Bibliographic citations
Nizama, C., Tapia, J. (2021). Automatización del pronóstico y seguimiento de la vida útil de los productos fabricados en un laboratorio del sector farmacéutico usando Web API REST y modelos estadísticos [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/659128
Nizama, C., Tapia, J. Automatización del pronóstico y seguimiento de la vida útil de los productos fabricados en un laboratorio del sector farmacéutico usando Web API REST y modelos estadísticos [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/659128
@misc{renati/398673,
title = "Automatización del pronóstico y seguimiento de la vida útil de los productos fabricados en un laboratorio del sector farmacéutico usando Web API REST y modelos estadísticos",
author = "Tapia Suaña, Juan Pablo",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
In the pharmaceutical industry, stability studies are of vital importance, as it ensures the efficacy and quality of the product that it offers to the population. All pharmaceutical products must have an investigation period in order to determine their shelf life. This thesis proposal is focused on the stability study process, whose central problem lies in the manual activities of planning and tracking of the study, the deficiency of what is described affects the performance of the process and generates uncertainty in decision-making strategic. Consequently, the solution proposal is justified in the design of a technological architecture focused on the automation of forecasting and monitoring of the shelf life of products manufactured in a laboratory of the pharmaceutical sector, using Web API REST and statistical models, allowing the monitoring and an efficient process control. To achieve the project success, the object of study has been analyzed, identifying the main problem. In the project management, we make use of the various artifacts and good practices justified in the PMBOK®️ Guide. During the design of the enterprise architecture, we used the Zachman framework with the TOGAF architecture methodology. In addition, the modeling of the process referring to the current situation (AS-IS) is presented using the BPMN notation. Finally, the technological components of the software architecture are identified using engineering concepts, design tactics and representing the software architecture from a high level to a detailed level with the use of the C4 Model.
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