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HomeLabGym : a real-world testbed for home energy management systems

Toon Van Puyvelde (UGent) , Marie-Sophie Verwee (UGent) , Gargya Gokhale (UGent) , Mehran Zareh-Eshdoust and Chris Develder (UGent)
(2024) PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024. p.478-479
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Abstract
Amid growing environmental concerns and resulting energy costs, there is a rising need for efficient Home Energy Management Systems (HEMS). Evaluating such innovative HEMS solutions typically relies on simulations that may not model the full complexity of a real-world scenario. On the other hand, real-world testing, while more accurate, is labor-intensive, particularly when dealing with diverse assets, each using a distinct communication protocol or API. Centralizing and synchronizing the control of such a heterogeneous pool of assets thus poses a significant challenge. In this paper, we introduce HomeLabGym, a real-world testbed to ease such real-world evaluations of HEMS and flexible assets control in general, by adhering to the well-known OpenAI Gym paradigm. HomeLabGym allows researchers to prototype, deploy, and analyze HEMS controllers within the controlled test environment of a real-world house (the IDLab HomeLab), providing access to all its available sensors and smart appliances. The easy-to-use Python interface eliminates concerns about intricate communication protocols associated with sensors and appliances, streamlining the evaluation of various control strategies. We present an overview of HomeLabGym, and demonstrate its usefulness to researchers in a comparison between real-world and simulated environments in controlling a residential battery in response to real-time prices.
Keywords
Home Energy Management, Reinforcement Learning, Prototyping, Hardware

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MLA
Van Puyvelde, Toon, et al. “HomeLabGym : A Real-World Testbed for Home Energy Management Systems.” PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024, Association for Computing Machinery (ACM), 2024, pp. 478–79, doi:10.1145/3632775.3661974.
APA
Van Puyvelde, T., Verwee, M.-S., Gokhale, G., Zareh-Eshdoust, M., & Develder, C. (2024). HomeLabGym : a real-world testbed for home energy management systems. PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024, 478–479. https://doi.org/10.1145/3632775.3661974
Chicago author-date
Van Puyvelde, Toon, Marie-Sophie Verwee, Gargya Gokhale, Mehran Zareh-Eshdoust, and Chris Develder. 2024. “HomeLabGym : A Real-World Testbed for Home Energy Management Systems.” In PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024, 478–79. Association for Computing Machinery (ACM). https://doi.org/10.1145/3632775.3661974.
Chicago author-date (all authors)
Van Puyvelde, Toon, Marie-Sophie Verwee, Gargya Gokhale, Mehran Zareh-Eshdoust, and Chris Develder. 2024. “HomeLabGym : A Real-World Testbed for Home Energy Management Systems.” In PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024, 478–479. Association for Computing Machinery (ACM). doi:10.1145/3632775.3661974.
Vancouver
1.
Van Puyvelde T, Verwee M-S, Gokhale G, Zareh-Eshdoust M, Develder C. HomeLabGym : a real-world testbed for home energy management systems. In: PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024. Association for Computing Machinery (ACM); 2024. p. 478–9.
IEEE
[1]
T. Van Puyvelde, M.-S. Verwee, G. Gokhale, M. Zareh-Eshdoust, and C. Develder, “HomeLabGym : a real-world testbed for home energy management systems,” in PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024, Singapore, Singapore, 2024, pp. 478–479.
@inproceedings{01HZ1TA323FRGTDWK1G55BWQMQ,
  abstract     = {{Amid growing environmental concerns and resulting energy costs, there is a rising need for efficient Home Energy Management Systems (HEMS). Evaluating such innovative HEMS solutions typically relies on simulations that may not model the full complexity of a real-world scenario. On the other hand, real-world testing, while more accurate, is labor-intensive, particularly when dealing with diverse assets, each using a distinct communication protocol or API. Centralizing and synchronizing the control of such a heterogeneous pool of assets thus poses a significant challenge. In this paper, we introduce HomeLabGym, a real-world testbed to ease such real-world evaluations of HEMS and flexible assets control in general, by adhering to the well-known OpenAI Gym paradigm. HomeLabGym allows researchers to prototype, deploy, and analyze HEMS controllers within the controlled test environment of a real-world house (the IDLab HomeLab), providing access to all its available sensors and smart appliances. The easy-to-use Python interface eliminates concerns about intricate communication protocols associated with sensors and appliances, streamlining the evaluation of various control strategies. We present an overview of HomeLabGym, and demonstrate its usefulness to researchers in a comparison between real-world and simulated environments in controlling a residential battery in response to real-time prices.}},
  author       = {{Van Puyvelde, Toon and Verwee, Marie-Sophie and Gokhale, Gargya and Zareh-Eshdoust, Mehran and Develder, Chris}},
  booktitle    = {{PROCEEDINGS OF THE 15TH ACM INTERNATIONAL CONFERENCE ON FUTURE AND SUSTAINABLE ENERGY SYSTEMS, E-ENERGY 2024}},
  isbn         = {{9798400704802}},
  keywords     = {{Home Energy Management,Reinforcement Learning,Prototyping,Hardware}},
  language     = {{eng}},
  location     = {{Singapore, Singapore}},
  pages        = {{478--479}},
  publisher    = {{Association for Computing Machinery (ACM)}},
  title        = {{HomeLabGym : a real-world testbed for home energy management systems}},
  url          = {{http://doi.org/10.1145/3632775.3661974}},
  year         = {{2024}},
}
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