2018
DOI: 10.1002/esp.4298
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Robotic photosieving from low‐cost multirotor sUAS: a proof‐of‐concept

Abstract: Measurement of riverbed material grainsizes is now a routine part of fieldwork in fluvial geomorphology and lotic ecology. In the last decade, several authors have proposed remote sensing approaches of grain size measurements based on terrestrial and aerial imagery. Given the current rise of small Unmanned Aerial System (sUAS) applications in geomorphology, there is now increasing interest in the application of these remotely sensed grain size mapping methods to sUAS imagery. However, success in this area has … Show more

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Cited by 46 publications
(59 citation statements)
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References 29 publications
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“…One advantage of using UAVs that has been demonstrated herein is that because they are relatively simple and inexpensive to deploy, they provide an excellent tool for elucidating the temporal morphodynamics of rivers. To date, most studies have highlighted the improvement in spatial resolution that UAV imagery provides, such as for habitat mapping (Woodget et al, 2017) or detection of grain size variation (Carbonneau et al, 2018). The results described herein for a sand-bed river, where sediment is being transported at most flow stages, demonstrates unambiguously that in optimal conditions, bedform dynamics can be quantified at hourly timescales and at both low and near-bankfull stages.…”
Section: The Potential Of Using Aerial Imagery To Quantify the Dynamimentioning
confidence: 59%
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“…One advantage of using UAVs that has been demonstrated herein is that because they are relatively simple and inexpensive to deploy, they provide an excellent tool for elucidating the temporal morphodynamics of rivers. To date, most studies have highlighted the improvement in spatial resolution that UAV imagery provides, such as for habitat mapping (Woodget et al, 2017) or detection of grain size variation (Carbonneau et al, 2018). The results described herein for a sand-bed river, where sediment is being transported at most flow stages, demonstrates unambiguously that in optimal conditions, bedform dynamics can be quantified at hourly timescales and at both low and near-bankfull stages.…”
Section: The Potential Of Using Aerial Imagery To Quantify the Dynamimentioning
confidence: 59%
“…To date, most studies have highlighted the improvement in spatial resolution that UAV imagery provides, such as for habitat mapping (Woodget et al, 2017) or detection of grain size variation (Carbonneau et al, 2018). To date, most studies have highlighted the improvement in spatial resolution that UAV imagery provides, such as for habitat mapping (Woodget et al, 2017) or detection of grain size variation (Carbonneau et al, 2018).…”
Section: The Potential Of Using Aerial Imagery To Quantify the Dynamimentioning
confidence: 99%
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“…Traditional image‐based methods relate image texture to grain size (Carbonneau, Bergeron, & Lane, ; Graham, Rice, & Reid, ). More recent methods exploit SfM topography with high‐resolution imagery (0.0015‐m pixel size) from low flight heights (Langhammer, Lendzioch, Miřijovský, & Hartvich, ) and through relationships between roughness and in field grain‐size measurements (Carbonneau, Bizzi, & Marchetti, ; Woodget & Austrums, ). Work by Woodget, Fyffe, and Carbonneau () demonstrated how image texture on a series of individual images outperformed orthomosaics and SfM roughness measures.…”
Section: River Corridor Remote Sensingmentioning
confidence: 99%
“…Catchment-average erosion rates from the area, based on cosmogenic nuclide inventories, suggest rates on the order of 0.6-1 mm year −1 (Bookhagen and Strecker, 2012), with large variability during the Pleistocene and Holocene (Tofelde et al, 2017). The region is frequently affected by extreme hydrometeorological events that lead to flooding and drainage-pattern rearrangement (Castino et al, 2016(Castino et al, , 2017.…”
Section: Field Settingmentioning
confidence: 99%