Crowdsourcing Methods for Data Collection in Geophysics: State of the Art, Issues, and Future Directions

Data are essential in all areas of geophysics. They are used to better understand and manage systems, either directly or via models. Given the complexity and spatiotemporal variability of geophysical systems (e.g., precipitation), a lack of sufficient data is a perennial problem, which is exacerbate...

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Veröffentlicht in:	Reviews of geophysics (1985) 2018-12, Vol.56 (4), p.698-740
Hauptverfasser:	Zheng, Feifei, Tao, Ruoling, Maier, Holger R., See, Linda, Savic, Dragan, Zhang, Tuqiao, Chen, Qiuwen, Assumpção, Thaine H., Yang, Pan, Heidari, Bardia, Rieckermann, Jörg, Minsker, Barbara, Bi, Weiwei, Cai, Ximing, Solomatine, Dimitri, Popescu, Ioana
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Sprache:	eng
Schlagworte:	Air pollution big data categorization Climate change Crowdsourcing Data Data acquisition Data analysis Data collection Data processing Domains Ecology Frameworks Geography Geophysical methods Geophysics Precipitation Project management Proliferation Reviews Surface water Temporal resolution Urbanization Water pollution
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creator	Zheng, Feifei Tao, Ruoling Maier, Holger R. See, Linda Savic, Dragan Zhang, Tuqiao Chen, Qiuwen Assumpção, Thaine H. Yang, Pan Heidari, Bardia Rieckermann, Jörg Minsker, Barbara Bi, Weiwei Cai, Ximing Solomatine, Dimitri Popescu, Ioana
description	Data are essential in all areas of geophysics. They are used to better understand and manage systems, either directly or via models. Given the complexity and spatiotemporal variability of geophysical systems (e.g., precipitation), a lack of sufficient data is a perennial problem, which is exacerbated by various drivers, such as climate change and urbanization. In recent years, crowdsourcing has become increasingly prominent as a means of supplementing data obtained from more traditional sources, particularly due to its relatively low implementation cost and ability to increase the spatial and/or temporal resolution of data significantly. Given the proliferation of different crowdsourcing methods in geophysics and the promise they have shown, it is timely to assess the state of the art in this field, to identify potential issues and map out a way forward. In this paper, crowdsourcing‐based data acquisition methods that have been used in seven domains of geophysics, including weather, precipitation, air pollution, geography, ecology, surface water, and natural hazard management, are discussed based on a review of 162 papers. In addition, a novel framework for categorizing these methods is introduced and applied to the methods used in the seven domains of geophysics considered in this review. This paper also features a review of 93 papers dealing with issues that are common to data acquisition methods in different domains of geophysics, including the management of crowdsourcing projects, data quality, data processing, and data privacy. In each of these areas, the current status is discussed and challenges and future directions are outlined. Key Points Different crowdsourcing‐based methods for acquiring geophysical data are reviewed and categorized across seven domains of geophysics Project management, data quality, data processing, and privacy issues have hampered wider uptake of crowdsourcing methods for practical applications Future applications of crowdsourcing methods require public education, engagement strategies and incentives, technology developments, and government support
doi_str_mv	10.1029/2018RG000616
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They are used to better understand and manage systems, either directly or via models. Given the complexity and spatiotemporal variability of geophysical systems (e.g., precipitation), a lack of sufficient data is a perennial problem, which is exacerbated by various drivers, such as climate change and urbanization. In recent years, crowdsourcing has become increasingly prominent as a means of supplementing data obtained from more traditional sources, particularly due to its relatively low implementation cost and ability to increase the spatial and/or temporal resolution of data significantly. Given the proliferation of different crowdsourcing methods in geophysics and the promise they have shown, it is timely to assess the state of the art in this field, to identify potential issues and map out a way forward. In this paper, crowdsourcing‐based data acquisition methods that have been used in seven domains of geophysics, including weather, precipitation, air pollution, geography, ecology, surface water, and natural hazard management, are discussed based on a review of 162 papers. In addition, a novel framework for categorizing these methods is introduced and applied to the methods used in the seven domains of geophysics considered in this review. This paper also features a review of 93 papers dealing with issues that are common to data acquisition methods in different domains of geophysics, including the management of crowdsourcing projects, data quality, data processing, and data privacy. In each of these areas, the current status is discussed and challenges and future directions are outlined. Key Points Different crowdsourcing‐based methods for acquiring geophysical data are reviewed and categorized across seven domains of geophysics Project management, data quality, data processing, and privacy issues have hampered wider uptake of crowdsourcing methods for practical applications Future applications of crowdsourcing methods require public education, engagement strategies and incentives, technology developments, and government support</description><identifier>ISSN: 8755-1209</identifier><identifier>EISSN: 1944-9208</identifier><identifier>DOI: 10.1029/2018RG000616</identifier><language>eng</language><publisher>Washington: Blackwell Publishing Ltd</publisher><subject>Air pollution ; big data ; categorization ; Climate change ; Crowdsourcing ; Data ; Data acquisition ; Data analysis ; Data collection ; Data processing ; Domains ; Ecology ; Frameworks ; Geography ; Geophysical methods ; Geophysics ; Precipitation ; Project management ; Proliferation ; Reviews ; Surface water ; Temporal resolution ; Urbanization ; Water pollution</subject><ispartof>Reviews of geophysics (1985), 2018-12, Vol.56 (4), p.698-740</ispartof><rights>2018. 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They are used to better understand and manage systems, either directly or via models. Given the complexity and spatiotemporal variability of geophysical systems (e.g., precipitation), a lack of sufficient data is a perennial problem, which is exacerbated by various drivers, such as climate change and urbanization. In recent years, crowdsourcing has become increasingly prominent as a means of supplementing data obtained from more traditional sources, particularly due to its relatively low implementation cost and ability to increase the spatial and/or temporal resolution of data significantly. Given the proliferation of different crowdsourcing methods in geophysics and the promise they have shown, it is timely to assess the state of the art in this field, to identify potential issues and map out a way forward. 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subjects	Air pollution big data categorization Climate change Crowdsourcing Data Data acquisition Data analysis Data collection Data processing Domains Ecology Frameworks Geography Geophysical methods Geophysics Precipitation Project management Proliferation Reviews Surface water Temporal resolution Urbanization Water pollution
title	Crowdsourcing Methods for Data Collection in Geophysics: State of the Art, Issues, and Future Directions
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