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PD-MORL: Preference-Driven Multi-Objective Reinforcement Learning Algorithm

Toygun Başaklar, Suat Gümüşsoy, Ümit Y. Ogras

发表年份
2022
引用次数
8
访问权限
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摘要

Multi-objective reinforcement learning (MORL) approaches have emerged to tackle many real-world problems with multiple conflicting objectives by maximizing a joint objective function weighted by a preference vector. These approaches find fixed customized policies corresponding to preference vectors specified during training. However, the design constraints and objectives typically change dynamically in real-life scenarios. Furthermore, storing a policy for each potential preference is not scalable. Hence, obtaining a set of Pareto front solutions for the entire preference space in a given domain with a single training is critical. To this end, we propose a novel MORL algorithm that trains a single universal network to cover the entire preference space scalable to continuous robotic tasks. The proposed approach, Preference-Driven MORL (PD-MORL), utilizes the preferences as guidance to update the network parameters. It also employs a novel parallelization approach to increase sample efficiency. We show that PD-MORL achieves up to 25% larger hypervolume for challenging continuous control tasks and uses an order of magnitude fewer trainable parameters compared to prior approaches.

关键词

Computer scienceReinforcement learningScalabilityPreferencePreference learningSet (abstract data type)Mathematical optimizationSpace (punctuation)Artificial intelligenceDomain (mathematical analysis)

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