Publication:
Methodology for a Large Scale Building Internet of Things Retrofit

Date
2020
Authors
Dzulkifly S.
Aris H.
Jorgensen B.N.
Santos A.Q.
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Institute of Electrical and Electronics Engineers Inc.
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Abstract
With the presence of sensing technologies today, buildings can be built fitted with various sensors and systems to encourage energy efficiency and sustainability. However, legacy buildings are not originally built to support internet-of-things (IoT) technology or to promote sustainability. Thus, legacy buildings that are still being actively used today require retrofitting works to improve the efficiency of the buildings. Retrofitting the legacy buildings with IoT capabilities can be very challenging due to the active use of the buildings, dynamic building functions, undocumented indoor modifications and vulnerable physical structure, among others. Therefore, a comprehensive methodology is needed for systematic deployment of the sensors and associated systems into the building, covering a complete cycle from identifying the needs and requirements of the system until its full operation. This study aims to devise and advocate a methodology for systematic retrofitting of sensors in legacy buildings and hence enabling the collection of energy consumption data. To do that, a 20-year old six-storey academic building in one of the institutes of higher learning in Malaysia is used as a case study. This paper explains the first part of the progressive development of the proposed methodology, which is on the protocol for the placement of the sensors and devices. The outcome of this study details the operational planning that can be referred to for future buildings retrofitting work on a similar scale. Issues and challenges faced in the process of establishing the protocol are also discussed. � 2020 IEEE.
Description
Buildings; Energy efficiency; Energy utilization; Retrofitting; Sustainable development; Energy consumption datum; Internet of Things (IOT); Issues and challenges; Large scale buildings; Operational planning; Physical structures; Sensing technology; Systematic deployment; Internet of things
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