Bibliographic citations
Anaya, P., Cornejo, J. (2021). Automatización en el transporte, clasificación y disposición final de residuos peligrosos mediante la utilización de IoT [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/656464
Anaya, P., Cornejo, J. Automatización en el transporte, clasificación y disposición final de residuos peligrosos mediante la utilización de IoT [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/656464
@misc{renati/395962,
title = "Automatización en el transporte, clasificación y disposición final de residuos peligrosos mediante la utilización de IoT",
author = "Cornejo Acosta, Jose Felix",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
The aim of this professional project is to show, through the implementation of the Internet of Things, the possibility of being able to automate and optimize the process of Collection, Transport and Final Disposal of Hazardous Waste in PETRAMAS. At present, in the field of information technology, various services and devices have been developed that cause automation to be generated at various levels, allowing data to be captured in real time that was not taken into account until now. In this case, the use of a solution on the Web is sought that can be used by the operators of the organization in order to be able to manage the waste containers and use the data to generate relevant information for the improvement of the process. To achieve the development of the project, different stages have been generated that have made it possible to collect information and generate a solution proposal for the organization. In the first place, through the Zachman framework, it is possible to know the PETRAMAS business architecture, which in turn helps to identify critical processes, definition of objectives and indicators that will allow knowing the application of the improvements to be implemented. Second, it was necessary to work on a theoretical framework that helps to understand the tools, frameworks, theories, etc., that provide conceptual support for what is sought as the objective of the project. Third, engineering knowledge was applied to be able to make a requirements survey and identify the system requirements that allow giving shape and foundation to the design decisions, drivers, tactics and architectural styles taken. Finally, in order to carry out adequate project management, the PMBOK good practice guide in its sixth Edition has been followed. This guide allows you to visualize the progress that the project has had and highlights the steps to follow for its implementation.
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