Temperature and humidity sensors: Difference between revisions
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== Background == | == Background == | ||
With the advancement of smart home systems, agricultural monitoring, and industrial environmental control, real-time monitoring of ambient temperature and humidity has become increasingly important. Variations in temperature and humidity significantly impact human daily activities, industrial production, and the storage conditions of various products. Traditional temperature and humidity measurement instruments are often expensive or lack real-time data display capabilities. Therefore, designing a low-cost, real-time temperature and humidity monitoring system based on the DHT11 sensor and Arduino holds significant practical and educational value. | |||
== Objective == | == Objective == | ||
Revision as of 13:14, 7 March 2025
Team Member
Chen Andi、Chen Miaoge、Chen Yingnan、Fang Ye
Background
With the advancement of smart home systems, agricultural monitoring, and industrial environmental control, real-time monitoring of ambient temperature and humidity has become increasingly important. Variations in temperature and humidity significantly impact human daily activities, industrial production, and the storage conditions of various products. Traditional temperature and humidity measurement instruments are often expensive or lack real-time data display capabilities. Therefore, designing a low-cost, real-time temperature and humidity monitoring system based on the DHT11 sensor and Arduino holds significant practical and educational value.
