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1. BenthicNet: A global compilation of seafloor images for deep learning applications

Author

Lowe, Scott C., Misiuk, Benjamin, Xu, Isaac, Abdulazizov, Shakhboz, Baroi, Amit R., Bastos, Alex C., Best, Merlin, Ferrini, Vicki, Friedman, Ariell, Hart, Deborah, Hoegh-Guldberg, Ove, Ierodiaconou, Daniel, Mackin-McLaughlin, Julia, Markey, Kathryn, Menandro, Pedro S., Monk, Jacquomo, Nemani, Shreya, O'Brien, John, Oh, Elizabeth, Reshitnyk, Luba Y., Robert, Katleen, Roelfsema, Chris M., Sameoto, Jessica A., Schimel, Alexandre C. G., Thomson, Jordan A., Wilson, Brittany R., Wong, Melisa C., Brown, Craig J., and Trappenberg, Thomas

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Advances in underwater imaging enable the collection of extensive seafloor image datasets that are necessary for monitoring important benthic ecosystems. The ability to collect seafloor imagery has outpaced our capacity to analyze it, hindering expedient mobilization of this crucial environmental information. Recent machine learning approaches provide opportunities to increase the efficiency with which seafloor image datasets are analyzed, yet large and consistent datasets necessary to support development of such approaches are scarce. Here we present BenthicNet: a global compilation of seafloor imagery designed to support the training and evaluation of large-scale image recognition models. An initial set of over 11.4 million images was collected and curated to represent a diversity of seafloor environments using a representative subset of 1.3 million images. These are accompanied by 2.6 million annotations translated to the CATAMI scheme, which span 190,000 of the images. A large deep learning model was trained on this compilation and preliminary results suggest it has utility for automating large and small-scale image analysis tasks. The compilation and model are made openly available for use by the scientific community at https://doi.org/10.20383/103.0614.

Published
2024

2. Figure 2 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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3. Figure 3 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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4. Figure 6 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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5. Figure 10 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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6. Figure 5 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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7. Supplementary material 1 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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8. Report on the Marine Imaging Workshop 2022

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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9. Figure 7 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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10. Figure 4 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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11. Figure 9 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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12. Figure 8 from: Borremans C, Durden J, Schoening T, Curtis EJ, Adams L, Branzan Albu A, Arnaubec A, Ayata S-D, Baburaj R, Bassin C, Beck M, Bigham KT, Boschen-Rose RE, Collett C, Contini M, Correa PVF, Dominguez-Carrió C, Dreyfus G, Duncan G, Ferrera M, Foulon V, Friedman A, Gaikwad S, Game C, Gaytán-Caballero A, Girard F, Giusti M, Hanafi-Portier M, Howell K, Hulevata I, Itiowe K, Jackett C, Jansen J, Karthäuser C, Katija K, Kernec M, Kim G, Kitahara M, Langenkämper D, Langlois T, Lanteri N, Jianping Li C, Li Q-R, Liabot P-O, Lindsay D, Loulidi A, Marcon Y, Marini S, Marranzino A, Massot-Campos M, Matabos M, Menot L, Moreno B, Morrissey M, Nakath D, Nattkemper T, Neufeld M, Obst M, Olu K, Parimbelli A, Pasotti F, Pelletier D, Perhirin M, Piechaud N, Pizarro O, Purser A, Rodrigues CF, Ceballos Romero E, Schlining B, Song Y, Sosik HM, Sourisseau M, Taormina B, Taucher J, Thornton B, Van Audenhaege L, von der Meden C, Wacquet G, Williams J, Witting K, Zurowietz M (2024) Report on the Marine Imaging Workshop 2022. Research Ideas and Outcomes 10: e119782. https://doi.org/10.3897/rio.10.e119782

