Bibliographic citations
Gonzales, P., Maldonado, L. (2024). Desarrollo de un dispositivo electrónico para el monitoreo remoto de neveras exhibidoras de bebidas con capacidad de geolocalización, medición de parámetros de operación y detección de stock [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/683536
Gonzales, P., Maldonado, L. Desarrollo de un dispositivo electrónico para el monitoreo remoto de neveras exhibidoras de bebidas con capacidad de geolocalización, medición de parámetros de operación y detección de stock [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/683536
@misc{renati/1300575,
title = "Desarrollo de un dispositivo electrónico para el monitoreo remoto de neveras exhibidoras de bebidas con capacidad de geolocalización, medición de parámetros de operación y detección de stock",
author = "Maldonado Davila, Luis Enrique",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
This work deals with the design of an electronic system for the transmission of monitoring data and operation information, as well as the management of consumed stock collected from beverage coolers. The objective is to provide an improvement to the current monitoring of coolers, since in some companies this process is still carried out in person and can be considered slow and inefficient. In the scientific literature investigated, with respect to the existing solutions, it is observed that they do not provide a comprehensive solution to the problem of data transmission speed, nor do they address any method of stock detection or geolocation of the coolers. Therefore, after analyzing the problems encountered, there is an opportunity for improvement for the development of the electronic device presented in the research work. Initially, a field investigation was carried out to identify the disadvantages of the current monitoring process. After the initial investigation of the problem, it was decided to address the situation holistically and propose a comprehensive solution that would cover what was observed in the scientific literature and in the field research. This solution consists of an SBC, a low power transmitter module, a GPS, digital sensors and a Sigfox module. From the results, an accuracy of 90% was obtained in the detection of products preferred by customers, as well as an uninterrupted transmission under favorable conditions. Thus, a new form of remote monitoring of the refrigerators was implemented
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