Abstract
Since awareness of the influence of home energy management services (HEMS) with Internet of things (IoT) has grown, the study on the acceptance of IoT services has been expanded. Previous studies, however, have not paid attention to the acceptance itself, focusing only on factors affecting the acceptance. This study attempts to draw meaningful implications by exploring the relationships between the acceptance and the factors affecting it with distinctions between passive acceptance and active acceptance. This study analyzed the ordinal logistic regression models based on a survey of 909 adults 19 years of age and older in Korea on HEMS with IoT. In addition, we attempt the ordinal forest to increase the reliability of the research results. As a result, this study showed that consumers’ perception of usefulness was noticeably important to enhance active acceptance and that those who had high sensitivity to new technology acceptance showed high active acceptance, and older women had higher active acceptance. This study might contribute to the research on IoT acceptance in the energy management sector by classifying the acceptance into active acceptance and passive acceptance beyond the framework of setting the acceptance as a single variable.
Highlights
Internet of things (IoT) is a huge network comprised of physical objects and/or people connected to each other
Model 5 was designed by adding individual propensity variables to Model 4, and the analysis showed that one variable of them was significant, even though the deviance of the model increased
Model 2 was designed by adding individual propensity variables to Model 1, and the analysis showed that two variables of them were significant, even though the deviance of the model increased
Summary
Internet of things (IoT) is a huge network comprised of physical objects and/or people connected to each other. The physical objects connected to this network collect data and exchange the data with other devices through the combination of sensing, communication, computing, and analyzing technologies [1,2]. The IoT can be effectively used for home energy management (HEM) system and is recognized as a main means of energy efficiency in general households [3,4]. HEM utilizing the IoT starts with installing a system for managing a wide range of home appliances from washing machines to thermostats. More households will utilize their smartphone or web interface to manage their home appliances in the future, resulting in energy savings and an expansion of relevant markets. According to IMARC [5], the HEM market is expected to grow from USD 1.6 billion in 2018 to USD 4.4 billion in 2024
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