Ingeniería en Sistemas, Electrónica e Industrial
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Item Sistema de telemedicina con monitoreo de signos vitales basado en Iot en un ambiente Smart TV(Universidad Técnica de Ambato. Facultad de Ingeniería en Sistemas, Electrónica e Industrial. Carrera de Ingeniería en Electrónica y Comunicaciones, 2021-03) Garcés Salazar, Roberto Andrés; Manzano Villafuerte, Víctor SantiagoABSTRACT The current pandemic has hampered medical care and access to the various conventional health services, which can sometimes be difficult for people living far from the nearest health service, or they cannot be mobilized due to various medical conditions. This project implements a telemedicine system with a home-focused architecture using IoT based on four elements: User interface, administration, connectivity, and medical sensors. In the user interface layer, an application was developed with the React-Native framework for the Android TV system, which will receive the sensing data from the medical sensor layer of the BPMs and SpO2 MAX30100 sensor via Bluetooth, embedded within a wearable electronic circuit. This data will be sent via the TCP/IP protocol and managed via Odoo, hosted in an Amazon EC2 instance. The stored information can be displayed through tables and graphs, alert the user when receiving abnormal data, and send prescriptions to the Android TV app in a timely manner. A survey of forty health professionals was carried out to ascertain the benefit of the proposed system. Of this sample, 88.5 percent would be willing to implement the system at their workplace. In addition, I should mention that this work is part of the research project "Telemedicine System for the Monitoring of Vital Signals in a Smart TV Environment", approved by Resolution No. UTA- CONIN-2020-0297-R.Item Sistema electrónico para la rehabilitación de mano(2020-08) Lima Arias, Luis Alfonso; Córdova Córdova, Edgar PatricioABSTRACT The injuries that the hands present can be caused by different pathologies such as blows, fractures or diseases that attack the system, these presented pathologies need to be treated and rehabilitated, so we proceed to perform an electronic hand rehabilitation system that helps to improve the process of rehabilitation of patients suffering from it. The research presents the design, construction and operation of a robotic prosthesis, which is aimed at improving the quality of life of people suffering from hand fractures, fingers, radial nerve paralysis, hand osteoarthritis, among others, the use The prototype improves the rehabilitation process as it helps correct different injuries that can occur in the hands. The prototype is composed of two fundamental parts, the first part is a mechanism which allows the flexion of the fingers and joints of the affected parts, the second part is of functionality since being used allows the early recovery of the lesions, the prototype is built by means of 3D printing, since when designed it allows us an ergonomic adaptation according to the user's needs.