[Lisa_seminaires] / Li Yao

Yoshua Bengio yoshua.umontreal at gmail.com
Mar 5 Déc 00:22:29 EST 2017


Soutenance de thèse / PhD defense

Lundi 11 décembre, local 3195 du Pavillon Aisenstadt

Candidat: Li Yao
Directeur: Yoshua Bengio
Examinateur externe: Sanja Fidler
Autres membres du jury: Aaron Courville, Christopher Pal

Learning visual representations with neural networks for image generation
and video captioning

The past decade has been marked as a golden era of neural network
research. Not only have neural networks been successfully applied to
solve more and more challenging real-world problems, but also they
have become the dominant approach in many of the places where they
have been tested. These places include, for instance, language
understanding, game playing, and computer vision, thanks to neural
networks' superiority in computational efficiency and statistical
capacity.

This work applies neural networks to problems in computer vision where
high-level and semantically meaningful representations play a
fundamental role. It demonstrates both in theory and in experiment the
ability to learn such representations from data with and without
supervision.

The main content of the work is divided into two parts. The first part
studies neural networks in the context of learning visual
representations for the task of video captioning. Models are developed
to dynamically focus on different frames while generating a natural
language description of a short video. Such a model is further
improved by recurrent convolutional operations. The end of this part
identifies fundamental challenges in video captioning and proposes a
new type of model-based evaluation metric that may be used
experimentally as an oracle to benchmark performance.

The second part studies the family of models that generate images.
While the first part is supervised, this part is unsupervised. The
focus of it is the popular family of Neural Autoregressive Density
Estimators (NADEs), a tractable probabilistic model for natural
images. This work first makes a connection between NADEs and
Generative Stochastic Networks (GSNs). The standard NADE is improved
by introducing multiple iterations in its inference without increasing
the number of parameters, which is dubbed "iterative NADEs".
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