Research and Application of Environmental Monitoring Technology in Smart Homes
DOI:
https://doi.org/10.54691/jsgxth68Keywords:
Smart home, environmental monitoring, sensor technology, air quality, temperature and humidity monitoring.Abstract
With the rapid development of smart home technology, environmental monitoring systems have become an important part of improving living comfort and safety. Through real-time monitoring of multiple sensors such as temperature and humidity, air quality, light intensity, and noise, environmental monitoring technology can automatically adjust the indoor environment, optimize air quality, temperature and humidity, and light, thereby improving living experience and energy efficiency. This paper reviews the application status of environmental monitoring technology in smart homes, focusing on the principles and applications of temperature and humidity, air quality, light and noise sensors. Through these sensors, the smart home system can automatically control air conditioners, air purifiers, lighting systems and other equipment based on real-time data to achieve a comfortable and healthy living environment. This article also discusses the actual application scenarios of smart home environment monitoring technologies, including temperature and humidity adjustment, air quality monitoring, smart lighting and noise management, and analyzes the advantages and challenges brought by these technologies. Although environmental monitoring technology has made significant progress in improving the functionality of smart home systems, it still faces technical challenges in terms of sensor accuracy, data processing, and device compatibility. With the continuous maturity of technologies such as the Internet of Things and artificial intelligence, environmental monitoring technology will be more widely used in the field of smart homes in the future, further optimizing the living environment and promoting a healthy, energy-saving and comfortable living experience.
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[1] Zhou, J. (2024). Research on the IoT-based smart home terminal control system [D]. Master's thesis, Jilin University of Chemical Technology. DOI: 10.27911/d.cnki.ghjgx.2024.000182.
[2] Sun, W., & Wang, L. (2024). Design of smart home control system based on IoT technology. Daily Appliances, (04), 50-54.
[3] Sun, J. (2023). Design and implementation of air quality sensor data monitoring system [D]. Master's thesis, Shandong University. DOI: 10.27272/d.cnki.gshdu.2023.004313.
[4] Jiang, S., Weng, S., Che, Y., et al. (2022). Design of a noise automatic monitoring calibration system based on wireless sensor networks. Electronic Design Engineering, 30(17), 95-99. DOI: 10.14022/j.issn1674-6236.2022.17.020.
[5] Tian, Q., Jiang, Z., & Ye, P. (2019). IoT-based smart home environmental monitoring system based on STM32. Science and Technology Innovation and Application, (35), 29-30. DOI: 10.19981/j.cn23-1581/g3.2019.35.012.
[6] Lü, X., Xia, Y., Yin, S., et al. (2019). Design of smart home environmental remote monitoring system based on Arduino. Information and Computer (Theoretical Edition), (05), 78-80.
[7] Guo, Z. (2018). Research and design of an IoT-based smart home environmental monitoring system. Information and Computer (Theoretical Edition), (17), 50-53.
[8] Zou, H. (2016). Research on the IoT-based smart home environmental monitoring system [D]. Master's thesis, East China Jiaotong University. DOI: 10.27147/d.cnki.ghdju.2016.000014.
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