2021
DOI: 10.3389/fpls.2021.767400
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Mask, Train, Repeat! Artificial Intelligence for Quantitative Wood Anatomy

Abstract: The recent developments in artificial intelligence have the potential to facilitate new research methods in ecology. Especially Deep Convolutional Neural Networks (DCNNs) have been shown to outperform other approaches in automatic image analyses. Here we apply a DCNN to facilitate quantitative wood anatomical (QWA) analyses, where the main challenges reside in the detection of a high number of cells, in the intrinsic variability of wood anatomical features, and in the sample quality. To properly classify and i… Show more

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Cited by 13 publications
(9 citation statements)
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References 34 publications
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“…Though trained only on Picea abies , the consistent structure of conifer wood resulted in similar precision and recall values in other conifer species. These findings are consistent with other studies (Fabijańska et al, 2017; Martinez‐Garcia et al, 2021; Resente et al, 2021). These results illustrate our CNN's out‐of‐the‐box utility while suggesting results can be improved for specific applications with the re‐trainer tool.…”
Section: Discussionsupporting
confidence: 93%
See 1 more Smart Citation
“…Though trained only on Picea abies , the consistent structure of conifer wood resulted in similar precision and recall values in other conifer species. These findings are consistent with other studies (Fabijańska et al, 2017; Martinez‐Garcia et al, 2021; Resente et al, 2021). These results illustrate our CNN's out‐of‐the‐box utility while suggesting results can be improved for specific applications with the re‐trainer tool.…”
Section: Discussionsupporting
confidence: 93%
“…Increased use of imaged increment cores (Griffin et al, 2021; Larsson, 2003; Rademacher et al, 2021) provides an opportunity to automate detection and subsequent measurement of annual ring widths. Previous attempts at identifying ring boundaries have had variable and sometimes impressive success (Conner et al, 1998; Fabijańska et al, 2017; Fabijańska & Danek, 2018; Martinez‐Garcia et al, 2021; Resente et al, 2021) but the only deployable method is limited to three‐dimensional images (Martinez‐Garcia et al, 2021). Here, we present a new supervised Mask R‐CNN and processing pipeline available as a Docker container.…”
Section: Introductionmentioning
confidence: 99%
“…The recent advancements in methods and standard protocols (Gärtner and Schweingruber, 2013;von Arx et al, 2016), automated image-analysis systems (von Arx et al, 2013;von Arx and Carrer, 2014;von Arx and Dietz, 2005) and processing using artificial intelligence (Resente et al, 2021) allow to significantly increase the number of measured anatomical features, while also reducing the time required for the analysis. Nevertheless, the establishment of the new quantitative wood anatomy network (Q-NET) reflects the need of a growing community to share knowledge and experience, but also to advance methodologies (Resente et al, 2021) and to profit from interdisciplinary collaborations to tackle broader ecological questions at multiple temporal and spatial scales (von Arx et al, 2021).…”
Section: Dendroanatomy As a Key To Understand The Cellular Mechanisti...mentioning
confidence: 99%
“…This is a powerful tool that can greatly cut down on the processing time to generate ring-width measurements while maintaining the benefits of image based measurements (Griffin et al, 2021; Maxwell & Larsson, 2021). Though trained only on Picea abies , the consistent structure of conifer wood means it should be easily deployable across other conifer species (Fabijańska et al, 2017; Martinez-Garcia et al, 2021; Resente et al, 2021). We consider this CNN to be a valuable tool for efficiently generating data that can reduce analysis time considerably, especially in large datasets or for potential reanalysis of old unmeasured datasets.Though our CNN performed well with 95% of its detections correct and correctly identifying 99% of true rings, these errors still prohibit an unsupervised use of the generated data and requires an experienced dendrochronologist to oversee crossdating (Holmes et al, 1986).…”
Section: Discussionmentioning
confidence: 99%
“…Increased use of imaged increment cores (Griffin et al, 2021;Larsson, 2003;Rademacher et al, 2021) provides an opportunity to automate detection and subsequent measurement of annual ring widths. Previous attempts at identifying ring boundaries have had variable and sometimes impressive AUTOMATED TREE-RING DETECTION AND MEASUREMENT success (Conner et al, 1998;Fabijańska et al, 2017;Fabijańska & Danek, 2018;Martinez-Garcia et al, 2021;Resente et al, 2021) but the only deployable method is limited to three-dimensional images (Martinez-Garcia et al, 2021). Here we present a new supervised Mask R-CNN and processing pipeline available as a Docker container.…”
Section: Introductionmentioning
confidence: 99%