Sloop: A pattern retrieval engine for individual animal identification

Duyck, James; Finn, Chelsea; Hutcheon, Andy; Vera, Pablo; Salas, Joaquín; Ravela, Sai

doi:10.1016/j.patcog.2014.07.017

Cited by 47 publications

(34 citation statements)

References 32 publications

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“…This approach was pioneered for fluke identification in marine mammals (Adams, Speakman, Zolman, & Schwacke, ; Beekmans, Whitehead, Huele, Steiner, & Steenbeek, ; Gilman, Hupman, Stockin, & Pawley, ) and has since been applied on a wide range of taxa, from zebras ( Equus grevyi ) (Crall, Stewart, Berger‐Wolf, Rubenstein, & Sundaresan, ), to elephants ( L. cyclotis ) (Ardovini, Cinque, & Sangineto, ), and box turtles ( Terrapene carolina ) (Cross, Lipps, Sapak, Tobin, & Root, ). These methods are effective in identifying animals with complex markings, such as giraffes ( Giraffa camelopardalis ) (Bolger, Morrison, Vance, Lee, & Farid, ), whale sharks ( Rhincodon typus ) (Arzoumanian et al., ) and catfish ( Rineloricaria aequalicuspis ) (Dala‐Corte, Moschetta, & Becker, ), and range from completely automated (Town, Marshall, & Sethasathien, ), to involving human feedback during matching (Duyck et al., ). Crall et al.…”

Section: Identitymentioning

confidence: 99%

“…For animals with unique markings, this can be a low-cost alternative to expensive trapping and tagging programs. This approach was pioneered for fluke identification in marine mammals (Adams, Speakman, Zolman, & Schwacke, 2006;Beekmans, Whitehead, Huele, Steiner, & Steenbeek, 2005;Gilman, Hupman, Stockin, & Pawley, 2016) and has since been applied on a wide range of taxa, from zebras (Equus grevyi) (Crall, Stewart, Berger-Wolf, Rubenstein, & Sundaresan, 2013), to elephants (L. cyclotis) (Ardovini, Cinque, & F I G U R E 5 Application of computer vision to predicting individual and species identity: (a) Matching algorithms score the similarity of photographed zebras to a library of known images to track individuals over time (Crall et al 2013 (Town, Marshall, & Sethasathien, 2013), to involving human feedback during matching (Duyck et al, 2015). Crall et al (2013) reported accuracy rates ranging from 95% for Grey's zebras (E. grevyi) to 100% for jaguars (Panthera onca) using the HotSpotter algorithm, which can be accessed through the Wildbook web platform.…”

Section: Identitymentioning

confidence: 99%

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A computer vision for animal ecology

Weinstein

2017

Journal of Animal Ecology

352

287

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A central goal of animal ecology is to observe species in the natural world. The cost and challenge of data collection often limit the breadth and scope of ecological study. Ecologists often use image capture to bolster data collection in time and space. However, the ability to process these images remains a bottleneck. Computer vision can greatly increase the efficiency, repeatability and accuracy of image review. Computer vision uses image features, such as colour, shape and texture to infer image content. I provide a brief primer on ecological computer vision to outline its goals, tools and applications to animal ecology. I reviewed 187 existing applications of computer vision and divided articles into ecological description, counting and identity tasks. I discuss recommendations for enhancing the collaboration between ecologists and computer scientists and highlight areas for future growth of automated image analysis.

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Section: Identitymentioning

confidence: 99%

Section: Identitymentioning

confidence: 99%

A computer vision for animal ecology

Weinstein

2017

Journal of Animal Ecology

352

287

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“…In turn, these results do not imply that shark finning will have negligible consequences. Hopefully the rising popularity of citizen‐science programmes and improving algorithms for recognising sharks from photographs (Duyck et al, ) will allow a step change in the measurement of shark survival and eventually allow the demographic consequences of injuries to be estimated for multiple species.…”

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confidence: 99%

Survival of a grey reef shark Carcharhinus amblyrhynchos without a dorsal fin

Mumby

2019

Journal of Fish Biology

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An adult, female grey reef shark Carcharhinus amblyrhnchos was observed missing its first dorsal fin in 2014. The same individual was re‐photographed 4 years later indicating that this numerically dominant reef shark can survive total loss of its first dorsal fin. While this disability may impair the shark's ability to undertake pursuit predation, the species has a diversity of foraging modes that probably facilitates survival.

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“…Other applications are establishing the fingerprint of past sea-level changes (Rovere et al 2012), validate data to generate overall landcover maps (See et al 2014), urban surveillance (Monahan and Mokos 2013), or animal identification for ecological monitoring and conservation (Duyck et al 2014). …”

Section: Regarding the Literature Review Resultsmentioning

confidence: 99%

Crowdsourcing Fundamentals: Definition and Typology

Estellés-Arolas

Navarro-Giner

González-Ladrón-de-Guevara

2015

Advances in Crowdsourcing

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Crowdsourcing is a problem-solving and task realization model that is being increasingly used. Thanks to the possibility of harnessing the collective intelligence from the Internet; thanks to the crowdsourcing initiatives people can, for example, find a solution to a complex chemical problem, get images tagged, or get a logo designed. Due to its success and usefulness, more and more researchers have focused their interest on this concept. This fact has shown that the concept of crowdsourcing has no clear boundaries, and although over time the concept has been better explained, some authors describe it differently, propose different types of crowdsourcing initiatives, or even use contradictory crowdsourcing examples. In this paper, an integrated definition and typology, developed in 2012, are analyzed to check whether they are still valid today or whether need a reformulation.

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Sloop: A pattern retrieval engine for individual animal identification

Cited by 47 publications

References 32 publications

A computer vision for animal ecology

A computer vision for animal ecology

Survival of a grey reef shark Carcharhinus amblyrhynchos without a dorsal fin

Crowdsourcing Fundamentals: Definition and Typology

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