Author

Borremans, Catherine, primary, Durden, Jennifer, additional, Schoening, Timm, additional, Curtis, Emma, additional, Adams, Luther, additional, Branzan Albu, Alexandra, additional, Arnaubec, Aurélien, additional, Ayata, Sakina-Dorothée, additional, Baburaj, Reshma, additional, Bassin, Corinne, additional, Beck, Miriam, additional, Bigham, Katharine, additional, Boschen-Rose, Rachel, additional, Collett, Chad, additional, Contini, Matteo, additional, Correa, Paulo, additional, Dominguez-Carrió, Carlos, additional, Dreyfus, Gautier, additional, Duncan, Graeme, additional, Ferrera, Maxime, additional, Foulon, Valentin, additional, Friedman, Ariell, additional, Gaikwad, Santosh, additional, Game, Chloe, additional, Gaytán-Caballero, Adriana, additional, Girard, Fanny, additional, Giusti, Michela, additional, Hanafi-Portier, Mélissa, additional, Howell, Kerry, additional, Hulevata, Iryna, additional, Itiowe, Kiamuke, additional, Jackett, Chris, additional, Jansen, Jan, additional, Karthäuser, Clarissa, additional, Katija, Kakani, additional, Kernec, Maxime, additional, Kim, Gabriel, additional, Kitahara, Marcelo, additional, Langenkämper, Daniel, additional, Langlois, Tim, additional, Lanteri, Nadine, additional, Jianping Li, Claude, additional, Li, Qi-Ran, additional, Liabot, Pierre-Olivier, additional, Lindsay, Dhugal, additional, Loulidi, Ali, additional, Marcon, Yann, additional, Marini, Simone, additional, Marranzino, Ashley, additional, Massot-Campos, Miquel, additional, Matabos, Marjolaine, additional, Menot, Lenaick, additional, Moreno, Bernabé, additional, Morrissey, Marcus, additional, Nakath, David, additional, Nattkemper, Tim, additional, Neufeld, Monika, additional, Obst, Matthias, additional, Olu, Karine, additional, Parimbelli, Alexa, additional, Pasotti, Francesca, additional, Pelletier, Dominique, additional, Perhirin, Margaux, additional, Piechaud, Nils, additional, Pizarro, Oscar, additional, Purser, Autun, additional, Rodrigues, Clara, additional, Ceballos Romero, Elena, additional, Schlining, Brian, additional, Song, Yifan, additional, Sosik, Heidi, additional, Sourisseau, Marc, additional, Taormina, Bastien, additional, Taucher, Jan, additional, Thornton, Blair, additional, Van Audenhaege, Loïc, additional, von der Meden, Charles, additional, Wacquet, Guillaume, additional, Williams, Jack, additional, Witting, Kea, additional, and Zurowietz, Martin, additional

Published
2024
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13. Report on the Marine Imaging Workshop 2022

