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Hybrid Production-System Control-Architecture for Smart Manufacturing Read chapter Read first chapter

2018 | OriginalPaper | Chapter

Medical Monkeys: A Crowdsourcing Approach to Medical Big Data

Authors : Lorenzo Servadei, Rainer Schmidt, Christina Eidelloth, Andreas Maier

Published in: On the Move to Meaningful Internet Systems. OTM 2017 Workshops

Publisher: Springer International Publishing

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Abstract

Big data play a central role in eHealth and have been crucial for designing and implementing clinical decisions support systems. Those applications can avail on data analysis and response capabilities, often empowered by Machine Learning algorithms, which can help clinician in diagnostic as well as therapeutic decisions. On the other hand, in the context of eSociety, eCommunities can be essential actors for managing and structuring medical data. In fact, they can support in gathering, providing and labeling data. This last task is highly relevant for medical Big Data, as it is a key point for supervised Machine Learning algorithms, which need an extensive data annotation process. This improves prediction and analysis capabilities of the algorithms on large datasets. Our approach on the medical Big Data labeling problem is the design and prototyping of a crowdsourcing collaborative Web Application, used for the annotation of medical images, that we named Medical Monkeys. Under the principles of mutual advantage and collaboration researchers, online gamers, medical students and patients will be involved, within this platform, in a virtual and mutually beneficial cooperation for improving Machine Learning algorithms. Using our application on large scale data analysis, algorithms for image segmentation will become useful for clinical decisions support systems. Our application is the result of a collaboration of several universities and research institutes and has, as principal aim, the integration, in form of gaming tasks, of eCommunities for the implementation of a more accurate analysis and diagnostic on MRI or CT images.

