and Torres, Ricardo da S.

Subjects

Computer Science - Information Retrieval, Computer Science - Machine Learning, Computer Science - Social and Information Networks, Statistics - Machine Learning

Abstract

Recent advances in employing neural networks on graph domains helped push the state of the art in link prediction tasks, particularly in recommendation services. However, the use of temporal contextual information, often modeled as dynamic graphs that encode the evolution of user-item relationships over time, has been overlooked in link prediction problems. In this paper, we consider the hypothesis that leveraging such information enables models to make better predictions, proposing a new neural network approach for this. Our experiments, performed on the widely used ML-100k and ML-1M datasets, show that our approach produces better predictions in scenarios where the pattern of user-item relationships change over time. In addition, they suggest that existing approaches are significantly impacted by those changes., Comment: Workshop on Relational Representation Learning (R2L), NIPS 2018

Published

2018