Author

Borremans, Catherine, Durden, Jennifer, Schoening, Timm, Curtis, Emma, Adams, Luther, Branzan Albu, Alexandra, Arnaubec, Aurélien, Ayata, Sakina-Dorothée, Baburaj, Reshma, Bassin, Corinne, Beck, Miriam, Bigham, Katharine, Boschen-Rose, Rachel, Collett, Chad, Contini, Matteo, Correa, Paulo, Dominguez-Carrió, Carlos, Dreyfus, Gautier, Duncan, Graeme, Ferrera, Maxime, Foulon, Valentin, Friedman, Ariell, Gaikwad, Santosh, Game, Chloe, Gaytán-Caballero, Adriana, Girard, Fanny, Giusti, Michela, Hanafi-Portier, Mélissa, Howell, Kerry, Hulevata, Iryna, Itiowe, Kiamuke, Jackett, Chris, Jansen, Jan, Karthäuser, Clarissa, Katija, Kakani, Kernec, Maxime, Kim, Gabriel, Kitahara, Marcelo, Langenkämper, Daniel, Langlois, Tim, Lanteri, Nadine, Jianping Li, Claude, Li, Qi-Ran, Liabot, Pierre-Olivier, Lindsay, Dhugal, Loulidi, Ali, Marcon, Yann, Marini, Simone, Marranzino, Ashley, Massot-Campos, Miquel, Matabos, Marjolaine, Menot, Lenaick, Moreno, Bernabé, Morrissey, Marcus, Nakath, David, Nattkemper, Tim, Neufeld, Monika, Obst, Matthias, Olu, Karine, Parimbelli, Alexa, Pasotti, Francesca, Pelletier, Dominique, Perhirin, Margaux, Piechaud, Nils, Pizarro, Oscar, Purser, Autun, Rodrigues, Clara, Ceballos Romero, Elena, Schlining, Brian, Song, Yifan, Sosik, Heidi, Sourisseau, Marc, Taormina, Bastien, Taucher, Jan, Thornton, Blair, Van Audenhaege, Loïc, von der Meden, Charles, Wacquet, Guillaume, Williams, Jack, Witting, Kea, Zurowietz, Martin, Borremans, Catherine, Durden, Jennifer, Schoening, Timm, Curtis, Emma, Adams, Luther, Branzan Albu, Alexandra, Arnaubec, Aurélien, Ayata, Sakina-Dorothée, Baburaj, Reshma, Bassin, Corinne, Beck, Miriam, Bigham, Katharine, Boschen-Rose, Rachel, Collett, Chad, Contini, Matteo, Correa, Paulo, Dominguez-Carrió, Carlos, Dreyfus, Gautier, Duncan, Graeme, Ferrera, Maxime, Foulon, Valentin, Friedman, Ariell, Gaikwad, Santosh, Game, Chloe, Gaytán-Caballero, Adriana, Girard, Fanny, Giusti, Michela, Hanafi-Portier, Mélissa, Howell, Kerry, Hulevata, Iryna, Itiowe, Kiamuke, Jackett, Chris, Jansen, Jan, Karthäuser, Clarissa, Katija, Kakani, Kernec, Maxime, Kim, Gabriel, Kitahara, Marcelo, Langenkämper, Daniel, Langlois, Tim, Lanteri, Nadine, Jianping Li, Claude, Li, Qi-Ran, Liabot, Pierre-Olivier, Lindsay, Dhugal, Loulidi, Ali, Marcon, Yann, Marini, Simone, Marranzino, Ashley, Massot-Campos, Miquel, Matabos, Marjolaine, Menot, Lenaick, Moreno, Bernabé, Morrissey, Marcus, Nakath, David, Nattkemper, Tim, Neufeld, Monika, Obst, Matthias, Olu, Karine, Parimbelli, Alexa, Pasotti, Francesca, Pelletier, Dominique, Perhirin, Margaux, Piechaud, Nils, Pizarro, Oscar, Purser, Autun, Rodrigues, Clara, Ceballos Romero, Elena, Schlining, Brian, Song, Yifan, Sosik, Heidi, Sourisseau, Marc, Taormina, Bastien, Taucher, Jan, Thornton, Blair, Van Audenhaege, Loïc, von der Meden, Charles, Wacquet, Guillaume, Williams, Jack, Witting, Kea, and Zurowietz, Martin

Abstract

Imaging is increasingly used to capture information on the marine environment thanks to the improvements in imaging equipment, devices for carrying cameras and data storage in recent years. In that context, biologists, geologists, computer specialists and end-users must gather to discuss the methods and procedures for optimising the quality and quantity of data collected from images. The 4 Marine Imaging Workshop was organised from 3-6 October 2022 in Brest (France) in a hybrid mode. More than a hundred participants were welcomed in person and about 80 people attended the online sessions. The workshop was organised in a single plenary session of presentations followed by discussion sessions. These were based on dynamic polls and open questions that allowed recording of the imaging community’s current and future ideas. In addition, a whole day was dedicated to practical sessions on image analysis, data standardisation and communication tools. The format of this edition allowed the participation of a wider community, including lower income countries, early career scientists, all working on laboratory, benthic and pelagic imaging. This article summarises the topics addressed during the workshop, particularly the outcomes of the discussion sessions for future reference and to make the workshop results available to the open public.

Published
2024

17. Current and future trends in marine image annotation software

Author

Gomes-Pereira, Jose Nuno, Auger, Vincent, Beisiegel, Kolja, Benjamin, Robert, Bergmann, Melanie, Bowden, David, Buhl-Mortensen, Pal, De Leo, Fabio C., Dionísio, Gisela, Durden, Jennifer M., Edwards, Luke, Friedman, Ariell, Greinert, Jens, Jacobsen-Stout, Nancy, Lerner, Steve, Leslie, Murray, Nattkemper, Tim W., Sameoto, Jessica A., Schoening, Timm, Schouten, Ronald, Seager, James, Singh, Hanumant, Soubigou, Olivier, Tojeira, Inês, van den Beld, Inge, Dias, Frederico, Tempera, Fernando, and Santos, Ricardo S.

