Building energy consumption models based on smartphone user’s usage patterns
The increasing usage of smartphones in everyday tasks has been motivated many studies on energy consumption characterization aiming to improve smartphone devices’ effectiveness and increase user usage time. In this scenario, it is essential to study mechanisms capable of characterizing user usage pa...
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Veröffentlicht in: | Knowledge-based systems 2021-02, Vol.213, p.106680, Article 106680 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The increasing usage of smartphones in everyday tasks has been motivated many studies on energy consumption characterization aiming to improve smartphone devices’ effectiveness and increase user usage time. In this scenario, it is essential to study mechanisms capable of characterizing user usage patterns, so smartphones’ components can be adapted to promote the best user experience with lower energy consumption. The goal of this study is to build an energy consumption model based on user usage patterns aiming to provide the best accurate model to be used by application developers and automated optimization. To develop the energy consumption models, we established a method to identify the components with the most influence in the smartphone’s energy consumption and identify the states of each influential device. Besides that, we established a method to prove the robustness of the models constructed using inaccurate hardware and a strategy to assess the accuracy of the model built. After training and testing each strategy to model the energy consumption based on the user’s usage and perform the Nemenyi test, we demonstrated that it is possible to get a Mean Absolute Error of 158.57 mW when the smartphone’s average power is 1970.1 mW. Some studies show that the leading smartphone’s workload is the user. Based on this fact, we developed an automatic model building methodology that is capable of analyzing the user’s usage data and build smart models that can estimate the smartphone’s energy consumption based on the user’s usage pattern. With the automatic model building methodology, we can adopt strategies to minimize the usage of components that drain the battery. |
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ISSN: | 0950-7051 1872-7409 |
DOI: | 10.1016/j.knosys.2020.106680 |