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Footnotes
Literature
1.
Cai, L., Zhu, Y.: The challenges of data quality and data quality assessment in the big data era. Data Sci. J. 14, 2 (2015)CrossRef
2.
3.
De Mauro, A., Greco, M., Grimaldi, M.: A formal definition of big data based on its essential features. Libr. Rev. 65, 122–135 (2016)CrossRef
4.
LaValle, S., Lesser, E., Shockley, R., Hopkins, M.S., Kruschwitz, N.: Big data, analytics and the path from insights to value. MIT Sloan Manag. Rev. 52, 21–32 (2011)
5.
Qiu, J., Wu, Q., Ding, G., Xu, Y., Feng, S.: A survey of machine learning for big data processing. EURASIP J. Adv. Signal Process. 2016 (2016)
6.
Einav, L., Levin, J.: The data revolution and economic analysis. Innov. Policy Econ. 14, 1–24 (2014)CrossRef
7.
O’Neil, C., Schutt, R.: Doing Data Science (2013)
8.
Cios, K.J., William Moore, G.: Uniqueness of medical data mining. Artif. Intell. Med. 26, 1–24 (2002)CrossRef
9.
Aicardi, C., Del Savio, L., Dove, E.S., Lucivero, F., Tempini, N., Prainsack, B.: Emerging ethical issues regarding digital health data. On the World Medical Association Draft Declaration on Ethical Considerations Regarding Health Databases and Biobanks. Croat. Med. J. 57, 207–213 (2016)CrossRef
10.
Johnson-Lenz, P., Johnson-Lenz, T.: Post-mechanistic groupware primitives: rhythms, boundaries and containers. Int. J. Man Mach. Stud. 34, 395–417 (1991)CrossRef
11.
West, J., Gallagher, S.: Challenges of open innovation: the paradox of firm investment in open-source software. R Manag. 36, 319–331 (2006)
12.
13.
Zhou, S.K., Greenspan, H., Shen, D.: Deep Learning for Medical Image Analysis. Academic Press, Cambridge (2017)
14.
Raghupathi, W., Raghupathi, V.: Big data analytics in healthcare: promise and potential. Health Inf. Sci. Syst. 2, 1–10 (2014)CrossRef
15.
Steinbrook, R.: Personally controlled online health data–the next big thing in medical care? N. Engl. J. Med. 358, 1653–1656 (2008)CrossRef
16.
Dimitrov, D.V.: Medical Internet of Things and big data in healthcare. Healthc. Inform. Res. 22, 156 (2016)CrossRef
17.
Aji, A., Wang, F., Saltz, J.H.: Towards building a high performance spatial query system for large scale medical imaging data. In: Proceedings of the 20th International Conference on Advances in Geographic Information Systems (2012)
18.
Van Horn, J.D., Toga, A.W.: Human neuroimaging as a “Big Data” science. Brain Imaging Behav. 8, 323–331 (2014)CrossRef
19.
de Jong, J.P.J., von Hippel, E., Gault, F., Kuusisto, J., Raasch, C.: Market failure in the diffusion of consumer-developed innovations: patterns in Finland. Res. Policy 44, 1856–1865 (2015)CrossRef
20.
Ogawa, S., Pongtanalert, K.: Exploring characteristics and motives of consumer innovators: community innovators vs. independent innovators. Res. Technol. Manag. 56, 41–48 (2013)CrossRef
21.
Akgün, A.E., Keskin, H., Byrne, J.C.: Procedural justice climate in new product development teams: antecedents and consequences. J. Prod. Innov. Manag. 27, 1096–1111 (2010)CrossRef
22.
Jeppesen, L.B., Lakhani, K.R.: Marginality and problem-solving effectiveness in broadcast search. Organ. Sci. 21, 1016–1033 (2010)CrossRef
23.
Afuah, A., Tucci, C.L.: Crowdsourcing as a solution to distant search. Acad. Manage. Rev. 37, 355–375 (2012)CrossRef
24.
25.
Albarqouni, S., Baur, C., Achilles, F., Belagiannis, V., Demirci, S., Navab, N.: AggNet: deep learning from crowds for mitosis detection in breast cancer histology images. IEEE Trans. Med. Imaging 35, 1313–1321 (2016)CrossRef
26.
Ranard, B.L., Ha, Y.P., Meisel, Z.F., Asch, D.A., Hill, S.S., Becker, L.B., Seymour, A.K., Merchant, R.M.: Crowdsourcing—harnessing the masses to advance health and medicine, a systematic review. J. Gen. Intern. Med. 29, 187–203 (2014)CrossRef
27.
Maier-Hein, L., et al.: Can masses of non-experts train highly accurate image classifiers? In: Golland, P., Hata, N., Barillot, C., Hornegger, J., Howe, R. (eds.) Medical Image Computing and Computer-Assisted Intervention – MICCAI 2014, MICCAI 2014, Lecture Notes in Computer Science, vol. 8674, pp. 438–445. Springer, Cham (2014). https://​doi.​org/​10.​1007/​978-3-319-10470-6_​55
28.
Chávez-Aragón, A., Lee, W.-S., Vyas, A.: A crowdsourcing web platform-hip joint segmentation by non-expert contributors. In: IEEE International Symposium on Medical Measurements and Applications Proceedings (MeMeA), 2013, pp. 350–354. IEEE (2013)
29.
Leba, M., Ionică, A., Apostu, D.: Educational software based on gamification techniques for medical students. Wseas Us., pp. 225–230 (2013)
30.
Spampinato, C., Palazzo, S., Giordano, D.: Gamifying video object segmentation. IEEE Trans. Pattern Anal. Mach. Intell. 1 (2016)
31.
Carlier, A., Salvador, A., Cabezas, F., Giro-i-Nieto, X., Charvillat, V., Marques, O.: Assessment of crowdsourcing and gamification loss in user-assisted object segmentation. Multimed. Tools Appl. 75, 15901–15928 (2016)CrossRef
32.
Salvador, A., Carlier, A., Giro-i-Nieto, X., Marques, O., Charvillat, V.: Crowdsourced object segmentation with a game. In: Proceedings of the 2nd ACM international workshop on Crowdsourcing for multimedia, pp. 15–20. ACM (2013)
33.
Hevner, A.R., March, S.T., Park, J., Ram, S.: Design science in information systems research. MIS Q. 28, 75–105 (2004)CrossRef
34.
Overmyer, S.: Revolutionary vs. evolutionary rapid prototyping: balancing software productivity and HCI design concerns. In: Proceedings of the 4th International Conference on Human-Computer Interaction (1991)
35.
36.
Seybold, C., Meier, S., Glinz, M.: Scenario-driven modeling and validation of requirements models (2006)
37.
38.
Ishwarappa, K., Anuradha, J.: A brief introduction on big data 5Vs characteristics and hadoop technology. Procedia Comput. Sci. 48, 319–324 (2015)
39.
Cho, J., Lee, K., Shin, E., Choy, G., Do, S.: How much data is needed to train a medical image deep learning system to achieve necessary high accuracy? arXiv:​1511.​06348 Cs. (2015)
40.
Metadata
Title
Medical Monkeys: A Crowdsourcing Approach to Medical Big Data
Authors
Lorenzo Servadei
Rainer Schmidt
Christina Eidelloth
Andreas Maier
Copyright Year
2018
Publisher
Springer International Publishing
Book
On the Move to Meaningful Internet Systems. OTM 2017 Workshops

Print ISBN: 978-3-319-73804-8

Electronic ISBN: 978-3-319-73805-5

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-319-73805-5_9

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