Published
2016
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21. Perspectives In Visual Imaging for Marine Biology and Ecology: From Acquisition to Understanding

Author

Durden, Jennifer M, primary, Schoening, Timm, additional, Althaus, Franziska, additional, Friedman, Ariell, additional, Garcia, Rafael, additional, Glover, Adrian G, additional, Greinert, Jens, additional, Stout, Nancy Jacobsen, additional, Jones, Daniel, additional, Jordt, Anne, additional, Kaeli, Jeffrey, additional, Köser, Kevin, additional, Kuhnz, Linda, additional, Lindsay, Dhugal, additional, Morris, Kirsty, additional, Nattkemper, Tim, additional, Osterloff, Jonas, additional, Ruhl, Henry, additional, Singh, Hanumant, additional, Tran, Maggie, additional, and Bett, Brian, additional

Published
2016
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24. A geometric basis for surface habitat complexity and biodiversity

Author

Torres-Pulliza, Damaris, primary, Dornelas, Maria A., additional, Pizarro, Oscar, additional, Bewley, Michael, additional, Blowes, Shane A., additional, Boutros, Nader, additional, Brambilla, Viviana, additional, Chase, Tory J., additional, Frank, Grace, additional, Friedman, Ariell, additional, Hoogenboom, Mia O., additional, Williams, Stefan, additional, Zawada, Kyle J. A., additional, and Madin, Joshua S., additional

Published
2020
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26. Perspectives in visual imaging for marine biology and ecology: from acquisition to understanding

Author

Durden, Jennifer M., Schoening, Timm, Althaus, Franziska, Friedman, Ariell, Garcia, Rafael, Glover, Adrian G., Greinert, Jens, Stout, Nancy Jacobsen, Jones, Daniel O.B., Jordt, Anne, Kaeli, Jeffrey, Köser, Kevin, Kuhnz, Linda A., Lindsay, Dhugal, Morris, Kirsty J., Nattkemper, Tim W., Osterloff, Jonas, Ruhl, Henry A., Singh, Hanumant, Tran, Maggie, Bett, Brian J., Hughes, R.N., Hughes, D.J., Smith, I.P., Dale, A.C., Hughes, R. N., Hughes, D. J., Smith, I. P., and Dale, A. C.

Subjects
Marine Sciences, Biology and Microbiology
Abstract

Marine visual imaging has become a major assessment tool in the science, policy and public understanding of our seas and oceans. The technology to acquire and process this imagery has significantly evolved in recent years through the development of new camera platforms, camera types, lighting systems and analytical software. These advances have led to new challenges in imaging, including storage and management of ‘Big Data’, enhancement of digital photos, and the extraction of biological and ecological data. The need to address these challenges, within and beyond the scientific community, is set to substantially increase in the near future, as imaging is increasingly used in the designation and evaluation of marine conservation areas, and for the assessment of environmental baselines and impact monitoring of various marine industries. We review the state of the theory, techniques and technologies associated with each of the steps of marine imaging for observation and research, and to provide an outlook on the future from the perspective of current active science and engineering developers and users.

Published
2016

27. High-resolution underwater robotic vision-based mapping and three-dimensional reconstruction for archaeology

Author

Johnson-Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, and Henderson, Jon C.

Abstract

Documenting underwater archaeological sites is an extremely challenging problem. Sites covering large areas are particularly daunting for traditional techniques. In this paper, we present a novel approach to this problem using both an autonomous underwater vehicle (AUV) and a diver-controlled stereo imaging platform to document the submerged Bronze Age city at Pavlopetri, Greece. The result is a three-dimensional (3D) reconstruction covering 26,600 m2 at a resolution of 2 mm/pixel, the largest-scale underwater optical 3D map, at such a resolution, in the world to date. We discuss the advances necessary to achieve this result, including i) an approach to color correct large numbers of images at varying altitudes and over varying bottom types; ii) a large-scale bundle adjustment framework that is capable of handling upward of 400,000 stereo images; and iii) a novel approach to the registration and rapid documentation of an underwater excavations area that can quickly produce maps of site change. We present visual and quantitative comparisons to the authors' previous underwater mapping approaches.

