Effect of photogrammetric RPAS flight parameters on plani-altimetric accuracy of DTM-Reference-Cited by-同舟云学术

Effect of photogrammetric RPAS flight parameters on plani-altimetric accuracy of DTM

Published:2020-01-01 Issue:1 Volume:12 Page:1017-1035
ISSN:2391-5447
Container-title:Open Geosciences
language:en
Short-container-title:

Author:

Mora-Felix Zuriel Dathan¹,Sanhouse-Garcia Antonio Jesus²,Bustos-Terrones Yaneth A.³,Loaiza Juan G.⁴,Monjardin-Armenta Sergio Alberto⁵,Rangel-Peraza Jesus Gabriel¹

Affiliation:

1. Division de Estudios de Posgrado e Investigacion, Tecnologico Nacional de Mexico – Instituto Tecnologico de Culiacan , Culiacan , Mexico

2. Departamento de Tecnología Ambiental, Universidad Tecnologica de Culiacan , Culiacan , Mexico

3. Division de Estudios de Posgrado e Investigacion, CONACYT – TecNM – Instituto Tecnologico de Culiacan , Culiacan , Mexico

4. Tecnologico Nacional de Mexico – Instituto Tecnologico de Culiacan , Culiacan , Mexico

5. Facultad de Ciencias de la Tierra y el Espacio, Universidad Autónoma de Sinaloa , Culiacan , Mexico

Abstract

Abstract Remotely piloted aerial systems (RPASs) are gaining fast and wide application around the world due to its relative low-cost advantage in the acquisition of high-resolution imagery. However, standardized protocols for the construction of cartographic products are needed. The aim of this paper is to optimize the generation of digital terrain models (DTMs) by using different RPAS flight parameters. An orthogonal design L18 was used to measure the effect of photogrammetric flight parameters on the DTM generated. The image data were acquired using a DJI Phantom 4 Pro drone and six flight parameters were evaluated: flight mode, altitude, flight speed, camera tilt, longitudinal overlap and transversal overlap. Fifty-one ground control points were established using a global positioning system. Multivision algorithms were used to obtain ultra-high resolution point clouds, orthophotos and 3D models from the photos acquired. Root mean square error was used to measure the geometric accuracy of DTMs generated. The effect of photogrammetric flight parameters was carried out by using analysis of variance statistical analysis. Altimetric and planimetric accuracies of 0.38 and 0.11 m were achieved, respectively. Based on these results, high-precision cartographic material was generated using low-cost technology.

Publisher

Walter de Gruyter GmbH

Subject

General Earth and Planetary Sciences,Environmental Science (miscellaneous)

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