2020
DOI: 10.1016/j.jobe.2019.100948
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Towards utilizing internet of things (IoT) devices for understanding individual occupants' energy usage of personal and shared appliances in office buildings

Abstract: Energy consumption in office buildings highly depends on occupant energy-use behaviors and intervening these behaviors could function as a cost-effective approach to enhance energy savings. Current behavior-intervention techniques extensively rely on occupant-specific energy-use information at the workstation level and often ignore shared appliances. It is because an occupant typically has full responsibility for her workstation appliances energy consumption and shares the responsibility of the shared applianc… Show more

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Cited by 45 publications
(35 citation statements)
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References 81 publications
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“…Francisco et al (2018), developed a technique to represent measured energy consumption data in as-built BIM and showed its potential in driving the energy-saving behavior of occupants to provide better automatic transmission of sensor information to BIM platforms. Rafsanjani and Ghahramani (2020) proposed a novel approach that incorporated IoT sensors using Wi-Fi to evaluate the energy behavior of individuals in the office, which can be applied to identify inefficient behavior of individuals and responding to it, thereby driving the energy-saving behavior. Similarly, Rinaldi et al (2019) proposed an IoT framework to estimate the indoor conditions as well as occupancy rates, which provided hints for energy-saving strategy by further understanding the pattern of the indoor conditions.…”
Section: Energy Performance Managementmentioning
confidence: 99%
“…Francisco et al (2018), developed a technique to represent measured energy consumption data in as-built BIM and showed its potential in driving the energy-saving behavior of occupants to provide better automatic transmission of sensor information to BIM platforms. Rafsanjani and Ghahramani (2020) proposed a novel approach that incorporated IoT sensors using Wi-Fi to evaluate the energy behavior of individuals in the office, which can be applied to identify inefficient behavior of individuals and responding to it, thereby driving the energy-saving behavior. Similarly, Rinaldi et al (2019) proposed an IoT framework to estimate the indoor conditions as well as occupancy rates, which provided hints for energy-saving strategy by further understanding the pattern of the indoor conditions.…”
Section: Energy Performance Managementmentioning
confidence: 99%
“…In the third time slot, the state of the node is transformed to ''sleep state'' which increases the value (NLT ) EMS because the energy consumption rate in case of ''idle'' is notably decreased. During the time slots, a chance to replace the critical energy nodes will be increased, as in (15).…”
Section: B Strategy 2: Schedulingmentioning
confidence: 99%
“…IIoT devices enable smart energy systems by providing support in various dimensions of energy system including: demand services, regulations and marketing, generation, transmission and distribution [25][26][27] as shown in Figure 5. 5G and IIoT have benefited the field of energy and utilities the most.…”
Section: Introductionmentioning
confidence: 99%