Experimental datasets of three-tier fog computing based gateway node for the smart home automation applications
Description
Smart home automation application demands efficient energy management to limit the unnecessary power consumption of home appliances while maintaining maximum occupant comfort. Three-tier fog computing-based gateway node at the network edge can provide wireless solutions on real-time remote supervision, aggregated data management with cloud platforms, and autonomous home apparatus controlling to limit unnecessary energy consumption at reduced network traffic and low latency. Historical data need to gather through a series of experimental analyses to investigate the performance of such gateway nodes in various aspects. Such as investigating platform load profiles like current and power consumption measurements, platform resource utilization as CPU and network bandwidth usage, and the response time requirement analysis. Measurements were carried out by deploying the gateway in Intel NUC, and RPi 3B+ platform under three test case scenarios. The corresponding raw data measurement has been recorded and reported in this dataset. @ Dataset Summery: 1. Current Consumption: Raw data of the Current Measurements in ampere (A) of the RPi deployed Gateway Node. 2. Power Consumption: Raw data Measurements of the Power Consumption in watts (W) of the RPi and NUC deployed Gateway Node. 3. Historic CPU Temperature: Raw data of the Historical CPU Temperature measurements in Celsius (°C) of RPi deployed Gateway Node. 4. Historic Network Utilization: Raw data of the Historical Network Bandwidth Utilization measurements in megabyte per seconds (MB/s) of RPi and NUC deployed Gateway Node. 5. CPU Consumption: Raw data of the Percentage of platform CPU Consumption Measurements of the RPi and NUC deployed Gateway Node. 6. Response Time Analysis: Raw data of the ThingSpeak and ThingsSentral cloud Response Time measurements in seconds of RPi and NUC deployed Gateway web requests.
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Institutions
- Universiti Kebangsaan Malaysia