Timezone: »
The Surprising Effectiveness of Latent World Models for Continual Reinforcement Learning
Samuel Kessler · Piotr Miłoś · Jack Parker-Holder · S Roberts
Event URL: https://openreview.net/forum?id=-lHOOgHuWwu »
We study the use of model-based reinforcement learning methods, in particular, world models for continual reinforcement learning. In continual reinforcement learning, an agent is required to solve one task and then another sequentially while retaining performance and preventing \emph{forgetting} on past tasks. World models offer a \emph{task-agnostic} solution: they do not require knowledge of task changes. World models are a straight-forward baseline for continual reinforcement learning for three main reasons. Firstly, forgetting in the world model is prevented by persisting existing experience replay buffers across tasks, experience from previous tasks is replayed for learning the world model. Secondly, they are sample efficient. Thirdly and finally, they offer a task-agnostic exploration strategy through the uncertainty in the trajectories generated by the world model. We show that world models are a simple and effective continual reinforcement learning baseline. We study their effectiveness on Minigrid and Minihack continual reinforcement learning benchmarks and show that it outperforms state-of-the-art task-agnostic continual reinforcement learning methods.
Author Information
Samuel Kessler (University of Oxford)
Piotr Miłoś (Ideas NCBR, Polish Academy of Sciences)
Jack Parker-Holder (DeepMind)
S Roberts (University of Oxford)
More from the Same Authors
-
2020 : Paper 44: CARLA Real Traffic Scenarios – novel training ground and benchmark for autonomous driving »
Błażej Osiński · Piotr Miłoś · Adam Jakubowski · Krzysztof Galias · Silviu Homoceanu -
2021 : MiniHack the Planet: A Sandbox for Open-Ended Reinforcement Learning Research »
Mikayel Samvelyan · Robert Kirk · Vitaly Kurin · Jack Parker-Holder · Minqi Jiang · Eric Hambro · Fabio Petroni · Heinrich Kuttler · Edward Grefenstette · Tim Rocktäschel -
2021 : Off-Policy Correction For Multi-Agent Reinforcement Learning »
Michał Zawalski · Błażej Osiński · Henryk Michalewski · Piotr Miłoś -
2021 : Continuous Control With Ensemble Deep Deterministic Policy Gradients »
Piotr Januszewski · Mateusz Olko · Michał Królikowski · Jakub Swiatkowski · Marcin Andrychowicz · Łukasz Kuciński · Piotr Miłoś -
2021 : Grounding Aleatoric Uncertainty in Unsupervised Environment Design »
Minqi Jiang · Michael Dennis · Jack Parker-Holder · Andrei Lupu · Heinrich Kuttler · Edward Grefenstette · Tim Rocktäschel · Jakob Foerster -
2021 : That Escalated Quickly: Compounding Complexity by Editing Levels at the Frontier of Agent Capabilities »
Jack Parker-Holder · Minqi Jiang · Michael Dennis · Mikayel Samvelyan · Jakob Foerster · Edward Grefenstette · Tim Rocktäschel -
2021 : Return Dispersion as an Estimator of Learning Potential for Prioritized Level Replay »
Iryna Korshunova · Minqi Jiang · Jack Parker-Holder · Tim Rocktäschel · Edward Grefenstette -
2021 : On-the-fly Strategy Adaptation for ad-hoc Agent Coordination »
Jaleh Zand · Jack Parker-Holder · Stephen J Roberts -
2022 : Trust Your $\nabla$: Gradient-based Intervention Targeting for Causal Discovery »
