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Llamas, J., (2022). Sistema de gestión del consumo en tiempo real en balones de gas licuado de petróleo en Lima [Universidad de Lima]. https://hdl.handle.net/20.500.12724/16676
Llamas, J., Sistema de gestión del consumo en tiempo real en balones de gas licuado de petróleo en Lima []. PE: Universidad de Lima; 2022. https://hdl.handle.net/20.500.12724/16676
@misc{renati/235604,
title = "Sistema de gestión del consumo en tiempo real en balones de gas licuado de petróleo en Lima",
author = "Llamas Fernandez, Juan Pablo",
publisher = "Universidad de Lima",
year = "2022"
}
Title: Sistema de gestión del consumo en tiempo real en balones de gas licuado de petróleo en Lima
Authors(s): Llamas Fernandez, Juan Pablo
Advisor(s): Caballero Ortiz, José Alberto
Keywords: Industria del gas; Liquefied petroleum gas; Mobile apps; Detectors; Project managemet; Gas industry; Gas licuado de petróleo; Aplicaciones para móviles; Detectores; Gestión de proyectos
OCDE field: https://purl.org/pe-repo/ocde/ford#2.02.04
Issue Date: 2022
Institution: Universidad de Lima
Abstract: Desde el inventó de la cocina en el siglo XIX, por James Sharp en Inglaterra, siempre se ha tenido la necesidad de procurar un abastecimiento continuo de combustible para mantenerla en uso. Algunas familias en el mejor escenario pueden procurarse 02 balones de gas, para garantizar un funcionamiento continuo; sin embargo, la mayoría de las familias sólo tienen por opción que éste se termine y deban reemplazarlo, sometiéndose al tiempo y stock del distribuidor. Por otro lado, los balones de gas representan un peligro, por las posibles fugas que suelen producirse por descuido o por un deficiente
mantenimiento de las instalaciones, lo cual puede representar muertes por asfixia, intoxicación por inhalar monóxido de carbono, incendios y explosiones. Ante la precitada problemática, se ha conceptualizado una solución compuesta por un dispositivo, que comprende sensores acoplados al regulador de la cocina, brindando el nivel de gas y posibles fugas, esta información viaja al microcontrolador para el procesamiento de los datos, para luego ser enviada a los servidores en la nube, esto último con la finalidad de generar en el tiempo líneas de tendencia que permitan predecir el consumo del usuario.
Los tópicos usados en el desarrollo del proyecto fueron:
•Gestión del Proyecto tomando en cuenta las restricciones en el alcance, tiempo y presupuesto.
•Gestión de la Información, para el manejo y diseño de la base de datos.
•Diseño y Análisis de Sistemas, para la conceptualización detallada de la solución.
•Desarrollo y despliegue de sistemas, para entender cómo deben implementarse las diferentes fases y realizar su respectivo despliegue.
•Seguridad de la información, implementación de técnicas de seguridad y protocolos de comunicación.
Resultado de las pruebas realizadas, se validaron el hardware y software propuestos, y se evidenció una oportunidad debido a la diversidad de sensores y aplicaciones que se les puedan dar.
Ever since the stove was invented in the 19th century by James Sharp in England, there has always been a need to provide a continuous supply of fuel to keep it in use. Families in the best of scenarios can procure 02 gas cylinders, to guarantee the uninterrupted operation of their kitchen service; however, in most cases, families only have the option that it is finished and must be replaced, subject to the availability of time and stock of the distributor. On the other hand, it is known that gas balloons represent a danger, due to the possible leaks that usually occur due to carelessness or poor maintenance installations, which can represent deaths from suffocation, poisoning from inhaling monoxide carbon, fires and explosions. Given the aforementioned problem, uninterrupted supply and danger of gas leaks, a solution has been conceptualized. The proposed device comprises sensors that are attached to the kitchen regulator, providing the level of the gas balloon and possible leaks, this information travels to the microcontroller for data processing and then it will be sent to servers in the cloud, this in order to be able to generate trend lines over time that allow predicting user consumption. The topics used to develop the project were: •Project Management taking into account restrictions in scope, time and budget. • Information Management in order to design and manage the database. •Systems Analysis and Design in order to get detailed conceptualization of the solution. •Development and deployment of systems in order to understand the different modules should be develop and how to deploy them. •Secure computing in order to develop security techniques and communication protocols. As a result of the tests, the proposed hardware and software were validated as well as opportunities were also evidenced due to the diversity of sensors and applications.
Ever since the stove was invented in the 19th century by James Sharp in England, there has always been a need to provide a continuous supply of fuel to keep it in use. Families in the best of scenarios can procure 02 gas cylinders, to guarantee the uninterrupted operation of their kitchen service; however, in most cases, families only have the option that it is finished and must be replaced, subject to the availability of time and stock of the distributor. On the other hand, it is known that gas balloons represent a danger, due to the possible leaks that usually occur due to carelessness or poor maintenance installations, which can represent deaths from suffocation, poisoning from inhaling monoxide carbon, fires and explosions. Given the aforementioned problem, uninterrupted supply and danger of gas leaks, a solution has been conceptualized. The proposed device comprises sensors that are attached to the kitchen regulator, providing the level of the gas balloon and possible leaks, this information travels to the microcontroller for data processing and then it will be sent to servers in the cloud, this in order to be able to generate trend lines over time that allow predicting user consumption. The topics used to develop the project were: •Project Management taking into account restrictions in scope, time and budget. • Information Management in order to design and manage the database. •Systems Analysis and Design in order to get detailed conceptualization of the solution. •Development and deployment of systems in order to understand the different modules should be develop and how to deploy them. •Secure computing in order to develop security techniques and communication protocols. As a result of the tests, the proposed hardware and software were validated as well as opportunities were also evidenced due to the diversity of sensors and applications.
Link to repository: https://hdl.handle.net/20.500.12724/16676
Discipline: Ingeniería de Sistemas
Grade or title grantor: Universidad de Lima. Facultad de Ingeniería y Arquitectura
Grade or title: Ingeniero de Sistemas
Juror: Casma Salcedo, Miguel Jacinto; Álvarez Valdivia, Edwin Manuel; Caballero Ortiz, José Alberto
Register date: 4-Oct-2022
This item is licensed under a Creative Commons License