网络上的生物纳米传感器用于糖尿病控制,并为用户发出警报

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY Ingenieria Solidaria Pub Date : 2019-09-16 DOI:10.16925/2357-6014.2019.03.10
Edison Andres Quijano Suarez, Hector Felipe Hurtado Acosta, Gerardo Alberto Castang Montiel
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引用次数: 2

摘要

本论文是“糖尿病控制的生物网络纳米传感器,并向用户发出警报”研究的成果,该研究由弗朗西斯科·约瑟·德·卡尔达斯地区大学的技术学院在2018年和2019年进行。问题:糖尿病是一种影响大多数成年人的疾病,如果没有适当的控制,可能会导致健康并发症,导致早期死亡。目的:提出一种纳米网络与监测网络应用之间通信的理论原型,该应用可以向患有糖尿病的用户发出警报,从而更好地控制他们的疾病。方法:使用了2010年以来出版的研究文章、书籍和论坛(参考文献中有一些例外),以及Netcool、Nagios和Pandora等工具的官方文档。结果:找到66个来源,包括论文、专著、论坛和其他符合研究指南的来源。此外,发现许多应用可以在提出的理论原型中实现。结论:提出了一种纳米网络与最终用户报警管理系统通信的理论原型。这个原型使用了当前的技术和专门的工具。原创性:本文提出了一个创新的理论原型,旨在利用新兴技术解决卫生部门的一个问题。局限性:面向生物过程的纳米物联网是一项新兴技术。在写这篇论文的时候,还没有真正的原型或工具来模拟纳米网络与生物技术的结合。
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Biological Nanosensors On Network for Diabetes Control With Alert Emission for Users
Introduction: This paper is the product of the research "Biological network nanosensors for diabetes control with the issuance of alerts to users", developed in the technological faculty of the Francisco José de Caldas District University carried out during 2018 and 2019. Problem: Diabetes is a disease that affects most of the adult population and not having proper control can lead to health complications that lead to early deaths. Objective: To propose a theoretical prototype for communication between a nano network and the applications that work to monitor networks, which issues an alarm to users who have diabetes and thus have better control of their disease. Methodology: Research articles, books and forums published from 2010 onwards (some exceptions are found in the references) were used, along with official documentation of tools such as Netcool, Nagios and Pandora. Results: 66 sources were found including papers, monographs, forums and others that complied with the research guidelines. In addition, numerous applications were found that can be implemented in the proposed theoretical prototype. Conclusion: A theoretical prototype is proposed for communication between a nano network and an alarm management system for the end user. This prototype use current technologies and specialized tools. Originality: The article presents an innovative theoretical prototype, designed to solve a problem in the health sector, that makes use of emerging technologies.  Limitations: The internet of nano-things, oriented to biological processes, is an emerging technology. At the time of writing this paper, there are no real prototypes or tools to simulate nano networks in conjunction with biotechnology.
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Ingenieria Solidaria
Ingenieria Solidaria ENGINEERING, MULTIDISCIPLINARY-
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