Desarrollo integral de un sistema automatizado de alimentación para la fauna doméstica utilizando tecnologías inalámbricas
In this project, a pet feeding system was developed, using innovative technologies such as Wi-Fi in the ESP8266 and ESP32 modules, mobile development in Flutter and 3D printing. 3D printing enabled the creation of an efficient and aesthetically appealing device, with a structure designed for seamles...
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| Médium: | bachelorThesis |
| Jazyk: | spa |
| Vydáno: |
2024
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| Témata: | |
| On-line přístup: | https://dspace.unl.edu.ec/jspui/handle/123456789/29914 |
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Přidat tag | Shrnutí: | In this project, a pet feeding system was developed, using innovative technologies such as Wi-Fi in the ESP8266 and ESP32 modules, mobile development in Flutter and 3D printing. 3D printing enabled the creation of an efficient and aesthetically appealing device, with a structure designed for seamless integration of the electronic components. Integrated Wi-Fi connectivity enabled the scheduling of power schedules through a mobile application developed with Flutter. This application not only facilitated system configuration, but also allowed for real-time information on dispenser status, all from the convenience of the user's cell phone. Satisfaction surveys were conducted with end users in different scenarios, both locally in Loja and nationally in Ecuador, likewise, internationally to evaluate their experience with the system addressing various aspects, such as ease of use of the mobile application, accuracy of the food dispenser, Wi-Fi connectivity and overall perception of the improvement in the quality of life of their pets. These tests not only verified the effectiveness and functionality of the system from the users' perspective, but also provided valuable information on the actual impact on pet welfare, ensuring that the prototype is able to meet the needs of both owners and their furry companions. This research not only offers an innovative solution to the pet feeding challenge, but also highlights the importance of technology and research in the continuous improvement of animal welfare. By documenting and sharing the findings of this study, it is hoped to inspire other researchers, practitioners, and technology enthusiasts to continue to explore new ways to improve the lives of our beloved pets and strengthen the human-animal relationship. Keywords: Food, pets, ESP8266 and ESP32, Wi-Fi, Flutter, 3D Printing. |
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