A Patterns Framework for Incorporating Structure in Deep Reinforcement Learning

authored by: Aditya Mohan, Amy Zhang, Marius Lindauer
Abstract: Reinforcement Learning (RL), empowered by Deep Neural Networks (DNNs) for function approximation, has achieved notable success in diverse applications. However, its applicability to real-world scenarios with complex dynamics, noisy signals, and large state and action spaces remains limited due to challenges in data efficiency, generalization, safety guarantees, and interpretability, among other factors. To overcome these challenges, one promising avenue is to incorporate additional structural information about the problem into the RL learning process. Various sub-fields of RL have proposed methods for incorporating such inductive biases. We amalgamate these diverse methodologies under a unified framework, shedding light on the role of structure in the learning problem, and classify these methods into distinct patterns of incorporating structure that address different auxiliary objectives. By leveraging this comprehensive framework, we provide valuable insights into the challenges of integrating structure into RL and lay the groundwork for a design pattern perspective on RL research. This novel perspective paves the way for future advancements and aids in developing more effective and efficient RL algorithms that can better handle real-world scenarios.
Organisation(s): Machine Learning Section
Institute of Artificial Intelligence
External Organisation(s): Meta AI
University of Texas at Austin
Type: Conference abstract
Publication date: 17.09.2023
Publication status: Accepted/In press
Peer reviewed: Yes
Sustainable Development Goals: SDG 3 - Good Health and Well-being
Electronic version(s): https://openreview.net/forum?id=KkKWsPLlAx (Access: Open)

BibTeX

@inbook{9452919bed8a4fce9dc6874c1e13a81f,
title = "A Patterns Framework for Incorporating Structure in Deep Reinforcement Learning",
abstract = "Reinforcement Learning (RL), empowered by Deep Neural Networks (DNNs) for function approximation, has achieved notable success in diverse applications. However, its applicability to real-world scenarios with complex dynamics, noisy signals, and large state and action spaces remains limited due to challenges in data efficiency, generalization, safety guarantees, and interpretability, among other factors. To overcome these challenges, one promising avenue is to incorporate additional structural information about the problem into the RL learning process. Various sub-fields of RL have proposed methods for incorporating such inductive biases. We amalgamate these diverse methodologies under a unified framework, shedding light on the role of structure in the learning problem, and classify these methods into distinct patterns of incorporating structure that address different auxiliary objectives. By leveraging this comprehensive framework, we provide valuable insights into the challenges of integrating structure into RL and lay the groundwork for a design pattern perspective on RL research. This novel perspective paves the way for future advancements and aids in developing more effective and efficient RL algorithms that can better handle real-world scenarios.",
keywords = "cs.LG",
author = "Aditya Mohan and Amy Zhang and Marius Lindauer",
year = "2023",
month = sep,
day = "17",
language = "English",
booktitle = "The 16th European Workshop on Reinforcement Learning (EWRL 2023)",
note = "European Workshop on Reinforcement Learning 2023 ; Conference date: 13-09-2023 Through 16-09-2023",
url = "https://ewrl.wordpress.com/ewrl16-2023/",
}

Publication Details

A Patterns Framework for Incorporating Structure in Deep Reinforcement Learning

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