Published
2016

29. Correction: Corrigendum: Australian sea-floor survey data, with images and expert annotations

Author

Bewley, Michael, primary, Friedman, Ariell, additional, Ferrari, Renata, additional, Hill, Nicole, additional, Hovey, Renae, additional, Barrett, Neville, additional, Marzinelli, Ezequiel M., additional, Pizarro, Oscar, additional, Figueira, Will, additional, Meyer, Lisa, additional, Babcock, Russ, additional, Bellchambers, Lynda, additional, Byrne, Maria, additional, and Williams, Stefan B., additional

Published
2016
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30. Perspectives in visual imaging for marine biology and ecology: from acquisition to understanding

Author

Hughes, R.N., Hughes, D.J., Smith, I.P., Dale, A.C., Durden, Jennifer M., Schoening, Timm, Althaus, Franziska, Friedman, Ariell, Garcia, Rafael, Glover, Adrian G., Greinert, Jens, Jacobsen Stout, Nancy, Jones, Daniel O. B., Jordt, Anne, Kaeli, Jeff W., Köser, Kevin, Kuhnz, Linda, Lindsay, Dhugal, Morris, Kirsty J., Nattkemper, Tim W., Osterloff, Jonas, Ruhl, Henry, Singh, Hanumant, Tran, Maggie, Bett, Brian J., Hughes, R.N., Hughes, D.J., Smith, I.P., Dale, A.C., Durden, Jennifer M., Schoening, Timm, Althaus, Franziska, Friedman, Ariell, Garcia, Rafael, Glover, Adrian G., Greinert, Jens, Jacobsen Stout, Nancy, Jones, Daniel O. B., Jordt, Anne, Kaeli, Jeff W., Köser, Kevin, Kuhnz, Linda, Lindsay, Dhugal, Morris, Kirsty J., Nattkemper, Tim W., Osterloff, Jonas, Ruhl, Henry, Singh, Hanumant, Tran, Maggie, and Bett, Brian J.

Abstract

Marine visual imaging has become a major assessment tool in the science, policy and public understanding of our seas and oceans. The technology to acquire and process this imagery has significantly evolved in recent years through the development of new camera platforms, camera types, lighting systems and analytical software. These advances have led to new challenges in imaging, including storage and management of ‘Big Data’, enhancement of digital photos, and the extraction of biological and ecological data. The need to address these challenges, within and beyond the scientific community, is set to substantially increase in the near future, as imaging is increasingly used in the designation and evaluation of marine conservation areas, and for the assessment of environmental baselines and impact monitoring of various marine industries. We review the state of the theory, techniques and technologies associated with each of the steps of marine imaging for observation and research, and to provide an outlook on the future from the perspective of current active science and engineering developers and users.

Published
2016

31. Perspectives in visual imaging for marine biology and ecology: from acquisition to understanding

Author

Hughes, R. N., Hughes, D. J., Smith, I. P., Dale, A. C., Durden, Jennifer M., Schoening, Timm, Althaus, Franziska, Friedman, Ariell, Garcia, Rafael, Glover, Adrian G., Greinert, Jens, Stout, Nancy Jacobsen, Jones, Daniel O.B., Jordt, Anne, Kaeli, Jeffrey, Köser, Kevin, Kuhnz, Linda A., Lindsay, Dhugal, Morris, Kirsty J., Nattkemper, Tim W., Osterloff, Jonas, Ruhl, Henry A., Singh, Hanumant, Tran, Maggie, Bett, Brian J., Hughes, R. N., Hughes, D. J., Smith, I. P., Dale, A. C., Durden, Jennifer M., Schoening, Timm, Althaus, Franziska, Friedman, Ariell, Garcia, Rafael, Glover, Adrian G., Greinert, Jens, Stout, Nancy Jacobsen, Jones, Daniel O.B., Jordt, Anne, Kaeli, Jeffrey, Köser, Kevin, Kuhnz, Linda A., Lindsay, Dhugal, Morris, Kirsty J., Nattkemper, Tim W., Osterloff, Jonas, Ruhl, Henry A., Singh, Hanumant, Tran, Maggie, and Bett, Brian J.

Published
2016
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32. Automated interpretation of benthic stereo imagery

Author

Friedman, Ariell Lee

Subjects
Machine learning, rugosity, AUV, computer vision, image classification
Abstract

