A robotic arm for safe and accurate control of biomedical equipment during COVID-19.

IF 3.1 Q2 MEDICAL INFORMATICS
Ernesto Iadanza, Giammarco Pasqua, Davide Piaggio, Corrado Caputo, Monica Gherardelli, Leandro Pecchia
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引用次数: 1

Abstract

Purpose: Hospital facilities and social life, along with the global economy, have been severely challenged by COVID-19 since the World Health Organization (WHO) declared it a pandemic in March 2020. Since then, countless ordinary citizens, as well as healthcare workers, have contracted the virus by just coming into contact with infected surfaces. In order to minimise the risk of getting infected by contact with such surfaces, our study aims to design, prototype, and test a new device able to connect users, such as common citizens, doctors or paramedics, with either common-use interfaces (e.g., lift and snack machine keyboards, traffic light push-buttons) or medical-use interfaces (e.g., any medical equipment keypad).

Method: To this purpose, the device was designed with the help of Unified Modelling Language (UML) schemes, and was informed by a risk analysis, that highlighted some of its essential requirements and specifications. Consequently, the chosen constructive solution of the robotic system, i.e., a robotic-arm structure, was designed and manufactured using computer-aided design and 3D printing.

Result: The final prototype included a properly programmed micro-controller, linked via Bluetooth to a multi-platform mobile phone app, which represents the user interface. The system was then successfully tested on different physical keypads and touch screens. Better performance of the system can be foreseen by introducing improvements in the industrial production phase.

Conclusion: This first prototype paves the way for further research in this area, allowing for better management and preparedness of next pandemic emergencies.

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一种机器人手臂,用于在COVID-19期间安全准确地控制生物医学设备。
目的:自2020年3月世界卫生组织(世卫组织)宣布COVID-19大流行以来,医院设施和社会生活以及全球经济都受到了严重挑战。从那时起,无数普通市民和医护人员仅仅通过接触受感染的表面就感染了病毒。为了最大限度地减少因接触此类表面而感染的风险,我们的研究旨在设计、制作原型并测试一种新设备,该设备能够将普通市民、医生或护理人员等用户与常用接口(例如电梯和小吃机键盘、交通灯按钮)或医疗使用接口(例如任何医疗设备键盘)连接起来。方法:为此目的,该设备是在统一建模语言(UML)方案的帮助下设计的,并通过风险分析获得信息,该分析突出了一些基本需求和规范。因此,选择了机器人系统的构造解,即机械臂结构,并利用计算机辅助设计和3D打印技术进行了设计和制造。结果:最终的原型包括一个经过适当编程的微控制器,通过蓝牙连接到一个多平台的手机应用程序,它代表用户界面。该系统随后在不同的物理键盘和触摸屏上成功地进行了测试。通过在工业生产阶段引入改进,可以预见系统的更好性能。结论:第一个原型为这一领域的进一步研究铺平了道路,使我们能够更好地管理和准备下一次大流行紧急情况。
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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来源期刊
Health and Technology
Health and Technology MEDICAL INFORMATICS-
CiteScore
7.10
自引率
0.00%
发文量
83
期刊介绍: Health and Technology is the first truly cross-disciplinary journal on issues related to health technologies addressing all professions relating to health, care and health technology.The journal constitutes an information platform connecting medical technology and informatics with the needs of care, health care professionals and patients. Thus, medical physicists and biomedical/clinical engineers are encouraged to write articles not only for their colleagues, but directed to all other groups of readers as well, and vice versa.By its nature, the journal presents and discusses hot subjects including but not limited to patient safety, patient empowerment, disease surveillance and management, e-health and issues concerning data security, privacy, reliability and management, data mining and knowledge exchange as well as health prevention. The journal also addresses the medical, financial, social, educational and safety aspects of health technologies as well as health technology assessment and management, including issues such security, efficacy, cost in comparison to the benefit, as well as social, legal and ethical implications.This journal is a communicative source for the health work force (physicians, nurses, medical physicists, clinical engineers, biomedical engineers, hospital engineers, etc.), the ministries of health, hospital management, self-employed doctors, health care providers and regulatory agencies, the medical technology industry, patients'' associations, universities (biomedical and clinical engineering, medical physics, medical informatics, biology, medicine and public health as well as health economics programs), research institutes and professional, scientific and technical organizations.Health and Technology is jointly published by Springer and the IUPESM (International Union for Physical and Engineering Sciences in Medicine) in cooperation with the World Health Organization.
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