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everWeather: A Low-Cost and Self-Powered AIoT Weather Forecasting Station for Remote Areas

In: Advances and New Trends in Environmental Informatics 2023

Author

Listed:
  • Sofia Polymeni

    (Centre for Research and Technology Hellas
    University of the Aegean)

  • Georgios Spanos

    (Centre for Research and Technology Hellas)

  • Dimitrios Tsiktsiris

    (Centre for Research and Technology Hellas)

  • Evangelos Athanasakis

    (Centre for Research and Technology Hellas)

  • Konstantinos Votis

    (Centre for Research and Technology Hellas)

  • Dimitrios Tzovaras

    (Centre for Research and Technology Hellas)

  • Georgios Kormentzas

    (University of the Aegean)

Abstract

Weather constitutes a crucial factor that impacts many of the human outdoor activities, whether they are related to obligations or pleasure. In the contemporary era, due to climate change, the weather is more unstable and the forecasting task is more challenging than ever. By combining the Internet of Things (IoT) with Artificial Intelligence (AI), a new research field emerges that is called Artificial Intelligence of Things (AIoT) and could offer significant possibilities for the research community in order to efficiently tackle the short-term weather forecasting. Renewable energy sources constitute solutions for the achievement of sustainability development goals and could also offer power autonomy in a weather forecasting station. In the present research study, everWeather is proposed as a low-cost, self-powered weather forecasting station based on the AIoT paradigm and renewable energy. The proposed solution combines a variety of low-cost environmental sensors, the prowess of solar energy and an appropriate lightweight Machine Learning (ML) algorithm such as the Multiple Linear Regression (MLR) in order to forecast physical weather for the next half hour. Preliminary experiments have been conducted for the proposed solution validation and the corresponding results highlighted that the performance of the everWeather station is quite satisfactory, in terms of reliability and forecasting accuracy.

Suggested Citation

  • Sofia Polymeni & Georgios Spanos & Dimitrios Tsiktsiris & Evangelos Athanasakis & Konstantinos Votis & Dimitrios Tzovaras & Georgios Kormentzas, 2024. "everWeather: A Low-Cost and Self-Powered AIoT Weather Forecasting Station for Remote Areas," Progress in IS, in: Volker Wohlgemuth & Dieter Kranzlmüller & Maximilian Höb (ed.), Advances and New Trends in Environmental Informatics 2023, pages 141-158, Springer.
    • Handle: RePEc:spr:prochp:978-3-031-46902-2_8
    DOI: 10.1007/978-3-031-46902-2_8
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