RTK GNSS-Assisted Terrestrial SfM Photogrammetry without GCP: Application to Coastal Morphodynamics Monitoring

Jaud, Marion; Bertin, Stéphane; Beauverger, Mickaël; Augereau, Emmanuel; Delacourt, Christophe

doi:10.3390/rs12111889

Cited by 38 publications

(30 citation statements)

References 33 publications

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“…The first was that, even at the end of the summer, watering ponds usually show a thick layer of water at the bottom, which is usually turbid [70] and makes unsuitable underwater photo-reconstructions such as those carried out successfully in other environments [71]. The second reason was that the photogrammetric model needed to be (at least) scaled using GCPs (or GNSS RTK systems connected to the camera instead of GCPs; e.g., [72]), while the GNSS allowed the survey of additional CCPs to independently quantify the accuracy of the model. In recent years, affordable (or low-cost) GNSS survey-grade devices have been available in the market [73] to carry out this task.…”

Section: Discussionmentioning

confidence: 99%

Using Geomatic Techniques to Estimate Volume–Area Relationships of Watering Ponds

Marín-Comitre

Gutiérrez

Contador

et al. 2021

IJGI

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Watering ponds represent an important part of the hydrological resources in some water-limited environments. Knowledge about their storage capacity and geometrical characteristics is crucial for a better understanding and management of water resources in the context of climate change. In this study, the suitability of different geomatic approaches to model watering pond geometry and estimate pond-specific and generalized volume–area–height (V–A–h) relationships was tested. Terrestrial structure-from-motion and multi-view-stereo photogrammetry (SfM-MVS), terrestrial laser scanner (TLS), laser-imaging detection and ranging (LIDAR), and aerial SfM-MVS were tested for the emerged terrain, while the global navigation satellite system (GNSS) was used to survey the submerged terrain and to test the resulting digital elevation models (DEMs). The combined use of terrestrial SfM-MVS and GNSS produced accurate DEMs of the ponds that resulted in an average error of 1.19% in the maximum volume estimation, comparable to that obtained by the TLS+GNSS approach (3.27%). From these DEMs, power and quadratic functions were used to express pond-specific and generalized V–A–h relationships and checked for accuracy. The results revealed that quadratic functions fit the data particularly well (R2 ≥ 0.995 and NRMSE < 2.25%) and can therefore be reliably used as simple geometric models of watering ponds in hydrological simulation studies. Finally, a generalized V–A power relationship was obtained. This relationship may be a valuable tool to estimate the storage capacity of other watering ponds in comparable areas in a context of data scarcity.

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Section: Discussionmentioning

confidence: 99%

Using Geomatic Techniques to Estimate Volume–Area Relationships of Watering Ponds

Marín-Comitre

Gutiérrez

Contador

et al. 2021

IJGI

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“…In this case, these methodologies can provide useful data in the study of planimetric changes: along the coastal area, with low elevations compared to the mean sea level, low subsidence rates can provide high planimetric changes of the coastline, with submersion of large areas that can be evaluated using photogrammetric and LiDAR data. For more limited areas, unmanned aerial vehicle (UAV) [14,15] and terrestrial laser scanning (TLS) [16][17][18] systems can also be used successfully.…”

Section: Introductionmentioning

confidence: 99%

Monitoring the Coastal Changes of the Po River Delta (Northern Italy) since 1911 Using Archival Cartography, Multi-Temporal Aerial Photogrammetry and LiDAR Data: Implications for Coastline Changes in 2100 A.D.

Fabris

2021

Remote Sensing

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Interaction between land subsidence and sea level rise (SLR) increases the hazard in coastal areas, mainly for deltas, characterized by flat topography and with great social, ecological, and economic value. Coastal areas need continuous monitoring as a support for human intervention to reduce the hazard. Po River Delta (PRD, northern Italy) in the past was affected by high values of artificial land subsidence: even if at low rates, anthropogenic settlements are currently still in progress and produce an increase of hydraulic risk due to the loss of surface elevation both of ground and levees. Many authors have provided scenarios for the next decades with increased flooding in densely populated areas. In this work, a contribution to the understanding future scenarios based on the morphological changes that occurred in the last century on the PRD coastal area is provided: planimetric variations are reconstructed using two archival cartographies (1911 and 1924), 12 multi-temporal high-resolution aerial photogrammetric surveys (1933, 1944, 1949, 1955, 1962, 1969, 1977, 1983, 1990, 1999, 2008, and 2014), and four LiDAR (light detection and ranging) datasets (acquired in 2006, 2009, 2012, and 2018): obtained results, in terms of emerged surfaces variations, are linked to the available land subsidence rates (provided by leveling, GPS—global positioning system, and SAR—synthetic aperture radar data) and to the expected SLR values, to perform scenarios of the area by 2100: results of this work will be useful to mitigate the hazard by increasing defense systems and preventing the risk of widespread flooding.

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“…For many geoscience applications, it is necessary to register 3D rock-surface reconstructions within a local or global coordinate frame. The use of survey-grade total stations and/or real-time kinematic (RTK) differential global navigation satellite system (GNSS) antennas permit both terrestrial (Jaud et al, 2020) and aerial (Rieke et al, 2012) image data and/or ground control points (GCPs) to be georeferenced within the mapped scene with centimeter to millimeter accuracy (Bemis et al, 2014). Those survey tools are, however, bulky and expensive, and are not standard tools for geoscientists engaged in fieldwork.…”

Section: Introductionmentioning

confidence: 99%

Virtual Outcrops in a Pocket: The Smartphone as a Fully Equipped Photogrammetric Data Acquisition Tool

Corradetti¹,

Seers²,

Billi³

et al. 2021

GSAT

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RTK GNSS-Assisted Terrestrial SfM Photogrammetry without GCP: Application to Coastal Morphodynamics Monitoring

Cited by 38 publications

References 33 publications

Using Geomatic Techniques to Estimate Volume–Area Relationships of Watering Ponds

Using Geomatic Techniques to Estimate Volume–Area Relationships of Watering Ponds

Monitoring the Coastal Changes of the Po River Delta (Northern Italy) since 1911 Using Archival Cartography, Multi-Temporal Aerial Photogrammetry and LiDAR Data: Implications for Coastline Changes in 2100 A.D.

Virtual Outcrops in a Pocket: The Smartphone as a Fully Equipped Photogrammetric Data Acquisition Tool

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