2021
DOI: 10.1109/access.2021.3112103
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A Case Study to Quantify Variability in Building Load Profiles

Abstract: Recent technology development and penetration of advanced metering infrastructure (AMI), advanced building control systems, and the internet-of-things (IoT) in the built environment are providing detailed information on building operation, performance, and user's comfort and behavior. Building owners can obtain a wide range of energy consumption details at various levels of time granularity to augment their decisions as they manage the building operation and interact with the grid. AMI data are providing a new… Show more

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Cited by 10 publications
(5 citation statements)
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“…The proposed framework in this research is part of ongoing work and it is divided into two phases of discovery and implementation (shown in Figure 2). The discovery phase begins with a decomposition process previously discussed in [1] and [26], applied to a subset of available high-resolution measured data, to separate the variability signal from the base load. Next, the variability signal is analyzed and characterized by various metrics such as root-mean-square-variability (RMSV) [1] that summarize the typical deviation of the base load over a given period of time, or by other metrics that are related to its statistical distribution.…”
Section: Problem Formulationmentioning
confidence: 99%
See 3 more Smart Citations
“…The proposed framework in this research is part of ongoing work and it is divided into two phases of discovery and implementation (shown in Figure 2). The discovery phase begins with a decomposition process previously discussed in [1] and [26], applied to a subset of available high-resolution measured data, to separate the variability signal from the base load. Next, the variability signal is analyzed and characterized by various metrics such as root-mean-square-variability (RMSV) [1] that summarize the typical deviation of the base load over a given period of time, or by other metrics that are related to its statistical distribution.…”
Section: Problem Formulationmentioning
confidence: 99%
“…The discovery phase begins with a decomposition process previously discussed in [1] and [26], applied to a subset of available high-resolution measured data, to separate the variability signal from the base load. Next, the variability signal is analyzed and characterized by various metrics such as root-mean-square-variability (RMSV) [1] that summarize the typical deviation of the base load over a given period of time, or by other metrics that are related to its statistical distribution. This represents an important distinction from other types of high-resolution analysis, in that the variability is not directly modeled as a time-series signal, but rather characterized by these scalar metrics.…”
Section: Problem Formulationmentioning
confidence: 99%
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“…It is clear from these studies that adding smart energy can make electricity grids more efficient, reliable, and long-lasting.Advanced control systems for handling the addition of green energy sources to current power lines are an important area of study. For instance, [7] suggested a hierarchical control scheme for organizing the operation of spread energy resources like wind mills and solar panels in order to get the most energy out of the energy that is produced and used. To keep the grid stable and reliable, the system uses both local and centralized control methods.Storage systems for energy are an important part of smart energy integration because they let us save extra energy from green sources for times when demand is high.…”
Section: Introductionmentioning
confidence: 99%