Citas bibligráficas
Morales, P., (2024). Monitoreo en tiempo real de casos de dengue en la región lima usando arquitectura de microservicios [Tesis, Universidad de Ingeniería y Tecnología]. https://hdl.handle.net/20.500.12815/356
Morales, P., Monitoreo en tiempo real de casos de dengue en la región lima usando arquitectura de microservicios [Tesis]. PE: Universidad de Ingeniería y Tecnología; 2024. https://hdl.handle.net/20.500.12815/356
@misc{renati/230638,
title = "Monitoreo en tiempo real de casos de dengue en la región lima usando arquitectura de microservicios",
author = "Morales Alcalde, Piero Angelo",
publisher = "Universidad de Ingeniería y Tecnología",
year = "2024"
}
The worrying increase in dengue cases in Peru, especially in Lima, has generated alarm, with a staggering increase of 323.5 % from 63,168 cases in 2022 to 268,660 cases through week 43 of 2023. Lima experienced a drastic increase of 3,190.6 % , going from 938 cases in 2022 to 30,946 until week 43 of 2023. This situation poses significant health risks in Lima, with a densely populated population of approximately 9,674,755 inhabitants, and the possibility of straining its health system due to the lack of experience with dengue, whose first indigenous cases were reported in February 2022. To address this challenge, a project is proposed that visualizes dengue case reports in real time, allowing immediate interventions. Lack of control in infected areas could lead to saturation of the health system, especially with the increase in ICU admissions related to COVID-19. The rationale lies in the need for real-time monitoring for rapid responses, such as targeted fumigations and timely treatment. The project seeks to implement a monitoring tool to better control areas infected with dengue, mitigating the spread of the disease and avoiding overloading the health system. The goal is to build a software system capable of handling 5,538 daily requests based on 2022 cases, ensuring real-time updates and improving the accuracy of reports with georeferenced coordinates. Finally, a microservices-based backend was developed, demonstrating improvements in availability and response times compared to a monolithic architecture. A hybrid architecture outperformed microservices, maintaining a response time of less than 1.5 seconds at 4,000 requests per second. And on the other hand, the clustering algorithm facilitates a detailed temporal analysis of dengue records, improving the identification of patterns for more specific interventions.
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