Mateusz Olko · Michał Zając · Aleksandra Nowak · Nino Scherrer · Yashas Annadani · Stefan Bauer · Łukasz Kuciński · Piotr Miłoś -
2022 : Fast and Precise: Adjusting Planning Horizon with Adaptive Subgoal Search »
Michał Zawalski · Michał Tyrolski · Konrad Czechowski · Damian Stachura · Piotr Piękos · Tomasz Odrzygóźdź · Yuhuai Wu · Łukasz Kuciński · Piotr Miłoś -
2022 : MAESTRO: Open-Ended Environment Design for Multi-Agent Reinforcement Learning »
Mikayel Samvelyan · Akbir Khan · Michael Dennis · Minqi Jiang · Jack Parker-Holder · Jakob Foerster · Roberta Raileanu · Tim Rocktäschel -
2022 Workshop: Challenges in Deploying and Monitoring Machine Learning Systems »
Alessandra Tosi · Andrei Paleyes · Christian Cabrera · Fariba Yousefi · S Roberts -
2022 Workshop: Foundation Models for Decision Making »
Mengjiao (Sherry) Yang · Yilun Du · Jack Parker-Holder · Siddharth Karamcheti · Igor Mordatch · Shixiang (Shane) Gu · Ofir Nachum -
2022 Poster: Disentangling Transfer in Continual Reinforcement Learning »
Maciej Wolczyk · Michał Zając · Razvan Pascanu · Łukasz Kuciński · Piotr Miłoś -
2022 Poster: Thor: Wielding Hammers to Integrate Language Models and Automated Theorem Provers »
Albert Qiaochu Jiang · Wenda Li · Szymon Tworkowski · Konrad Czechowski · Tomasz Odrzygóźdź · Piotr Miłoś · Yuhuai Wu · Mateja Jamnik -
2022 Poster: Learning General World Models in a Handful of Reward-Free Deployments »
Yingchen Xu · Jack Parker-Holder · Aldo Pacchiano · Philip Ball · Oleh Rybkin · S Roberts · Tim Rocktäschel · Edward Grefenstette -
2022 Poster: Grounding Aleatoric Uncertainty for Unsupervised Environment Design »
Minqi Jiang · Michael Dennis · Jack Parker-Holder · Andrei Lupu · Heinrich Küttler · Edward Grefenstette · Tim Rocktäschel · Jakob Foerster -
2021 : The NetHack Challenge + Q&A »
Eric Hambro · Sharada Mohanty · Dipam Chakrabroty · Edward Grefenstette · Minqi Jiang · Robert Kirk · Vitaly Kurin · Heinrich Kuttler · Vegard Mella · Nantas Nardelli · Jack Parker-Holder · Roberta Raileanu · Tim Rocktäschel · Danielle Rothermel · Mikayel Samvelyan -
2021 Poster: Replay-Guided Adversarial Environment Design »
Minqi Jiang · Michael Dennis · Jack Parker-Holder · Jakob Foerster · Edward Grefenstette · Tim Rocktäschel -
2021 Poster: Subgoal Search For Complex Reasoning Tasks »
Konrad Czechowski · Tomasz Odrzygóźdź · Marek Zbysiński · Michał Zawalski · Krzysztof Olejnik · Yuhuai Wu · Łukasz Kuciński · Piotr Miłoś -
2021 Poster: Catalytic Role Of Noise And Necessity Of Inductive Biases In The Emergence Of Compositional Communication »
Łukasz Kuciński · Tomasz Korbak · Paweł Kołodziej · Piotr Miłoś -
2021 Poster: Tactical Optimism and Pessimism for Deep Reinforcement Learning »
Ted Moskovitz · Jack Parker-Holder · Aldo Pacchiano · Michael Arbel · Michael Jordan -
2021 Poster: Continual World: A Robotic Benchmark For Continual Reinforcement Learning »
Maciej Wołczyk · Michał Zając · Razvan Pascanu · Łukasz Kuciński · Piotr Miłoś -
2021 Poster: Tuning Mixed Input Hyperparameters on the Fly for Efficient Population Based AutoRL »
Jack Parker-Holder · Vu Nguyen · Shaan Desai · Stephen J Roberts -
2020 Poster: Ridge Rider: Finding Diverse Solutions by Following Eigenvectors of the Hessian »
Jack Parker-Holder · Luke Metz · Cinjon Resnick · Hengyuan Hu · Adam Lerer · Alistair Letcher · Alexander Peysakhovich · Aldo Pacchiano · Jakob Foerster -
