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A Hybrid Linear Programming-Reinforcement Learning Method for Optimal Energy Hub Management

Alireza Ghadertootoonchi, Moein Moeini‐Aghtaie, Mehdi Davoudi

2022IEEE Transactions on Smart Grid26 citationsDOI

Abstract

Reinforcement learning (RL) is a subset of artificial intelligence in which a decision-making agent tries to act optimally in an environment by controlling different parameters. There is no need to identify and mathematically formulate the environmental constraints in such a method. Moreover, the RL agent does not need prior information about future outcomes to act optimally in the current situation. However, its performance is adversely affected by the environmental complexity, which increases the agent’s effort to choose the optimal action in a particular condition. Integrating RL and linear programming (LP) methods is beneficial to tackle this problem as it reduces the state-action space that the agent should learn. In this regard, the optimization variables are divided into two categories. First, experience-dependent variables which have an inter-time dependency, and their values depend on the agent’s decision. Second, experience-independent variables whose values depend on the LP model and have no inter-time connection. The numerical results of integrating mentioned methods have demonstrated the hybrid model’s effectiveness in converging to the global optimum with more than 95% accuracy.

Topics & Concepts

Reinforcement learningDependency (UML)Mathematical optimizationComputer scienceLinear programmingAction (physics)State spaceArtificial intelligenceState (computer science)State variableMathematicsAlgorithmQuantum mechanicsPhysicsThermodynamicsStatisticsSmart Grid Energy ManagementIntegrated Energy Systems OptimizationBuilding Energy and Comfort Optimization
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