Abstract
In the changing environment of the Internet of Things, optimal energy management in smart spaces requires intelligent and reliable energy-aware-based context sensing and technologies that are capable of recognizing and analyzing the big-data user pattern. In this article, we propose an intelligent and reliable standby power management system. The system uses physical and virtual user behavioral pattern analysis based on energy-aware management to cut-off the standby power of office appliances in the office environment. We propose a two-step priority power-aware method. The first step entails physical perception and management that controls devices through user recognition and device relationship scenarios. The second step is virtual perception and management that controls the standby power by collecting user behavioral patterns and performs an analysis based on a rule mechanism. The proposed system was applied to three locations (offices A, B, and C) in the university test-bed. Power consumption was reduced to 23% of the original consumption through the elimination of unnecessary standby power consumption.
Highlights
In the fast-changing environment of the Internet of Things (IoT),[1] intelligent and reliable energy-aware context-sensing technologies and big-data user pattern cognition and pattern analysis are required to provide a more intelligent and efficient service to users.[2]
Our work aimed to address these shortcomings to give a balanced development of IoT device technology
The results presented in this article show an office standby–power management system (OS-power monitoring systems (PMSs)) that uses the pattern analysis of physical and virtual user devices in energy–IoT environments
Summary
In the fast-changing environment of the Internet of Things (IoT),[1] intelligent and reliable energy-aware context-sensing technologies and big-data user pattern cognition and pattern analysis are required to provide a more intelligent and efficient service to users.[2] IoT systems should be able to provide a more accurate and convenient environment for users through the intelligent analysis of energy-aware and big-data technologies for intelligence and the reliable collaboration of sensor devices in the smart space.[3] Figure 1 shows the paradigm shift resulting from current IoT technology. Past IoT technology was developed based on ubiquitous computing and M2M,4 which was only a source. International Journal of Distributed Sensor Networks Classification.
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