Autonomous benthic imaging, reduces human risk and increases the amount of collected data. However, manually interpreting these high volumes of data is onerous, time consuming and in many cases, infeasible. The objective of this thesis is to improve the scientific utility of the large image datasets. Fine-scale terrain complexity is typically quantified by rugosity and measured by divers using chains and tape measures. This thesis proposes a new technique for measuring terrain complexity from 3D stereo image reconstructions, which is non-contact and can be calculated at multiple scales over large spatial extents. Using robots, terrain complexity can be measured without endangering humans, beyond scuba depths. Results show that this approach is more robust, flexible and easily repeatable than traditional methods. These proposed terrain complexity features are combined with visual colour and texture descriptors and applied to classifying imagery. New multi-dataset feature selection methods are proposed for performing feature selection across multiple datasets, and are shown to improve the overall classification performance. The results show that the most informative predictors of benthic habitat types are the new terrain complexity measurements. This thesis presents a method that aims to reduce human labelling effort, while maximising classification performance by combining pre-clustering with active learning. The results support that utilising the structure of the unlabelled data in conjunction with uncertainty sampling can significantly reduce the number of labels required for a given level of accuracy. Typically 0.00001–0.00007% of image data is annotated and processed for science purposes (20–50 points in 1–2% of the images). This thesis proposes a framework that uses existing human-annotated point labels to train a superpixel-based automated classification system, which can extrapolate the classified results to every pixel across all the images of an entire survey.

Published
2013

33. Habitat structural complexity metrics improve predictions of fish abundance and distribution.

Author

Ferrari, Renata, Malcolm, Hamish A., Byrne, Maria, Friedman, Ariell, Williams, Stefan B., Schultz, Arthur, Jordan, Alan R., and Figueira, Will F.

Subjects
MARINE species diversity, SPECIES distribution, GEOGRAPHICAL distribution of fishes, FISH habitats, MARINE ecosystem management, FISH population measurement
Abstract

Habitat structural complexity influences biotic diversity and abundance, but its influence on marine ecosystems has not been widely addressed. Recent advances in computer vision and robotics allow quantification of structural complexity at higher‐resolutions than previously achieved. This provides an important opportunity to determine the ecological role of habitat structural complexity in marine ecosystems. We used high‐resolution three‐dimensional (3D) maps to test multiple structural complexity metrics, depth and benthic biota as surrogates of fish assemblages across hundreds of meters on subtropical reefs. Non‐parametric multivariate statistics were used to determine the relationship between these surrogates and the entire fish assemblage. Fish were divided into functional groups, which were used to further investigate the relationship between surrogates and fish abundance using generalized linear models. Fish community composition and abundance were strongly related to habitat complexity metrics, benthic biota and depth. Surface rugosity and its variance had a significant positive influence on the abundance of piscivores and sediment infauna predators, and a negative effect on the abundance of predators, herbivores, planktivores and cleaners. Final models for fish functional groups explained up to 68% of the variance. The best metrics to explain the variance in fish abundance were benthic biota (25 ±7.5% of variance explained, mean ± SE) and complexity metrics (16 ±6.6%, mean ± SE). Our results show that high‐resolution 3D maps and derived metrics can predict a large percentage of variance in fish abundance and potentially serve as useful surrogates of fish abundance across all functional groups in spatially dynamic reefs. [ABSTRACT FROM AUTHOR]

Published
2018
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34. Australian sea-floor survey data, with images and expert annotations

Author

Bewley, Michael, primary, Friedman, Ariell, additional, Ferrari, Renata, additional, Hill, Nicole, additional, Hovey, Renae, additional, Barrett, Neville, additional, Marzinelli, Ezequiel M., additional, Pizarro, Oscar, additional, Figueira, Will, additional, Meyer, Lisa, additional, Babcock, Russ, additional, Bellchambers, Lynda, additional, Byrne, Maria, additional, and Williams, Stefan B., additional

Published
2015
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35. The Catlin Seaview Survey - kilometre-scale seascape assessment, and monitoring of coral reef ecosystems

Author

Gonzalez-Rivero, Manuel, Bongaerts, Pim, Beijbom, Oscar, Pizarro, Oscar, Friedman, Ariell, Rodriguez-Ramirez, Alberto, Upcroft, Ben, Laffoley, Dan, Kline, David, Bailhache, Christophe, Vevers, Richard, Hoegh-Guldberg, Ove, Gonzalez-Rivero, Manuel, Bongaerts, Pim, Beijbom, Oscar, Pizarro, Oscar, Friedman, Ariell, Rodriguez-Ramirez, Alberto, Upcroft, Ben, Laffoley, Dan, Kline, David, Bailhache, Christophe, Vevers, Richard, and Hoegh-Guldberg, Ove

