Reinforcement Learning Based EV Charging Management Systems–A Review

Abdullah, Heba M.; Gastli, Adel; Ben‐Brahim, Lazhar

doi:10.1109/access.2021.3064354

Cited by 103 publications

(48 citation statements)

References 113 publications

(405 reference statements)

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“…In [121]- [123], various RL techniques are studied to design EV charging policies to deal with the randomness in the arrival and departure time of an EV. See [124] for a review on RL-based EV charging management systems. References [125]- [127] adopt DQN and DDPG to learn the charging/discharging strategy for controlling battery systems considering unknown degradation models.…”

Section: Energy Managementmentioning

confidence: 99%

Reinforcement Learning for Selective Key Applications in Power Systems: Recent Advances and Future Challenges

Chen

Tang

et al. 2022

IEEE Trans. Smart Grid

150

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With large-scale integration of renewable generation and distributed energy resources, modern power systems are confronted with new operational challenges, such as growing complexity, increasing uncertainty, and aggravating volatility. Meanwhile, more and more data are becoming available owing to the widespread deployment of smart meters, smart sensors, and upgraded communication networks. As a result, data-driven control techniques, especially reinforcement learning (RL), have attracted surging attention in recent years. This paper provides a comprehensive review of various RL techniques and how they can be applied to decision-making and control in power systems. In particular, we select three key applications, i.e., frequency regulation, voltage control, and energy management, as examples to illustrate RL-based models and solutions. We then present the critical issues in the application of RL, i.e., safety, robustness, scalability, and data. Several potential future directions are discussed as well.

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Section: Energy Managementmentioning

confidence: 99%

Reinforcement Learning for Selective Key Applications in Power Systems: Recent Advances and Future Challenges

Chen

Tang

et al. 2022

IEEE Trans. Smart Grid

150

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“…The readers may refer to the review papers such as Ref. [19][20][21] for further theoretical analysis on alternative control schemes. In this section, we will mention few representative examples to give a general overview on state-of-the-art strategies and demonstrate the need for an original formulation to deal with the novel problem that is defined in Section 1.…”

Section: Literature Reviewmentioning

confidence: 99%

“…For a detailed review on machine learning approaches, the interested readers are advised to refer to Ref. [21,27]. The ability to find a near optimal solution without the execution of an optimisation problem is the main advantage of learning-based strategies; therefore, they are applied mostly to deal with uncertainty in complex systems.…”

Section: Literature Reviewmentioning

confidence: 99%

Optimal load management strategy for large electric vehicle charging stations with undersized charger clusters

Gümrükcü

Ponci

Monti

et al. 2021

IET Electrical Syst in Trans

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This study proposes a load management strategy for parking and charging facilities with the capacity to serve several hundreds of electric vehicles. The strategy is built upon two assumptions on power distribution systems of large charging stations: i) they are configured as clusters, each comprising a number of charging units for reduced cabling complexity, ii) the power delivery components (such as feeders and circuit breakers) of individual clusters are sized for load factors smaller than 100% to reduce the capital costs. Unless controlled, the load demand can concentrate into particular cluster(s) whereas other clusters can still tolerate additional demand. This may lead to avoidable load interruptions and, thus, reduced energy provision. To address this issue, a load management strategy that optimises the distribution of vehicles across the clusters and their charging profiles is proposed. The strategy is compared in simulation with a benchmark strategy in different commercial parking lot scenarios. The results demonstrate that the optimal management achieves identical demand fulfilment rates despite more pronounced load factor limitations as compared to the benchmark strategy. This can enable further reduction in system component sizing. In the tested scenarios, the proposed strategy leads to increased long term profits ranging between 12% and 43%.

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“…The problem can be formulated as a 0-AIR MDP where the private variable is a binary variable indicating whether we have chosen to stop or not. Other examples include those where the agent only influences energy efficiency, such as in the hybrid vehicle problem (Shahamiri 2008) and the electric vehicles charging problem (Abdullah, Gastli, and Ben-Brahim 2021). In the former problem, the agent controls the vehicle to use either the gas engine or the electrical motor at each time step, with the goal to minimize gas consumption; its actions do not impact the driver's behavior.…”

Section: Formal Definitionmentioning

confidence: 99%

Exploiting Action Impact Regularity and Exogenous State Variables for Offline Reinforcement Learning

Liu¹,

Wright²,

White³

2021

Preprint

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Offline reinforcement learning-learning a policy from a batch of data-is known to be hard: without making strong assumptions, it is easy to construct counterexamples such that existing algorithms fail. In this work, we instead consider a property of certain real world problems where offline reinforcement learning should be effective: those where actions only have limited impact for a part of the state. We formalize and introduce this Action Impact Regularity (AIR) property. We further propose an algorithm that assumes and exploits the AIR property, and bound the suboptimality of the output policy when the MDP satisfies AIR. Finally, we demonstrate that our algorithm outperforms existing offline reinforcement learning algorithms across different data collection policies in two simulated environments where the regularity holds.

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Reinforcement Learning Based EV Charging Management Systems–A Review

Cited by 103 publications

References 113 publications

Reinforcement Learning for Selective Key Applications in Power Systems: Recent Advances and Future Challenges

Reinforcement Learning for Selective Key Applications in Power Systems: Recent Advances and Future Challenges

Optimal load management strategy for large electric vehicle charging stations with undersized charger clusters

Exploiting Action Impact Regularity and Exogenous State Variables for Offline Reinforcement Learning

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