Journal ArticleDOI
Mastering the game of Go with deep neural networks and tree search
David Silver,Aja Huang,Chris J. Maddison,Arthur Guez,Laurent Sifre,George van den Driessche,Julian Schrittwieser,Ioannis Antonoglou,Veda Panneershelvam,Marc Lanctot,Sander Dieleman,Dominik Grewe,John Nham,Nal Kalchbrenner,Ilya Sutskever,Timothy P. Lillicrap,Madeleine Leach,Koray Kavukcuoglu,Thore Graepel,Demis Hassabis +19 more
TLDR
Using this search algorithm, the program AlphaGo achieved a 99.8% winning rate against other Go programs, and defeated the human European Go champion by 5 games to 0.5, the first time that a computer program has defeated a human professional player in the full-sized game of Go.Abstract:
The game of Go has long been viewed as the most challenging of classic games for artificial intelligence owing to its enormous search space and the difficulty of evaluating board positions and moves. Here we introduce a new approach to computer Go that uses ‘value networks’ to evaluate board positions and ‘policy networks’ to select moves. These deep neural networks are trained by a novel combination of supervised learning from human expert games, and reinforcement learning from games of self-play. Without any lookahead search, the neural networks play Go at the level of stateof-the-art Monte Carlo tree search programs that simulate thousands of random games of self-play. We also introduce a new search algorithm that combines Monte Carlo simulation with value and policy networks. Using this search algorithm, our program AlphaGo achieved a 99.8% winning rate against other Go programs, and defeated the human European Go champion by 5 games to 0. This is the first time that a computer program has defeated a human professional player in the full-sized game of Go, a feat previously thought to be at least a decade away.read more
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Posted Content
Deep Learning Approximation for Stochastic Control Problems.
Jiequn Han,Weinan E +1 more
TL;DR: This work develops a deep learning approach that directly solves high-dimensional stochastic control problems based on Monte-Carlo sampling and approximate the time-dependent controls as feedforward neural networks and stack these networks together through model dynamics.
Journal ArticleDOI
The Role of Machine Learning in the Understanding and Design of Materials.
TL;DR: Some of the chief advancements of these methods and their applications in rational materials design are reviewed, followed by a discussion on some of the main challenges and opportunities the authors currently face together with a perspective on the future ofrational materials design and discovery.
Journal ArticleDOI
The challenge of crafting intelligible intelligence
Daniel S. Weld,Gagan Bansal +1 more
TL;DR: In this paper, the behavior of complex AI algorithms, especially in mission-critical settings, must be made intelligible to the user, and they must be trusted to make decisions intelligibly.
Journal ArticleDOI
Neural Mechanisms of Hierarchical Planning in a Virtual Subway Network
Jan Balaguer,Jan Balaguer,Hugo J. Spiers,Demis Hassabis,Christopher Summerfield,Christopher Summerfield +5 more
TL;DR: The results suggest that humans represent hierarchical plans using a network of caudal prefrontal structures, rather than a single hierarchical plan, as previously suggested.
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End-to-end LSTM-based dialog control optimized with supervised and reinforcement learning.
Jason D. Williams,Geoffrey Zweig +1 more
TL;DR: The main component of the model is a recurrent neural network (an LSTM), which maps from raw dialog history directly to a distribution over system actions, which relieves the system developer of much of the manual feature engineering of dialog state.
References
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Proceedings Article
ImageNet Classification with Deep Convolutional Neural Networks
TL;DR: The state-of-the-art performance of CNNs was achieved by Deep Convolutional Neural Networks (DCNNs) as discussed by the authors, which consists of five convolutional layers, some of which are followed by max-pooling layers, and three fully-connected layers with a final 1000-way softmax.
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Journal ArticleDOI
Human-level control through deep reinforcement learning
Volodymyr Mnih,Koray Kavukcuoglu,David Silver,Andrei Rusu,Joel Veness,Marc G. Bellemare,Alex Graves,Martin Riedmiller,Andreas K. Fidjeland,Georg Ostrovski,Stig Petersen,Charles Beattie,Amir Sadik,Ioannis Antonoglou,Helen King,Dharshan Kumaran,Daan Wierstra,Shane Legg,Demis Hassabis +18 more
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