Safe reinforcement learning for multi-energy management systems with known constraint functions
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Reinforcement learning (RL) is a promising optimal control technique for multi-energy management systems. It does not require a model a priori - reducing the upfront and ongoing project-specific engineering effort and is capable of learning better representations of the underlying system dynamics. However, vanilla RL does not provide constraint satisfaction guarantees - resulting in various unsafe interactions within its safety-critical environment. In this paper, we present two novel safe RL methods, namely SafeFallback and GiveSafe, where the safety constraint formulation is decoupled from the RL formulation and which provides hard-constraint satisfaction guarantees both during training (exploration) and exploitation of the (close-to) optimal policy. In a simulated multi-energy systems case study we have shown that both methods start with a significantly higher utility (i.e. useful policy) compared to a vanilla RL benchmark (94,6 35,5 vanilla RL benchmark (102,9 safety constraint handling techniques capable beyond RL, as demonstrated with random agents while still providing hard-constraint guarantees. Finally, we propose fundamental future work to i.a. improve the constraint functions itself as more data becomes available.
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