Monitoring of Coral Reefs Using Artificial Intelligence: A Feasible and Cost-Effective Approach

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Gonzalez-Rivero, Manuel
Beijbom, Oscar
Rodriguez-Ramirez, Alberto
Bryant, Dominic EP
Ganase, Anjani
Gonzalez-Marrero, Yeray
Herrera-Reveles, Ana
Kennedy, Emma
Kim, Catherine JS
Lopez-Marcano, Sebastian
Markey, Kathryn
Neal, Benjamin P
Osborne, Kate
Reyes-Nivia, Catalina
Sampayo, Eugenia M
Stolberg, Kristin
Taylor, Abbie
Vercelloni, Julie
Wyatt, Mathew
Hoegh-Guldberg, Ove
Griffith University Author(s)
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2020
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Abstract

Ecosystemmonitoring is central to effectivemanagement, where rapid reporting is essential to provide timely advice. While digital imagery has greatly improved the speed of underwater data collection formonitoring benthic communities, image analysis remains a bottleneck in reporting observations. In recent years, a rapid evolution of artificial intelligence in image recognition has been evident in its broad applications in modern society, offering new opportunities for increasing the capabilities of coral reef monitoring. Here, we evaluated the performance of Deep Learning Convolutional Neural Networks for automated image analysis, using a global coral reefmonitoring dataset. The study demonstrates the advantages of automated image analysis for coral reef monitoring in terms of error and repeatability of benthic abundance estimations, as well as cost and benefit. We found unbiased and high agreement between expert and automated observations (97%). Repeated surveys and comparisons against existing monitoring programs also show that automated estimation of benthic composition is equally robust in detecting change and ensuring the continuity of existing monitoring data. Using this automated approach, data analysis and reporting can be accelerated by at least 200x and at a fraction of the cost (1%). Combining commonly used underwater imagery inmonitoring with automated image annotation can dramatically improve how wemeasure andmonitor coral reefs worldwide, particularly in terms of allocating limited resources, rapid reporting and data integration within and acrossmanagement areas.

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Remote Sensing

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12

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3

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© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited

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Classical physics

Physical geography and environmental geoscience

Geomatic engineering

Atmospheric sciences

Science & Technology

Remote Sensing

coral reefs

monitoring

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Gonzalez-Rivero, M; Beijbom, O; Rodriguez-Ramirez, A; Bryant, DEP; Ganase, A; Gonzalez-Marrero, Y; Herrera-Reveles, A; Kennedy, E; Kim, CJS; Lopez-Marcano, S; Markey, K; Neal, BP; Osborne, K; Reyes-Nivia, C; et al, Monitoring of Coral Reefs Using Artificial Intelligence: A Feasible and Cost-Effective Approach, Remote Sensing, 2020, 12 (3), pp. 489

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