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Tipo de material : bachelorThesis
Título : Diseño de la ingeniería inmótica del bloque 4 – Sede Queri de la Universidad de las Américas
Autor : Pérez Jaqui, Karina Lizeth
Fustillos Chimborazo, Edison Geovanny
Tutor : Chinchero Villacís, Héctor Fernando
Palabras clave : DISEÑO DE SISTEMAS;EDIFICIOS INTELIGENTES;INMÓTICA;SISTEMAS DE SEGURIDAD;UNIVERSIDAD DE LAS AMÉRICAS
Fecha de publicación : 2018
Editorial : Quito: Universidad de las Américas, 2018
Citación : Pérez Jaqui, K. L.; Fustillos Chimborazo, E. G. (2018). Diseño de la ingeniería inmótica del bloque 4 – Sede Queri de la Universidad de las Américas (Tesis de pregrado). Universidad de las Américas, Quito.
Resumen : La automatización de espacios trae consigo sitios seguros y amigables que incrementan la concentración, eficiencia y productividad de las personas, al decrecer el consumo de la energía eléctrica se reduce los costos de consumo...
Descripción : The automation of spaces brings with it safe and friendly sites that increase the concentration, efficiency and productivity of people, by decreasing the consumption of electricity and reduces consumption costs. It is for this reason that this project is proposed to develop the design of the Inmotic Engineering of Block 4 – Sede Queri de la Universidad de las Américas, to monitor and safeguard the infrastructure, equipment and people who visit it every day. The classrooms, laboratories and shared spaces of the floor of the building are visited, for the lifting of the current situation; with the purpose of knowing the inmotic needs (security, comfort, savings and communication), in which they will be emphasized in this design. After the gathering of information, the comparison of three of the best known technologies in the market is made, such as: KNX, LonWorks and BUSing. This analysis of technologies and the identification of needs, the BUSing technology is selected as the most suitable to satisfy the requirements and objectives. With the selection of technology, we continue with the design of connections of the devices in classrooms, laboratories, offices and shared areas of the block, considering the installation characteristics of the devices. For the representation of connection diagrams and plans, the software Autocad 2018 is used, software that allows to represent the location and distribution of the components. After that, the elements are counted to build the referential budget of the project, to then analyze the feasibility of a possible implementation that covers the pillars of security, comfort, energy saving and communication initially raised. When obtaining the number of devices required for each system, it is concluded that the budget required for a possible implementation is 142,488.26 dollars, distributed as follows: 32 percent security, 19 percent energy saving, 29 percent comfort and 20 percent communication ; The pillars of security, comfort and communication do not have a return value because they focus on protecting devices and people who are the primary patrimony of the university. On the pillar of energy saving there is a return on investment in 5 years.
URI : http://dspace.udla.edu.ec/handle/33000/8965
Aparece en las colecciones: Ingeniería en Redes y Telecomunicaciones

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