Citizen science frontiers: Efficiency, engagement, and serendipitous discovery with human–machine systems

Citizen science has proved to be a unique and effective tool in helping science and society cope with the ever-growing data rates and volumes that characterize the modern research landscape. It also serves a critical role in engaging the public with research in a direct, authentic fashion and by doi...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2019-02, Vol.116 (6), p.1902-1909
Hauptverfasser:	Trouille, Laura, Lintott, Chris J., Fortson, Lucy F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Biological Science Disciplines - education Biological Sciences COLLOQUIUM PAPERS Community Participation - methods Comprehension Computing Methodologies Efficiency Humans Internet Machine Learning Natural Science Disciplines - education On-line systems Physical Sciences Research Design Sackler on Creativity and Collaboration: Revisiting Cybernetic Serendipity Science Serendipity Surveys and Questionnaires System effectiveness Systems design
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creator	Trouille, Laura Lintott, Chris J. Fortson, Lucy F.
description	Citizen science has proved to be a unique and effective tool in helping science and society cope with the ever-growing data rates and volumes that characterize the modern research landscape. It also serves a critical role in engaging the public with research in a direct, authentic fashion and by doing so promotes a better understanding of the processes of science. To take full advantage of the onslaught of data being experienced across the disciplines, it is essential that citizen science platforms leverage the complementary strengths of humans and machines. This Perspectives piece explores the issues encountered in designing human–machine systems optimized for both efficiency and volunteer engagement, while striving to safeguard and encourage opportunities for serendipitous discovery. We discuss case studies from Zooniverse, a large online citizen science platform, and show that combining human and machine classifications can efficiently produce results superior to those of either one alone and how smart task allocation can lead to further efficiencies in the system. While these examples make clear the promise of human–machine integration within an online citizen science system, we then explore in detail how system design choices can inadvertently lower volunteer engagement, create exclusionary practices, and reduce opportunity for serendipitous discovery. Throughout we investigate the tensions that arise when designing a human–machine system serving the dual goals of carrying out research in the most efficient manner possible while empowering a broad community to authentically engage in this research.
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While these examples make clear the promise of human–machine integration within an online citizen science system, we then explore in detail how system design choices can inadvertently lower volunteer engagement, create exclusionary practices, and reduce opportunity for serendipitous discovery. 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subjects	Biological Science Disciplines - education Biological Sciences COLLOQUIUM PAPERS Community Participation - methods Comprehension Computing Methodologies Efficiency Humans Internet Machine Learning Natural Science Disciplines - education On-line systems Physical Sciences Research Design Sackler on Creativity and Collaboration: Revisiting Cybernetic Serendipity Science Serendipity Surveys and Questionnaires System effectiveness Systems design
title	Citizen science frontiers: Efficiency, engagement, and serendipitous discovery with human–machine systems
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