Publications

Hyperbolic Discounting and Learning over Multiple Horizons
William Fedus
Carles Gelada
Yoshua Bengio
Bellemare Marc-Emmanuel
Hugo Larochelle
Reinforcement learning (RL) typically defines a discount factor as part of the Markov Decision Process. The discount factor values future re… (voir plus)wards by an exponential scheme that leads to theoretical convergence guarantees of the Bellman equation. However, evidence from psychology, economics and neuroscience suggests that humans and animals instead have hyperbolic time-preferences. In this work we revisit the fundamentals of discounting in RL and bridge this disconnect by implementing an RL agent that acts via hyperbolic discounting. We demonstrate that a simple approach approximates hyperbolic discount functions while still using familiar temporal-difference learning techniques in RL. Additionally, and independent of hyperbolic discounting, we make a surprising discovery that simultaneously learning value functions over multiple time-horizons is an effective auxiliary task which often improves over a strong value-based RL agent, Rainbow.
2019-02-18
ArXiv (prépublication)
openreview.net
openreview.net
Predicting conversion to psychosis in clinical high risk patients using resting-state functional MRI features
Jolie Mcdonnell
W. Hord
Jenna Reinen
Pablo Polosecki
Irina Rish
Guillermo Cecchi
Recent progress in artificial intelligence provides researchers with a powerful set of machine learning tools for analyzing brain imaging da… (voir plus)ta. In this work, we explore a variety of classification algorithms and functional network features derived from resting-state fMRI data collected from clinical high-risk (prodromal schizophrenia) patients and controls, trying to identify features predictive of conversion to psychosis among a subset of CHR patients. While there are many existing studies suggesting that functional network features can be highly discriminative of schizophrenia when analyzing fMRI of patients suffering from the disease vs controls, few studies attempt to explore a similar approach to actual prediction of future psychosis development ahead of time, in the prodromal stage. Our preliminary results demonstrate the potential of fMRI functional network features to predict the conversion to psychosis in CHR patients. However, given the high variance of our results across different classifiers and subsets of data, a more extensive empirical investigation is required to reach more robust conclusions.
2019-02-15
Medical Imaging 2019: Biomedical Applications in Molecular, Structural, and Functional Imaging (publié)
doi.org
Anytime Tail Averaging
Nicolas Roux
Tail averaging consists in averaging the last examples in a stream. Common techniques either have a memory requirement which grows with the … (voir plus)number of samples to average, are not available at every timestep or do not accomodate growing windows. We propose two techniques with a low constant memory cost that perform tail averaging with access to the average at every time step. We also show how one can improve the accuracy of that average at the cost of increased memory consumption.
2019-02-12
ArXiv (prépublication)
arxiv.org
arxiv.org
Dendritic solutions to the credit assignment problem
Blake Aaron Richards
Timothy P Lillicrap
2019-01-31
Current Opinion in Neurobiology (publié)
doi.org
Equivalence of Equilibrium Propagation and Recurrent Backpropagation
Benjamin Scellier
Yoshua Bengio
Recurrent backpropagation and equilibrium propagation are supervised learning algorithms for fixed-point recurrent neural networks, which di… (voir plus)ffer in their second phase. In the first phase, both algorithms converge to a fixed point that corresponds to the configuration where the prediction is made. In the second phase, equilibrium propagation relaxes to another nearby fixed point corresponding to smaller prediction error, whereas recurrent backpropagation uses a side network to compute error derivatives iteratively. In this work, we establish a close connection between these two algorithms. We show that at every moment in the second phase, the temporal derivatives of the neural activities in equilibrium propagation are equal to the error derivatives computed iteratively by recurrent backpropagation in the side network. This work shows that it is not required to have a side network for the computation of error derivatives and supports the hypothesis that in biological neural networks, temporal derivatives of neural activities may code for error signals.
