Potential of Smartphone SfM Photogrammetry to Measure Coastal Morphodynamics
Résumé
With recent advances in photogrammetric processing methods and sensor technologies, smartphones represent a new opportunity of mainstream, low-cost sensor, with a great potential for Structure-from-Motion (SfM) photogrammetry, and in particular for participatory science programs or citizen observatories. Keeping in mind the application in citizen observatories, three smartphone models (Galaxy S7®, Lumia 930® and iPhone 8®) and a bridge camera were compared (separately and in combination) for coastal applications: A coastal cli↵ and a sandy beach. Various acquisition protocols, at di↵erent distances from a cli↵ face and using "linear" or "fan-shaped" capture mode, were also assessed in their e ciency. A simultaneous Terrestrial Laser Scanner (TLS) survey provided a reference dataset to assess the quality of the SfM reconstructions. Satisfactory reconstructions (mean error < 5 cm) of the cli↵ face were obtained using all smartphone models tested. To measure the cli↵ face, fan-shaped capturing mode allowed a quicker image acquisition on site and better results (mean error of 1.3 cm with a standard deviation of 0.1 cm at 20 m from the cli↵ face) than linear capturing mode (mean error of 2.5 cm with a standard deviation of 21.8 cm), provided that the distance to the cli↵ face is su cient to ensure a good image overlap. To obtain satisfactory results over beaches, we show that it is preferable to have high-angle shots of the study area, which may limit the applicability of the method for certain sites.
Domaines
Géophysique [physics.geo-ph]
Fichier principal
Jaud et al. - 2019 - Potential of Smartphone SfM Photogrammetry to Meas.pdf (10.59 Mo)
Télécharger le fichier
Origine : Publication financée par une institution