Development of Monitoring Tower Using Gyroscope Sensor Based on Esp32 Microcontroller

Al Imran, Muliaty Yantahin, Abdul Muis Mappalotteng, Muh Arham
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引用次数: 1

Abstract

This research is a research and development research that aims to find out the results of the development of  tower slope monitoring tools using the  ESP32 Microcontroller-Based Sensor Gyroscope  and find out the test results of  the tool tower tilt  monitoring  using the ESP32  Microcontroller-Based Gyroscope Sensor. The development model used in this study is a prototyping model  with stages of  collecting needs, building prototypes, evaluating prototypes, coding s i stem,  testing sistem, evaluation sistem, use s istem. The data used are  interviews, questionnaires, observations and measurements. The data were analyzed using descriptive statistical analysis techniques.  Based on the results of this study,  a prototype of a tower slope monitoring  tool was produced that was used to  monitor the  slope of the tower remotely  through the telegram application. From the test results of  the tower tilt monitoring  tool using the  MPU6050 gyroscope sensor based on the  ESP32  microcontroller, it was found that the average time it takes to receive notifications if they occur  the slope is 3.21 seconds. The results of  the pecan test n there is a  difference in  the angle read at a height of 1 meter is 0.3 degrees, a height of 2 meters 0.2 degrees, a height of 3 meters 0.22 degrees, and a height of 4 meters 0.18 degrees.  The results of  the functional suitability test show that the  tool functions as designed.  The usability characteristic of the  tower slope monitoring tool gets an average  score of being included in the excellent  category.
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基于Esp32单片机的陀螺传感器监测塔的研制
本研究是一项研发研究,旨在了解利用基于ESP32单片机的传感器陀螺仪开发塔架坡度监测工具的结果,以及利用基于ESP32单片机的陀螺仪传感器进行塔架倾斜监测的测试结果。本研究使用的开发模型是一个原型模型,分为收集需求、构建原型、评估原型、编码系统、测试系统、评估系统、使用系统等阶段。使用的数据包括访谈、问卷调查、观察和测量。使用描述性统计分析技术对数据进行分析。根据研究结果,制作了塔身坡度监测工具的原型,通过电报应用程序远程监测塔身坡度。从使用基于ESP32微控制器的MPU6050陀螺仪传感器的塔台倾斜监测工具的测试结果来看,如果发生倾斜,接收通知所需的平均时间为3.21秒。山核桃试验的结果有一个差异,在1米高处读取的角度为0.3度,在2米高处读取的角度为0.2度,在3米高处读取的角度为0.22度,在4米高处读取的角度为0.18度。功能适用性测试结果表明,该工具的功能符合设计要求。塔架坡度监测工具的可用性特征平均得分为优秀。
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来源期刊
CiteScore
1.50
自引率
0.00%
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0
审稿时长
4 weeks
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