Investigating thermal comfort for the classroom environment using IoT

@article{Ramli2018InvestigatingTC,
  title={Investigating thermal comfort for the classroom environment using IoT},
  author={Nurshahrily Idura Ramli and Mohd Izani Mohamed Rawi and Ahmad Zahid Hijazi and Abdullah Mohammed},
  journal={Indonesian Journal of Electrical Engineering and Computer Science},
  year={2018},
  volume={9},
  pages={157-163}
}
In this modern century where fine comfort is a necessity especially in buildings and occupied space, the study to satisfy one aspect of human comfort is a must. This study encompasses of exploring the physiological and environmental factors in achieving thermal comfort which specifically considering the clothing insulation and metabolic rate of students as well as the deployment of dry-bulb temperature, mean radiant temperature, humidity, and air movement in order to obtain the level of comfort… 

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References

SHOWING 1-10 OF 18 REFERENCES
Human Thermal Comfort
The purpose of this research is to investigate human comfort criteria under steady-state conditions as a function of ambient air temperature, mean radiant temperature, relative humidity, air
A human thermal model for improved thermal comfort
Energy efficient very low-energy houses, passive houses and nearly zero-energy houses have a significantly lower heating power demand than traditional buildings. Therefore, the typical design and
Design of a Room Monitoring System for Wireless Sensor Networks
TLDR
From the results of the tests, it is confirmed that the designed wireless sensor module and room monitoring system can supply a comfortable environment for people by monitoring the indoor environment.
Development of Face Recognition on Raspberry Pi for Security Enhancement of Smart Home System
TLDR
This paper proposed a face recognition security system using Raspberry Pi which can be connected to the smart home system, and proposed a hierarchical image processing approach to reduce the training or testing time while improving the recognition accuracy.
Thermal comfort: analysis and applications in environmental engineering,
Investigation of the Optimal Position of Wind Sensors and Wind Turbines on a Building: A Computational Fluid Dynamics Study
Most numerical studies on flow over buildings simplify the geometry of the roof and assume that it is flat. This may lead to misrepresentation of the flow as the roof of actual buildings contains
WareWise: Business Development Management Framework based on Device-to-Device Industrial Internet of Things
TLDR
A framework outline for decentralized device to device (D2D) - based BD execution is proposed, where versatile hubs have the ability of both executing BDs additionally moving BD execution to different hubs amid runtime.
Sensor Network Embedded Intelligence: human comfort ambient intelligence
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