Detection of fallen logs from high-resolution UAV images

Panagiotidis, Dimitrios; Abdollahnejad, Azadeh; Surový, Peter; Kuželka, Karel

doi:10.33494/nzjfs492019x26x

Cited by 18 publications

(15 citation statements)

References 39 publications

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“…Other studies mapping logs on aerial images were able to detect logs with comparable accuracy, such as Baumann et al [9] with about 68% and 95%, Duan et al [16] with 75.7% and 92.5%, Rüetschi et al [11] with 88% and 85%, and Panagiotidis et al [17] with 84.6% and 94.9% completeness and correctness, respectively. However, the accuracies in the present study reflect more challenging conditions involving CWD in diverse settings-natural and disturbed forest-at varying stages of decomposition and over a large application area.…”

Section: General Accuracy and Transferabilitymentioning

confidence: 78%

Mapping Coarse Woody Debris with Random Forest Classification of Centimetric Aerial Imagery

Queiroz

McDermid

Castilla

et al. 2019

Forests

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Coarse woody debris (CWD; large parts of dead trees) is a vital element of forest ecosystems, playing an important role in nutrient cycling, carbon storage, fire fuel, microhabitats, and overall forest structure. However, there is a lack of effective tools for identifying and mapping both standing (snags) and downed (logs) CWD in complex natural settings. We applied a random forest machine learning classifier to detect CWD in centimetric aerial imagery acquired over a 270-hectare study area in the boreal forest of Alberta, Canada. We used a geographic object-based image analysis (GEOBIA) approach in the classification with spectral, spatial, and LiDAR (light detection and ranging)-derived height predictor variables. We found CWD to be detected with great accuracy (93.4 ± 4.2% completeness and 94.5 ± 3.2% correctness) when training samples were located within the application area, and with very good accuracy (84.2 ± 5.2% completeness and 92.2 ± 3.2% correctness) when training samples were located outside the application area. The addition of LiDAR-derived variables did not increase the accuracy of CWD detection overall (<2%), but aided significantly (p < 0.001) in the distinction between logs and snags. Foresters and researchers interested in CWD can take advantage of these novel methods to produce accurate maps of logs and snags, which will contribute to the understanding and management of forest ecosystems.

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Section: General Accuracy and Transferabilitymentioning

confidence: 78%

Mapping Coarse Woody Debris with Random Forest Classification of Centimetric Aerial Imagery

Queiroz

McDermid

Castilla

et al. 2019

Forests

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“…The overall accuracy increased steadily with the increase in the stump diameter. In the same vein as Puliti et al (2018), Panagiotidis et al (2019) assessed the detection of fallen logs from RPAS images of very high resolution. Their importance occurs mainly in areas that are difficult to access and for a quick assessment of damages such as those caused by wind.…”

Section: Postharvest Assessmentsmentioning

confidence: 99%

Remotely piloted aircraft systems and forests: a global state of the art and future challenges

et al. 2020

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Remotely piloted aircraft system (RPAS) platforms are able to optimize the process of acquiring aerial images and improve the quality of the products generated in terms of spatial and temporal resolution. The exponential advance of the use of RPAS platforms in forestry, especially from the year 2010, is noteworthy. In this review, we present the global state of the art of the development and applications of RPAS technology in forestry, structured from a systematic review. Our results reveal a trend towards the use of multirotor RPAS platforms compared with fixed-wing platforms and that sensors that register in the visible spectral range are still the most widely used. More recent research has shown applications geared especially for areas such as forest inventory, with many innovations based on the detection of individual trees. Special focus has also been given to new alternatives for pest and disease mapping and phenological phenomena that occur at short intervals, as well as the monitoring of fires and postharvest areas. Therefore, there is a great potential for the use of RPAS platforms in a wide range of forest applications, whether linked to the productive sector or to the conservation of biodiversity, with great advances for spatiotemporal forest monitoring and expectations of further progress for the coming years.

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“…Challenges in CWD field sampling techniques (Ståhl et al 2001;Woldendorp et al 2004), as well as the relevance of dead wood in a host of forest ecosystem functions (Woodall et al 2019), have sparked an interest in applying remotely sensed data for this purpose. For example, CWD objects have recently been detected with encouraging results using LiDAR point clouds (Polewski et al 2015;Joyce et al 2019), aerial photography by means of Unmanned Aerial Vehicles (UAV) (Inoue et al 2014;Duan et al 2017;Panagiotidis et al 2019), or using LiDAR combined with multispectral aerial photography (Richardon and Moskal 2016;Stereńczak et al 2017;Lopes Queiroz et al 2019). Alternatively, models can be established leveraging spectral and structural relationships between plot-level observations of CWD volume and LiDAR or winter Landsat scenes (Sumnall et al 2016;Wolter et al 2017).…”

Section: Remote Sensing Of Coarse Woody Debrismentioning

confidence: 99%

“…Despite the use of VHR imagery and high-density point clouds, studies have reported challenges in the detection of smaller CWD objects due to high densities of small overlapping or parallel objects, occlusions, and shadowing, with reported plot-level CWD object detection rates of 23%-25% (Inoue et al 2014; Joyce et al 2019) and rates of small logs (e.g., <5 m, 20 cm DBH) as low as 5% (Inoue et al 2014; Panagiotidis et al 2019). Subarctic montane woodlands are considerably less productive than southern boreal or temperate forests whereby limited size of CWD pieces can be expected.…”

Section: Remote Sensing Of Coarse Woody Debrismentioning

confidence: 99%

Archaeological documentation of wood caribou fences using unmanned aerial vehicle and very high-resolution satellite imagery in the Mackenzie Mountains, Northwest Territories

Sluijs

MacKay

Andrew³

et al. 2020

J. Unmanned Veh. Sys.

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Indigenous peoples of Canada’s North have long made use of boreal forest products, with wooden drift fences to direct caribou movement towards kill sites as unique examples. Caribou fences are of archaeological and ecological significance, yet sparsely distributed and increasingly at risk to wildfire. Costly remote field logistics requires efficient prior fence verification and rapid on-site documentation of structure and landscape context. Unmanned aerial vehicle (UAV) and very high-resolution (VHR) satellite imagery were used for detailed site recording and detection of coarse woody debris (CWD) objects under challenging Subarctic alpine woodlands conditions. UAVs enabled discovery of previously unknown wooden structures and revealed extensive use of CWD (n = 1745, total length = 2682 m, total volume = 16.7 m3). The methodology detected CWD objects much smaller than previously reported in remote sensing literature (mean 1.5 m long, 0.09 m wide), substantiating a high spatial resolution requirement for detection. Structurally, the fences were not uniformly left on the landscape. Permafrost patterned ground combined with small CWD contributions at the pixel level complicated identification through VHR data sets. UAV outputs significantly enriched field techniques and supported a deeper understanding of caribou fences as a hunting technology, and they will aid ongoing archaeological interpretation and time-series comparisons of change agents.

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Detection of fallen logs from high-resolution UAV images

Cited by 18 publications

References 39 publications

Mapping Coarse Woody Debris with Random Forest Classification of Centimetric Aerial Imagery

Mapping Coarse Woody Debris with Random Forest Classification of Centimetric Aerial Imagery

Remotely piloted aircraft systems and forests: a global state of the art and future challenges

Archaeological documentation of wood caribou fences using unmanned aerial vehicle and very high-resolution satellite imagery in the Mackenzie Mountains, Northwest Territories

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