Demand response (DR) becomes critical to manage the charging load of a growing electric vehicle (EV) deployment. Initial DR studies mainly adopt model predictive control, but models are largely uncertain for the EV scenario (e.g., customer behavior). Model-free approaches, based on reinforcement learning (RL), are an attractive alternative. We propose a new Markov decision process (MDP) formulation in the RL framework, to jointly coordinate a set of charging stations. State-of-the-art algorithms either focus on a single EV, or control an aggregate of EVs in multiple steps (e.g., 1) make aggregate load decisions and 2) translate the aggregate decision to individual EVs). In contrast, our RL approach jointly controls the whole set of EVs at o...
This paper addresses the problem of defining a day-ahead consumption plan for charging a fleet of el...
© 2021 The Authors. IET Electrical Systems in Transportation published by John Wiley & Sons Ltd on b...
In recent years, the importance of electric mobility has increased in response to climate change. Th...
Demand response (DR) becomes critical to manage the charging load of a growing electric vehicle (EV)...
Electric vehicle (EV) charging stations represent a substantial load with significant flexibility. B...
To mitigate global warming and energy shortage, integration of renewable energy generation sources, ...
This paper proposes a demand response method to reduce the long-term charging cost of single plug-in...
With the increase in Electric Vehicles (EVs) penetration, their charging needs form an additional bu...
Recent years have seen an unprecedented uptake in electric vehicles, driven by the global push to re...
When electric vehicle (EV) participates in demand response with real-time electricity price, the EV ...
This paper addresses the problem of optimizing charging/discharging schedules of electric vehicles (...
Effectively operating an electric vehicle charging station (EVCS) is crucial for enabling the rapid ...
With the recent advances in mobile energy storage technologies, electric vehicles (EVs) have become ...
EVA Deliverable No. 4.1 - Advanced charge-scheduling algorithms for EVs and EVAs and forecastingElec...
This paper addresses the problem of defining a day-ahead consumption plan for charging a fleet of el...
© 2021 The Authors. IET Electrical Systems in Transportation published by John Wiley & Sons Ltd on b...
In recent years, the importance of electric mobility has increased in response to climate change. Th...
Demand response (DR) becomes critical to manage the charging load of a growing electric vehicle (EV)...
Electric vehicle (EV) charging stations represent a substantial load with significant flexibility. B...
To mitigate global warming and energy shortage, integration of renewable energy generation sources, ...
This paper proposes a demand response method to reduce the long-term charging cost of single plug-in...
With the increase in Electric Vehicles (EVs) penetration, their charging needs form an additional bu...
Recent years have seen an unprecedented uptake in electric vehicles, driven by the global push to re...
When electric vehicle (EV) participates in demand response with real-time electricity price, the EV ...
This paper addresses the problem of optimizing charging/discharging schedules of electric vehicles (...
Effectively operating an electric vehicle charging station (EVCS) is crucial for enabling the rapid ...
With the recent advances in mobile energy storage technologies, electric vehicles (EVs) have become ...
EVA Deliverable No. 4.1 - Advanced charge-scheduling algorithms for EVs and EVAs and forecastingElec...
This paper addresses the problem of defining a day-ahead consumption plan for charging a fleet of el...
© 2021 The Authors. IET Electrical Systems in Transportation published by John Wiley & Sons Ltd on b...
In recent years, the importance of electric mobility has increased in response to climate change. Th...