A Contactless IoT-Based GPS-Tracked Waste Bin to Curb Medical Waste Infections in Ghana

J. Annan, N. E. Akpeke, E. A. A. Kwesi, H. Appiah
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引用次数: 1

Abstract

Irregular checking of waste especially in some medical facilities of Ghana leads to overflow of waste. A study by World Health Organisation (WHO) in February 2018 indicates that 15% of the total waste collected from medical facilities may be infectious, toxic, or radioactive and may contribute to unintended release of chemical or biological hazards. Considering the present COVID-19 pandemic and other diseases like ebola and hantavirus, it is critical to properly manage waste collected from medical facilities. In this study, Internet of Things (IoT) is used to design a smart bin to help reduce user contact to waste. Using a flowchart, a schematic model of the system was developed using Proteus 8.11 software. Two HCSR04 ultrasonic sensors were used to measure the waste level in the bin and detect proximity of objects to the bin to trigger an MG996R servo motor for automatic operation of the lid of the waste bin having a monitoring system. A NEO-6M GPS module was used to determine the location of the waste bin and displayed on a 16x2 LCD. A Graphical User Interface (GUI) was created for remote monitoring of waste over the internet. An ESP32 node MCU was programmed using Arduino software and used to interface the system with the GUI. The designed system was constructed and incorporated into a rectangular-shaped plastic bin. During testing, a hand wave at the sensor on the side of the container triggered opening of the bin. Sample waste placed in the bin were detected and real-time information regarding waste levels were sent to a self-designed HTML webpage called ‘Smart Bin’ with dynamic IP address. This system could be used in health facilities to prevent medical waste overflow, limit human contact to waste and avoid spread of infections.
加纳采用非接触式物联网gps追踪垃圾桶遏制医疗垃圾感染
不定期检查废物,特别是在加纳的一些医疗设施,导致废物泛滥。世界卫生组织(世卫组织)2018年2月的一项研究表明,从医疗设施收集的废物总量中有15%可能具有传染性、毒性或放射性,并可能导致意外释放化学或生物危害。考虑到目前的COVID-19大流行以及埃博拉和汉坦病毒等其他疾病,妥善管理从医疗设施收集的废物至关重要。在本研究中,使用物联网(IoT)来设计智能垃圾箱,以帮助减少用户接触浪费。利用Proteus 8.11软件,用流程图建立了系统的原理图模型。使用两个HCSR04超声波传感器测量垃圾桶内的垃圾水平,检测物体与垃圾桶的接近程度,触发MG996R伺服电机,使垃圾桶盖自动运行,并具有监控系统。使用NEO-6M GPS模块确定垃圾箱的位置,并在16x2 LCD上显示。创建了一个图形用户界面(GUI),用于通过互联网远程监控废物。利用Arduino软件对ESP32节点单片机进行编程,并将其用于系统与GUI的接口。设计的系统被构造并整合到一个矩形的塑料箱中。在测试过程中,手在容器侧面的传感器上一挥手,就会触发箱子的打开。检测放置在垃圾桶中的样本废物,并将有关废物水平的实时信息发送到一个自行设计的名为“智能垃圾桶”的HTML网页,该网页具有动态IP地址。该系统可用于卫生设施,以防止医疗废物溢出,限制人类与废物的接触,避免感染的传播。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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