Abstract

Free to read 1.Marine ecosystems provide critically important goods and services to society, and hence their accelerated degradation underpins an urgent need to take rapid, ambitious and informed decisions regarding their conservation and management. 2.The capacity, however, to generate the detailed field data required to inform conservation planning at appropriate scales is limited by time and resource consuming methods for collecting and analysing field data at the large scales required. 3.The ‘Catlin Seaview Survey’, described here, introduces a novel framework for large-scale monitoring of coral reefs using high-definition underwater imagery collected using customized underwater vehicles in combination with computer vision and machine learning. This enables quantitative and geo-referenced outputs of coral reef features such as habitat types, benthic composition, and structural complexity (rugosity) to be generated across multiple kilometre-scale transects with a spatial resolution ranging from 2 to 6 m2. 4.The novel application of technology described here has enormous potential to contribute to our understanding of coral reefs and associated impacts by underpinning management decisions with kilometre-scale measurements of reef health. 5.Imagery datasets from an initial survey of 500 km of seascape are freely available through an online tool called the Catlin Global Reef Record. Outputs from the image analysis using the technologies described here will be updated on the online repository as work progresses on each dataset. 6.Case studies illustrate the utility of outputs as well as their potential to link to information from remote sensing. The potential implications of the innovative technologies on marine resource management and conservation are also discussed, along with the accuracy and efficiency of the methodologies deployed.

Published
2014

36. High-Resolution Underwater Robotic Vision-Based Mapping and Three-Dimensional Reconstruction for Archaeology.

Author

Johnson‐Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, and Henderson, Jon C.

Subjects
UNDERWATER archaeology, AUTONOMOUS vehicles, ARCHAEOLOGICAL excavations, SUBMERSIBLES, ROBOTICS
Abstract

Documenting underwater archaeological sites is an extremely challenging problem. Sites covering large areas are particularly daunting for traditional techniques. In this paper, we present a novel approach to this problem using both an autonomous underwater vehicle (AUV) and a diver-controlled stereo imaging platform to document the submerged Bronze Age city at Pavlopetri, Greece. The result is a three-dimensional (3D) reconstruction covering 26,600 m2 at a resolution of 2 mm/pixel, the largest-scale underwater optical 3D map, at such a resolution, in the world to date. We discuss the advances necessary to achieve this result, including i) an approach to color correct large numbers of images at varying altitudes and over varying bottom types; ii) a large-scale bundle adjustment framework that is capable of handling upward of 400,000 stereo images; and iii) a novel approach to the registration and rapid documentation of an underwater excavations area that can quickly produce maps of site change. We present visual and quantitative comparisons to the authors' previous underwater mapping approaches. [ABSTRACT FROM AUTHOR]

Published
2017
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37. The Catlin Seaview Survey - kilometre-scale seascape assessment, and monitoring of coral reef ecosystems

Author

González-Rivero, Manuel, primary, Bongaerts, Pim, additional, Beijbom, Oscar, additional, Pizarro, Oscar, additional, Friedman, Ariell, additional, Rodriguez-Ramirez, Alberto, additional, Upcroft, Ben, additional, Laffoley, Dan, additional, Kline, David, additional, Bailhache, Christophe, additional, Vevers, Richard, additional, and Hoegh-Guldberg, Ove, additional

Published
2014
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41. Monitoring of Benthic Reference Sites: Using an Autonomous Underwater Vehicle

Author

Williams, Stefan B., primary, Pizarro, Oscar R., additional, Jakuba, Michael V., additional, Johnson, Craig R., additional, Barrett, Neville S., additional, Babcock, Russell C., additional, Kendrick, Gary A., additional, Steinberg, Peter D., additional, Heyward, Andrew J., additional, Doherty, Peter J., additional, Mahon, Ian, additional, Johnson-Roberson, Matthew, additional, Steinberg, Daniel, additional, and Friedman, Ariell, additional

Published
2012
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47. Perspectives in visual imaging for marine biology and ecology: from acquisition to understanding

Author

Durden, Jennifer M, Schoening, Timm, Althaus, Franziska, Friedman, Ariell, Garcia, Rafael, Glover, Adrian G., Greinert, Jens, Jacobsen Stout, Nancy, Jones, Daniel O.B., Jordt, Anne, Kaeli, Jeffrey, Koser, Kevin, Kuhnz, Linda A., Lindsay, Dhugal, Morris, Kirsty J., Nattkemper, Tim W., Osterloff, Jonas, Ruhl, Henry A., Hanumant, Singh, Tran, Maggie, and Bett, Brian J.

