Trabajos de Titulación - Electricidad
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- ÍtemAcceso AbiertoProyecto de Titulación embargado con fines de publicación de impacto(Universidad Católica de Cuenca., 2024) Tacuri Chávez, Bryam José; Peralta Guanoquiza, John Michael; Cobos Torres, Juan Carlos; 0107148363; 0107193807; Leonardo
- ÍtemAcceso AbiertoProyecto de Titulación embargado con fines de publicación de impacto(Universidad Católica de Cuenca., 2024) Zhañay Salto, Diego Alexander; Cobos Torres, Juan Carlos; 0107194656; Anthony Alxander
- ÍtemAcceso AbiertoDiseño y construcción de un robot prototipo autónomo de carga para transporte de producto agrícola de la finca Cielo Abierto(Universidad Católica de Cuenca., 2024) Cajas Chuqui, Jonnathan Byron; Guanuquiza León, Marco Vinicio; 0302897616This research project aims to design and build a prototype mobile load robot to reduce the risk of occupational diseases to workers at the “Cielo Abierto” farm during manual load transportation activities. The method used is an observational-experimental model that includes work analysis and prototype development. The study variables are load transportation and repeated movements; the population consisted of the three workers of the farm. Within the analysis process, the Ovako Working Analysis System (OWAS) ergonomic assessment method is implemented as an instrument to analyze the study population’s working postures and subsequently apply a risk matrix based on manual load handling regulations to determine the overall risk for the entire process. The risk assessment considers an initial case in which the activity is carried out only by the three workers and a second case in which the prototype is included with autonomous navigation for transporting loads, resulting in a lower risk in the second case than in the initial one.
- ÍtemAcceso AbiertoEstudio para mejorar la fluidez vehicular analizando los tiempos de semáforos en la intersección de la Av. 24 de Mayo y 3 de Noviembre en la Ciudad de Cañar(Universidad Católica de Cuenca., 2024) Encalada Tenesaca, Cristian Rene; Siguencia Siguenza, Oscar Mauricio; 0302629696This study aims to enhance the efficiency of vehicular flow at the intersection of 24 de Mayo Avenue and 3 de Noviembre Street by implementing "Dynamic Cycle Adjustment" supported by the Simulation of Urban Mobility (SUMO) tool. The identified problem centers on vehicular congestion, affecting the intersection performance. The rationale lies in optimizing road space utilization and reducing waiting times, potentially impacting urban mobility and citizens' quality of life. This research aims to evaluate and implement the proposed strategy. It is a traffic simulation study using SUMO. The study universe encompasses the mentioned intersection, and the sample size is determined through detailed simulations. The suggested strategy is expected to significantly improve traffic flow, with economic, social, and scientific benefits.
- ÍtemAcceso AbiertoConstrucción de un medidor de agua inteligente mediante Arduino para reducir las pérdidas en la distribución de agua(Universidad Católica de Cuenca., 2024) León Lazo, Rolando Israel; Macancela Sumba, Juan Gabriel; Morales Jadán, Diego Xavier; 0107204083; 0302304076This paper shows the use of Internet of Things (IoT) technology specifically applied to drinking water distribution systems, aiming to improve the efficiency of this service in the distribution network control segments and reduce the response time to problems such as service interruption, errors in the measurement readings, and losses of the vital liquid. In this context, the IoT technology applied to the ESP 32 module, flow sensor, and YF-S201 —a shut-off valve for remote monitoring and control of drinking water— is used, leading to better management of the vital resource and a more adequate and reliable reading, which will have a direct impact on the distributing company's and the consumer's economy. In addition, the customers will be able to interact with a Telegram Bot directly on their cell phones, in which they can ask questions about their consumption at any time of the day and receive a notification every 24 hours through the bot of their daily or monthly consumption.