2019-01-31
Neural Computation (publié)
doi.org
openreview.net
The Impact of Time Interval between Extubation and Reintubation on Death or Bronchopulmonary Dysplasia in Extremely Preterm Infants
Wissam Shalish
Lara Kanbar
Lajos Kovacs
Sanjay Chawla
Martin Keszler
Smita Rao
Bogdan Panaitescu
Alyse Laliberte
Doina Precup
Karen Brown
Robert E. Kearney
Guilherme M. Sant'Anna
2019-01-31
The Journal of Pediatrics (publié)
doi.org
Author Correction: Why rankings of biomedical image analysis competitions should be interpreted with care
Lena Maier-Hein
Matthias Eisenmann
Annika Reinke
Sinan Onogur
Marko Stankovic
Patrick Scholz
Tal Arbel
Hrvoje Bogunovic
Andrew P. Bradley
Aaron Carass
Carolin Feldmann
Alejandro F. Frangi
Peter M. Full
Bram van Ginneken
Allan Hanbury
Katrin Honauer
Michal Kozubek
Bennett Landman
Keno März
Oskar Maier … (voir 18 de plus)
Klaus Maier-Hein
Bjoern Menze
Henning Müller
Peter F. Neher
Wiro Niessen
Nasir Rajpoot
Gregory C. Sharp
Korsuk Sirinukunwattana
Stefanie Speidel
Christian Stock
Danail Stoyanov
Abdel Aziz Taha
Fons van der Sommen
Ching-Wei Wang
Marc-André Weber
Guoyan Zheng
Pierre Jannin
Annette Kopp-Schneider
2019-01-29
Nature Communications (publié)
doi.org
Session-Based Social Recommendation via Dynamic Graph Attention Networks
Weiping Song
Zhiping Xiao
Yifan Wang
Laurent Charlin
Ming Zhang
Jian Tang
Online communities such as Facebook and Twitter are enormously popular and have become an essential part of the daily life of many of their … (voir plus)users. Through these platforms, users can discover and create information that others will then consume. In that context, recommending relevant information to users becomes critical for viability. However, recommendation in online communities is a challenging problem: 1) users' interests are dynamic, and 2) users are influenced by their friends. Moreover, the influencers may be context-dependent. That is, different friends may be relied upon for different topics. Modeling both signals is therefore essential for recommendations. We propose a recommender system for online communities based on a dynamic-graph-attention neural network. We model dynamic user behaviors with a recurrent neural network, and context-dependent social influence with a graph-attention neural network, which dynamically infers the influencers based on users' current interests. The whole model can be efficiently fit on large-scale data. Experimental results on several real-world data sets demonstrate the effectiveness of our proposed approach over several competitive baselines including state-of-the-art models.
2019-01-29
Proceedings of the Twelfth ACM International Conference on Web Search and Data Mining (publié)
doi.org
arxiv.org
Maximum Entropy Generators for Energy-Based Models
Rithesh Kumar
Anirudh Goyal
Aaron Courville
Yoshua Bengio
Maximum likelihood estimation of energy-based models is a challenging problem due to the intractability of the log-likelihood gradient. In t… (voir plus)his work, we propose learning both the energy function and an amortized approximate sampling mechanism using a neural generator network, which provides an efficient approximation of the log-likelihood gradient. The resulting objective requires maximizing entropy of the generated samples, which we perform using recently proposed nonparametric mutual information estimators. Finally, to stabilize the resulting adversarial game, we use a zero-centered gradient penalty derived as a necessary condition from the score matching literature. The proposed technique can generate sharp images with Inception and FID scores competitive with recent GAN techniques, does not suffer from mode collapse, and is competitive with state-of-the-art anomaly detection techniques.
2019-01-23
ArXiv (prépublication)
doi.org
arxiv.org
What comes next? Extractive summarization by next-sentence prediction
Jingyun Liu
Jackie CK Cheung
Annie Priyadarshini Louis
Existing approaches to automatic summarization assume that a length limit for the summary is given, and view content selection as an optimiz… (voir plus)ation problem to maximize informativeness and minimize redundancy within this budget. This framework ignores the fact that human-written summaries have rich internal structure which can be exploited to train a summarization system. We present NEXTSUM, a novel approach to summarization based on a model that predicts the next sentence to include in the summary using not only the source article, but also the summary produced so far. We show that such a model successfully captures summary-specific discourse moves, and leads to better content selection performance, in addition to automatically predicting how long the target summary should be. We perform experiments on the New York Times Annotated Corpus of summaries, where NEXTSUM outperforms lead and content-model summarization baselines by significant margins. We also show that the lengths of summaries produced by our system correlates with the lengths of the human-written gold standards.
2019-01-11
ArXiv (prépublication)
arxiv.org
arxiv.org
The Benefits of Over-parameterization at Initialization in Deep ReLU Networks
Devansh Arpit
Yoshua Bengio
It has been noted in existing literature that over-parameterization in ReLU networks generally improves performance. While there could be se… (voir plus)veral factors involved behind this, we prove some desirable theoretical properties at initialization which may be enjoyed by ReLU networks. Specifically, it is known that He initialization in deep ReLU networks asymptotically preserves variance of activations in the forward pass and variance of gradients in the backward pass for infinitely wide networks, thus preserving the flow of information in both directions. Our paper goes beyond these results and shows novel properties that hold under He initialization: i) the norm of hidden activation of each layer is equal to the norm of the input, and, ii) the norm of weight gradient of each layer is equal to the product of norm of the input vector and the error at output layer. These results are derived using the PAC analysis framework, and hold true for finitely sized datasets such that the width of the ReLU network only needs to be larger than a certain finite lower bound. As we show, this lower bound depends on the depth of the network and the number of samples, and by the virtue of being a lower bound, over-parameterized ReLU networks are endowed with these desirable properties. For the aforementioned hidden activation norm property under He initialization, we further extend our theory and show that this property holds for a finite width network even when the number of data samples is infinite. Thus we overcome several limitations of existing papers, and show new properties of deep ReLU networks at initialization.
2019-01-10
ArXiv (prépublication)
openreview.net
openreview.net
1. Searching for Big-Oh in the Data: Inferring Asymptotic Complexity from Experiments
Catherine McGeoch
Peter Sanders 0001
Rudolf Fleischer
Paul R. Cohen
Doina Precup
2018-12-31
(publié)
www.semanticscholar.org