Subjects
13. Climate action, 14. Life underwater
Abstract

Perspectives in visual imaging for marine biology and ecology: from acquisition to understanding

48. Current and future trends in marine image annotation software

Author

Gomes-Pereira, Jose Nuno, Auger, Vincent, Beisiegel, Kolja, Benjamin, Robert, Bowden, David, Buhl-Mortensen, Pal, De Leo, Fabio C., Dionisio, Gisela, Durden, Jennifer M., Edwards, Luke, Friedman, Ariell, Greinert, Jens, Jacobsen-Stout, Nancy, Lerner, Steve, Leslie, Murray, Nattkemper, Tim W., Sameoto, Jessica A., Schoening, Timm, Schouten, Ronald, Seager, James, Singh, Hanumant, Soubigou, Oliver, Tojeira, Ines, van den Beld, Inge, Dias, Frederico, Tempera, Fernando, Santos, Ricardo, Gomes-Pereira, Jose Nuno, Auger, Vincent, Beisiegel, Kolja, Benjamin, Robert, Bowden, David, Buhl-Mortensen, Pal, De Leo, Fabio C., Dionisio, Gisela, Durden, Jennifer M., Edwards, Luke, Friedman, Ariell, Greinert, Jens, Jacobsen-Stout, Nancy, Lerner, Steve, Leslie, Murray, Nattkemper, Tim W., Sameoto, Jessica A., Schoening, Timm, Schouten, Ronald, Seager, James, Singh, Hanumant, Soubigou, Oliver, Tojeira, Ines, van den Beld, Inge, Dias, Frederico, Tempera, Fernando, and Santos, Ricardo

Abstract

Gomes-Pereira, J. N., Auger, V., Beisiegel, K., Benjamin, R., Bergmann, M., Bowden, D., ... & Edwards, L. (2016). Current and future trends in marine image annotation software. Progress in Oceanography, 149, 106-120. Available here

49. High-resolution underwater robotic vision-based mapping and three-dimensional reconstruction for archaeology

Author

Johnson-Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, Henderson, Jon C., Johnson-Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, and Henderson, Jon C.

Abstract

Documenting underwater archaeological sites is an extremely challenging problem. Sites covering large areas are particularly daunting for traditional techniques. In this paper, we present a novel approach to this problem using both an autonomous underwater vehicle (AUV) and a diver-controlled stereo imaging platform to document the submerged Bronze Age city at Pavlopetri, Greece. The result is a three-dimensional (3D) reconstruction covering 26,600 m2 at a resolution of 2 mm/pixel, the largest-scale underwater optical 3D map, at such a resolution, in the world to date. We discuss the advances necessary to achieve this result, including i) an approach to color correct large numbers of images at varying altitudes and over varying bottom types; ii) a large-scale bundle adjustment framework that is capable of handling upward of 400,000 stereo images; and iii) a novel approach to the registration and rapid documentation of an underwater excavations area that can quickly produce maps of site change. We present visual and quantitative comparisons to the authors' previous underwater mapping approaches.

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50. High-resolution underwater robotic vision-based mapping and three-dimensional reconstruction for archaeology

Author

Johnson-Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, Henderson, Jon C., Johnson-Roberson, Matthew, Bryson, Mitch, Friedman, Ariell, Pizarro, Oscar, Troni, Giancarlo, Ozog, Paul, and Henderson, Jon C.

Abstract

Documenting underwater archaeological sites is an extremely challenging problem. Sites covering large areas are particularly daunting for traditional techniques. In this paper, we present a novel approach to this problem using both an autonomous underwater vehicle (AUV) and a diver-controlled stereo imaging platform to document the submerged Bronze Age city at Pavlopetri, Greece. The result is a three-dimensional (3D) reconstruction covering 26,600 m2 at a resolution of 2 mm/pixel, the largest-scale underwater optical 3D map, at such a resolution, in the world to date. We discuss the advances necessary to achieve this result, including i) an approach to color correct large numbers of images at varying altitudes and over varying bottom types; ii) a large-scale bundle adjustment framework that is capable of handling upward of 400,000 stereo images; and iii) a novel approach to the registration and rapid documentation of an underwater excavations area that can quickly produce maps of site change. We present visual and quantitative comparisons to the authors' previous underwater mapping approaches.

Full Text
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