Employing electricity-consumption monitoring systems and integrative time-series analysis models: A case study in Bogor, Indonesia

The Paris Agreement calls for maintaining a global temperature less than 2°C above the pre-industrial level and pursuing efforts to limit the temperature increase even further to 1.5°C. To realize this objective and promote a low-carbon society, and because energy production and use is the largest s...

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Bibliographic Details
Published in:Frontiers in Energy 2018-09, Vol.12 (3), p.426-439
Main Authors: MAKI, Seiya, ASHINA, Shuichi, FUJII, Minoru, FUJITA, Tsuyoshi, YABE, Norio, UCHIDA, Kenji, GINTING, Gito, BOER, Rizaldi, CHANDRAN, Remi
Format: Article
Language:English
Subjects:
Carbon
Climate change
Clustering
Commercial buildings
Consumption patterns
Data processing
Developing countries
Electric power demand
Electricity
Electricity consumption
electricity demand prediction
electricity monitoring
Energy
Energy consumption
Energy demand
Energy management
Energy Systems
Global temperatures
Greenhouse gases
Households
Identification methods
Indonesia
Innovations
LDCs
Monitoring
Monitoring systems
multiple-variable time-series modeling
Paris Agreement
Peak demand
Peak load
Prediction models
Public buildings
Regression analysis
Regression models
Research Article
Residential buildings
Residential energy
Time series
time-series cluster analysis
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Summary:The Paris Agreement calls for maintaining a global temperature less than 2°C above the pre-industrial level and pursuing efforts to limit the temperature increase even further to 1.5°C. To realize this objective and promote a low-carbon society, and because energy production and use is the largest source of global greenhouse-gas (GHG) emissions, it is important to efficiently manage energy demand and supply systems. This, in turn, requires theoretical and practical research and innovation in smart energy monitoring technologies, the identification of appropriate methods for detailed time-series analysis, and the application of these technologies at urban and national scales. Further, because developing countries contribute increasing shares of domestic energy consumption, it is important to consider the application of such innovations in these areas. Motivated by the mandates set out in global agreements on climate change and low-carbon societies, this paper focuses on the development of a smart energy monitoring system (SEMS) and its deployment in households and public and commercial sectors in Bogor, Indonesia. An electricity demand prediction model is developed for each device using the Auto-Regression eXogenous model. The real-time SEMS data and time-series clustering to explore similarities in electricity consumption patterns between monitored units, such as residential, public, and commercial buildings, in Bogor is, then, used. These clusters are evaluated using peak demand and Ramadan term characteristics. The resulting energy-prediction models can be used for low-carbon planning.
ISSN:2095-1701
2095-1698
DOI:10.1007/s11708-018-0560-4