2020 Poster: Effective Diversity in Population Based Reinforcement Learning »
Jack Parker-Holder · Aldo Pacchiano · Krzysztof M Choromanski · Stephen J Roberts -
2020 Spotlight: Effective Diversity in Population Based Reinforcement Learning »
Jack Parker-Holder · Aldo Pacchiano · Krzysztof M Choromanski · Stephen J Roberts -
2020 Poster: Provably Efficient Online Hyperparameter Optimization with Population-Based Bandits »
Jack Parker-Holder · Vu Nguyen · Stephen J Roberts -
2019 : Coffee + Posters »
Changhao Chen · Nils Gählert · Edouard Leurent · Johannes Lehner · Apratim Bhattacharyya · Harkirat Singh Behl · Teck Yian Lim · Shiho Kim · Jelena Novosel · Błażej Osiński · Arindam Das · Ruobing Shen · Jeffrey Hawke · Joachim Sicking · Babak Shahian Jahromi · Theja Tulabandhula · Claudio Michaelis · Evgenia Rusak · WENHANG BAO · Hazem Rashed · JP Chen · Amin Ansari · Jaekwang Cha · Mohamed Zahran · Daniele Reda · Jinhyuk Kim · Kim Dohyun · Ho Suk · Junekyo Jhung · Alexander Kister · Matthias Fahrland · Adam Jakubowski · Piotr Miłoś · Jean Mercat · Bruno Arsenali · Silviu Homoceanu · Xiao-Yang Liu · Philip Torr · Ahmad El Sallab · Ibrahim Sobh · Anurag Arnab · Krzysztof Galias -
2019 : Poster session »
Sebastian Farquhar · Erik Daxberger · Andreas Look · Matt Benatan · Ruiyi Zhang · Marton Havasi · Fredrik Gustafsson · James A Brofos · Nabeel Seedat · Micha Livne · Ivan Ustyuzhaninov · Adam Cobb · Felix D McGregor · Patrick McClure · Tim R. Davidson · Gaurush Hiranandani · Sanjeev Arora · Masha Itkina · Didrik Nielsen · William Harvey · Matias Valdenegro-Toro · Stefano Peluchetti · Riccardo Moriconi · Tianyu Cui · Vaclav Smidl · Taylan Cemgil · Jack Fitzsimons · He Zhao · · mariana vargas vieyra · Apratim Bhattacharyya · Rahul Sharma · Geoffroy Dubourg-Felonneau · Jonathan Warrell · Slava Voloshynovskiy · Mihaela Rosca · Jiaming Song · Andrew Ross · Homa Fashandi · Ruiqi Gao · Hooshmand Shokri Razaghi · Joshua Chang · Zhenzhong Xiao · Vanessa Boehm · Giorgio Giannone · Ranganath Krishnan · Joe Davison · Arsenii Ashukha · Jeremiah Liu · Sicong (Sheldon) Huang · Evgenii Nikishin · Sunho Park · Nilesh Ahuja · Mahesh Subedar · · Artyom Gadetsky · Jhosimar Arias Figueroa · Tim G. J. Rudner · Waseem Aslam · Adrián Csiszárik · John Moberg · Ali Hebbal · Kathrin Grosse · Pekka Marttinen · Bang An · Hlynur Jónsson · Samuel Kessler · Abhishek Kumar · Mikhail Figurnov · Omesh Tickoo · Steindor Saemundsson · Ari Heljakka · Dániel Varga · Niklas Heim · Simone Rossi · Max Laves · Waseem Gharbieh · Nicholas Roberts · Luis Armando Pérez Rey · Matthew Willetts · Prithvijit Chakrabarty · Sumedh Ghaisas · Carl Shneider · Wray Buntine · Kamil Adamczewski · Xavier Gitiaux · Suwen Lin · Hao Fu · Gunnar Rätsch · Aidan Gomez · Erik Bodin · Dinh Phung · Lennart Svensson · Juliano Tusi Amaral Laganá Pinto · Milad Alizadeh · Jianzhun Du · Kevin Murphy · Beatrix Benkő · Shashaank Vattikuti · Jonathan Gordon · Christopher Kanan · Sontje Ihler · Darin Graham · Michael Teng · Louis Kirsch · Tomas Pevny · Taras Holotyak -
2019 Poster: From Complexity to Simplicity: Adaptive ES-Active Subspaces for Blackbox Optimization »
Krzysztof M Choromanski · Aldo Pacchiano · Jack Parker-Holder · Yunhao Tang · Vikas Sindhwani