Design of intelligent beehive based on single chip microcomputer

Guanyao Chen; Jiapei Zheng; Zhenyan Jiang; Mengyao Su; Lingfeng Wu; Zhoulin Chang

doi:10.1117/12.3004155

11 October 2023 Design of intelligent beehive based on single chip microcomputer

Guanyao Chen, Jiapei Zheng, Zhenyan Jiang, Mengyao Su, Lingfeng Wu, Zhoulin Chang

Proceedings Volume 12800, Sixth International Conference on Computer Information Science and Application Technology (CISAT 2023); 128005X (2023) https://doi.org/10.1117/12.3004155
Event: 6th International Conference on Computer Information Science and Application Technology (CISAT 2023), 2023, Hangzhou, China

Abstract

In the traditional beekeeping mode, there is a problem of not being able to monitor and control the temperature, humidity, and weight inside the beehive in real-time. Therefore, this article designs an intelligent beehive with temperature, humidity, and weight control systems based on a microcontroller. The system is based on the STC89C52 microcontroller and utilizes temperature and humidity sensors and weighing sensors to collect real-time temperature, humidity, and weight data inside the beehive, which is reflected in real-time on the LCD display. The system can automatically adjust the temperature and humidity inside the hive by turning on or off peripheral devices such as fan motors, thereby changing the temperature and humidity to reach the threshold range and providing a suitable living environment for the bee colony. At the same time, set the weight peak, and once overweight, the buzzer will alarm to remind bee farmers that they need to retrieve honey in a timely manner.

(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Guanyao Chen, Jiapei Zheng, Zhenyan Jiang, Mengyao Su, Lingfeng Wu, and Zhoulin Chang "Design of intelligent beehive based on single chip microcomputer", Proc. SPIE 12800, Sixth International Conference on Computer Information Science and Application Technology (CISAT 2023), 128005X (11 October 2023); https://doi.org/10.1117/12.3004155

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KEYWORDS

Microcontrollers

Humidity

Sensors

Design and modelling

Control systems

Relative humidity

Temperature control

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