Camera settings and biome influence the accuracy of citizen science approaches to camera trap image classification

Autor: Daniel Lenaipa, Lexson Larpei, Johnson Lekushan, Jonathan Lenyakopiro, Jesus Lekalgitele, Jenna Stacy-Dawes, Arthur B. Muneza, Kristin Neilson, Symon Masiaine Ole Ranah, Nicole Egna, Masenge Lororua, Jenny Anne Glikman, Joseph Lemirgishan, Mark Bowler, Sebastian Rabhayo, Elizabeth Oneita Davis, Mathias W. Tobler, Ruth Lekupanai, Julian Fennessy, David H. O’Connor, Brooke Simmons, Ranis Lenalakiti Lesipiti, Kirstie Ruppert, Megan A. Owen, Nicholas W. Pilfold, Lekuran Lemingani
Rok vydání: 2020
Předmět:
Zdroj: Ecology and Evolution
Ecology and evolution, vol 10, iss 21
Digital.CSIC. Repositorio Institucional del CSIC
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Ecology and Evolution, Vol 10, Iss 21, Pp 11954-11965 (2020)
ISSN: 2045-7758
Popis: Scientists are increasingly using volunteer efforts of citizen scientists to classify images captured by motion‐activated trail cameras. The rising popularity of citizen science reflects its potential to engage the public in conservation science and accelerate processing of the large volume of images generated by trail cameras. While image classification accuracy by citizen scientists can vary across species, the influence of other factors on accuracy is poorly understood. Inaccuracy diminishes the value of citizen science derived data and prompts the need for specific best‐practice protocols to decrease error. We compare the accuracy between three programs that use crowdsourced citizen scientists to process images online: Snapshot Serengeti, Wildwatch Kenya, and AmazonCam Tambopata. We hypothesized that habitat type and camera settings would influence accuracy. To evaluate these factors, each photograph was circulated to multiple volunteers. All volunteer classifications were aggregated to a single best answer for each photograph using a plurality algorithm. Subsequently, a subset of these images underwent expert review and were compared to the citizen scientist results. Classification errors were categorized by the nature of the error (e.g., false species or false empty), and reason for the false classification (e.g., misidentification). Our results show that Snapshot Serengeti had the highest accuracy (97.9%), followed by AmazonCam Tambopata (93.5%), then Wildwatch Kenya (83.4%). Error type was influenced by habitat, with false empty images more prevalent in open‐grassy habitat (27%) compared to woodlands (10%). For medium to large animal surveys across all habitat types, our results suggest that to significantly improve accuracy in crowdsourced projects, researchers should use a trail camera set up protocol with a burst of three consecutive photographs, a short field of view, and determine camera sensitivity settings based on in situ testing. Accuracy level comparisons such as this study can improve reliability of future citizen science projects, and subsequently encourage the increased use of such data.
We show that the accuracy levels of trail‐camera image classification by citizen scientists are affected by habitat type and trail‐camera set up. By comparing the accuracy results from three camera trap citizen science projects, we found that setting trail cameras to capture 3 images per burst, testing the appropriate camera sensitivity, and a shorter field of view resulting from dense vegetation may significantly improve citizen scientist image classification accuracy when compared to classifications by experts.
Databáze: OpenAIRE
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