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Estimating Distribution of Hidden Objects with Drones: From Tennis Balls to Manatees

Author

Listed:
  • Julien Martin
  • Holly H Edwards
  • Matthew A Burgess
  • H Franklin Percival
  • Daniel E Fagan
  • Beth E Gardner
  • Joel G Ortega-Ortiz
  • Peter G Ifju
  • Brandon S Evers
  • Thomas J Rambo

Abstract

Unmanned aerial vehicles (UAV), or drones, have been used widely in military applications, but more recently civilian applications have emerged (e.g., wildlife population monitoring, traffic monitoring, law enforcement, oil and gas pipeline threat detection). UAV can have several advantages over manned aircraft for wildlife surveys, including reduced ecological footprint, increased safety, and the ability to collect high-resolution geo-referenced imagery that can document the presence of species without the use of a human observer. We illustrate how geo-referenced data collected with UAV technology in combination with recently developed statistical models can improve our ability to estimate the distribution of organisms. To demonstrate the efficacy of this methodology, we conducted an experiment in which tennis balls were used as surrogates of organisms to be surveyed. We used a UAV to collect images of an experimental field with a known number of tennis balls, each of which had a certain probability of being hidden. We then applied spatially explicit occupancy models to estimate the number of balls and created precise distribution maps. We conducted three consecutive surveys over the experimental field and estimated the total number of balls to be 328 (95%CI: 312, 348). The true number was 329 balls, but simple counts based on the UAV pictures would have led to a total maximum count of 284. The distribution of the balls in the field followed a simulated environmental gradient. We also were able to accurately estimate the relationship between the gradient and the distribution of balls. Our experiment demonstrates how this technology can be used to create precise distribution maps in which discrete regions of the study area are assigned a probability of presence of an object. Finally, we discuss the applicability and relevance of this experimental study to the case study of Florida manatee distribution at power plants.

Suggested Citation

  • Julien Martin & Holly H Edwards & Matthew A Burgess & H Franklin Percival & Daniel E Fagan & Beth E Gardner & Joel G Ortega-Ortiz & Peter G Ifju & Brandon S Evers & Thomas J Rambo, 2012. "Estimating Distribution of Hidden Objects with Drones: From Tennis Balls to Manatees," PLOS ONE, Public Library of Science, vol. 7(6), pages 1-8, June.
    • Handle: RePEc:plo:pone00:0038882
    DOI: 10.1371/journal.pone.0038882
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    Cited by:

    1. Coşku Kasnakoğlu, 2016. "Investigation of Multi-Input Multi-Output Robust Control Methods to Handle Parametric Uncertainties in Autopilot Design," PLOS ONE, Public Library of Science, vol. 11(10), pages 1-36, October.
    2. Bonneau, Mathieu & Martin, Julien & Peyrard, Nathalie & Rodgers, Leroy & Romagosa, Christina M. & Johnson, Fred A., 2019. "Optimal spatial allocation of control effort to manage invasives in the face of imperfect detection and misclassification," Ecological Modelling, Elsevier, vol. 392(C), pages 108-116.
    3. Thomas H. Bates & Val J. Anderson & Robert L. Johnson & Loreen Allphin & Dustin Rooks & Steven L. Petersen, 2022. "A Practical Assessment of Using sUASs (Drones) to Detect and Quantify Wright Fishhook Cactus ( Sclerocactus wrightiae L.D. Benson) Populations in Desert Grazinglands," Land, MDPI, vol. 11(5), pages 1-13, April.

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