Er Meng Joo scite author profile

Purpose -This purpose of this paper is to provide an overview of the theoretical background and applications of inverse reinforcement learning (IRL). Design/methodology/approach -Reinforcement learning (RL) techniques provide a powerful solution for sequential decision making problems under uncertainty. RL uses an agent equipped with a reward function to find a policy through interactions with a dynamic environment. However, one major assumption of existing RL algorithms is that reward function, the most succinct representation of the designer's intention, needs to be provided beforehand. In practice, the reward function can be very hard to specify and exhaustive to tune for large and complex problems, and this inspires the development of IRL, an extension of RL, which directly tackles this problem by learning the reward function through expert demonstrations. In this paper, the original IRL algorithms and its close variants, as well as their recent advances are reviewed and compared. Findings -This paper can serve as an introduction guide of fundamental theory and developments, as well as the applications of IRL. Originality/value -This paper surveys the theories and applications of IRL, which is the latest development of RL and has not been done so far.

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H∞ state-feedback control of time-delay systems using reciprocally convex approach

Vembarasan

Balasubramaniam

Joo

2014

Journal of Process Control

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A review of inverse reinforcement learning theory and recent advances

Shao

Joo

2012

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A Novel Fuzzy Logic Model for Pseudo-Relevance Feedback-Based Query Expansion

Singh

Prasad

et al. 2016

Int. J. Fuzzy Syst.

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Design for auto-tuning PID controller based on genetic algorithms

Liu

Joo

2009

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Er Meng Joo

A survey of inverse reinforcement learning techniques

H∞ state-feedback control of time-delay systems using reciprocally convex approach

A review of inverse reinforcement learning theory and recent advances

A Novel Fuzzy Logic Model for Pseudo-Relevance Feedback-Based Query Expansion

Design for auto-tuning PID controller based on genetic algorithms

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