IoT Based Monitoring System for Mobility Control of Dairy Cattle in Indonesia

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Sofiyanti Indriasari, Y. Resti, Arvy Adhitya Sutisna, Aditya Wicaksono, D. Firmansyah
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引用次数: 0

Abstract

Providing appropriate space for movement is one of the best ways needed to increase cows’ comfort in optimizing their productivity. Currently, several farms have made some changes to the housing system by implementing a free-stall housing system. The system makes the cows more comfortable to rest and do activities because they are not tied up. Due to the large number of cows that are kept, sometimes farmers find it difficult to detect the health condition of each cow individually. Hence, an early detection system is needed to control and monitor cattle activity. The study aimed to develop a monitoring system at the free stall barn farm based on the internet of things. The method used for the study adopted the steps in the System Development Life Cycle (SDLC). Microcontroller-based dairy cow mobility monitoring tool built with NodeMCU ESP8266, GPS sensor, 5v booster, 18650 battery and housing to protect all components. All components used cables with the provisions of the NodeMCU ESP8266 as the tool control centre, GPS sensor as a coordinate point reader, battery as a voltage source, and 5v voltage booster as a component that controls the tool and controls the power off or on. The tool works by getting a power source from the battery and then displaying all the components. The GPS antenna will search for satellites to determine the coordinates of the tool and the coordinate point information will be sent to the NodeMCU ESP8266. When the GPS antenna searches for coordinates, the NodeMCU ESP8266 will look for a WiFi connection in it to then be able to access the internet and send information from the GPS sensor to the hosting website.
印度尼西亚基于物联网的奶牛移动控制监测系统
提供适当的运动空间是提高奶牛舒适度以优化生产力所需的最佳方式之一。目前,一些农场通过实施免费摊位住房制度,对住房制度进行了一些改变。该系统使奶牛更舒适地休息和活动,因为它们没有被束缚。由于饲养的奶牛数量众多,有时农民发现很难单独检测每头牛的健康状况。因此,需要一个早期检测系统来控制和监测牛的活动。这项研究旨在开发一个基于物联网的自由摊位谷仓农场监控系统。用于研究的方法采用了系统开发生命周期(SDLC)中的步骤。基于微控制器的奶牛移动监测工具,配有NodeMCU ESP8266、GPS传感器、5v升压器、18650电池和外壳,可保护所有组件。所有组件都使用电缆,NodeMCU ESP8266作为工具控制中心,GPS传感器作为坐标点读取器,电池作为电压源,5v升压器作为控制工具和控制电源关闭或打开的组件。该工具的工作原理是从电池中获取电源,然后显示所有组件。GPS天线将搜索卫星以确定工具的坐标,坐标点信息将发送到NodeMCU ESP8266。当GPS天线搜索坐标时,NodeMCU ESP8266将在其中寻找WiFi连接,然后能够访问互联网并将信息从GPS传感器发送到托管网站。
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来源期刊
Jurnal Kejuruteraan
Jurnal Kejuruteraan ENGINEERING, MULTIDISCIPLINARY-
自引率
16.70%
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0
审稿时长
24 weeks
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