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dc.contributor.advisorMayorga Arias, David
dc.contributor.authorEspín Sánchez, Luis Alejandro
dc.date.accessioned2024-04-12T17:39:00Z
dc.date.available2024-04-12T17:39:00Z
dc.date.issued2024
dc.identifier.urihttp://dspace.utb.edu.ec/handle/49000/16130
dc.descriptionThis study applied drone photogrammetry to the topographic survey of the Palmar property of the Universidad Técnica de Babahoyo (UTB). 572 aerial images were captured in three successive flights and processed with Agisoft Metashape software to generate a dense point cloud with 179,002,032 points, a digital elevation model (DEM) with an accuracy of 0.05 meters, an orthomosaic with the 572 images, a .tif file with the highest possible quality, and a .kmz file compatible with Google Earth.The drone photogrammetric topographic survey of the Palmar property was a success. The geospatial information obtained has a wide range of potential applications, such as the production of topographic maps, the generation of 3D terrain models, the planning of infrastructure projects, environmental management, and the monitoring of landscape changes. It is recommended to continue researching and developing the application of drones for topography at UTB, to expand the scope of the application of drones in other areas such as agriculture, civil engineering, and environmental management, to disseminate the results and benefits of drone topography, to strengthen collaboration with other institutions, to promote the training of professionals in drone topography, to encourage the creation of regulations for the use of drones in Ecuador, to implement a geospatial data management system, to ensure the quality of data and products, to promote innovation in the use of drones for topography, and to ensure the sustainability of the use of drones.es_ES
dc.descriptionThis study applied drone photogrammetry to the topographic survey of the Palmar property of the Universidad Técnica de Babahoyo (UTB). 572 aerial images were captured in three successive flights and processed with Agisoft Metashape software to generate a dense point cloud with 179,002,032 points, a digital elevation model (DEM) with an accuracy of 0.05 meters, an orthomosaic with the 572 images, a .tif file with the highest possible quality, and a .kmz file compatible with Google Earth.The drone photogrammetric topographic survey of the Palmar property was a success. The geospatial information obtained has a wide range of potential applications, such as the production of topographic maps, the generation of 3D terrain models, the planning of infrastructure projects, environmental management, and the monitoring of landscape changes. It is recommended to continue researching and developing the application of drones for topography at UTB, to expand the scope of the application of drones in other areas such as agriculture, civil engineering, and environmental management, to disseminate the results and benefits of drone topography, to strengthen collaboration with other institutions, to promote the training of professionals in drone topography, to encourage the creation of regulations for the use of drones in Ecuador, to implement a geospatial data management system, to ensure the quality of data and products, to promote innovation in the use of drones for topography, and to ensure the sustainability of the use of drones.es_ES
dc.description.abstractEl presente estudio aplicó fotogrametría con dron para el levantamiento topográfico del predio Palmar de la Universidad Técnica de Babahoyo (UTB). Se capturaron 572 imágenes aéreas en tres vuelos sucesivos y se procesaron con el software Agisoft Metashape para generar una nube de puntos densa con 179 002 032 puntos, un modelo digital de elevación (MDE) con una precisión de 0.05 metros, un ortomosaico con las 572 imágenes, un archivo .tif con la máxima calidad posible y un archivo .kmz compatible con Google Earth. El levantamiento topográfico fotogramétrico con dron del predio Palmar fue un éxito. La información geoespacial obtenida tiene un amplio potencial para diversas aplicaciones como la elaboración de planos topográficos, la generación de modelos 3D del terreno, la planificación de proyectos de infraestructura, la gestión ambiental y el monitoreo de cambios en el paisaje. Se recomienda continuar investigando y desarrollando la aplicación de drones para la topografía en la UTB, ampliar el alcance de la aplicación de drones en otras áreas como la agricultura, la ingeniería civil y la gestión ambiental, difundir los resultados y beneficios de la topografía con drones, fortalecer la colaboración con otras instituciones, promover la formación de profesionales en topografía con drones, fomentar la creación de una normativa para el uso de drones en Ecuador, implementar un sistema de gestión de datos geoespaciales, asegurar la calidad de los datos y productos, promover la innovación en el uso de drones para la topografía y asegurar la sostenibilidad del uso de drones.es_ES
dc.format.extent26 p.es_ES
dc.language.isoeses_ES
dc.publisherBABAHOYO: UTB, 2024es_ES
dc.rightsAtribución-NoComercial-SinDerivadas 3.0 Ecuador*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/ec/*
dc.subjectLevantamiento topográficoes_ES
dc.subjectDrones_ES
dc.subjectOrtomosaicoes_ES
dc.subjectFotogrametríaes_ES
dc.titleLevantamiento topográfico con fotogrametría aérea del predio Palmar de la Universidad Técnica de Babahoyoes_ES
dc.typebachelorThesises_ES


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Atribución-NoComercial-SinDerivadas 3.0 Ecuador
Except where otherwise noted, this item's license is described as Atribución-NoComercial-SinDerivadas 3.0 Ecuador