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[[File:NIST Testing standard interfaces.jpg|right|thumb|NIST tests standard interfaces for its lab equipment. SDMSs allow labs to integrate equipment data with other types of data.]]A '''scientific data management system''' (SDMS) is software that acts similarly to a document management system (DMS), capturing, cataloging, and archiving data generated by [[laboratory]] instruments (e.g., [[high-performance liquid chromatography]] and [[mass spectrometry]] instruments) and applications (e.g., [[laboratory information management system]]s, [[electronic laboratory notebook]]s, and other analytical applications) in a compliant, often pre-defined manner best suitable for its intended use, whether it be structured, unstructured, or semi-structured data.<ref name="HaywardExperts17">{{cite web |url=https://www.laboratoryequipment.com/article/2017/05/experts-explain-rise-laboratory-data-lakes |archiveurl=https://web.archive.org/web/20170516235859/http://www.laboratoryequipment.com/article/2017/05/experts-explain-rise-laboratory-data-lakes |title=Experts Explain: The Rise of Laboratory Data Lakes |author=Hayward, S. |work=Laboratory Equipment |publisher=Advantage Business Media |date=15 May 2017 |archivedate=16 May 2017 |accessdate=22 March 2024}}</ref> The SDMS can also act as a gatekeeper, serving platform-independent data to informatics applications and other stakeholders. | |||
==Purpose and technology== | |||
An SDMS is used to improve data handling and management issues in a number of scientific disciplines. As the four Vs of modern big data—volume, variety, veracity, and velocity—increase time spent on data acquisition and management, taking time away from other aspects of scientific research and complicating aspects of experimental reproducibility, solutions like an SDMS can help better manage the total lifecycle of data.<ref>{{Cite journal |last=Stansberry |first=Dale |last2=Somnath |first2=Suhas |last3=Breet |first3=Jessica |last4=Shutt |first4=Gregory |last5=Shankar |first5=Mallikarjun |date=2019-12 |title=DataFed: Towards Reproducible Research via Federated Data Management |url=https://ieeexplore.ieee.org/document/9071425/ |journal=2019 International Conference on Computational Science and Computational Intelligence (CSCI) |publisher=IEEE |place=Las Vegas, NV, USA |pages=1312–1317 |doi=10.1109/CSCI49370.2019.00245 |isbn=978-1-7281-5584-5}}</ref> | |||
As with many other [[laboratory informatics]] tools, the lines between a LIMS, ELN, and an SDMS are at times blurred. However, there are some essential qualities that an SDMS owns that distinguishes it from other informatics systems: | |||
1. While a LIMS has traditionally been built to handle structured, mostly homogeneous data, a SDMS (and systems like it) is built to handle unstructured, mostly heterogeneous data.<ref name="ElliottConsider03">{{cite web |url=https://www.scientificcomputing.com/article/2003/10/considerations-management-laboratory-data |archiveurl=https://web.archive.org/web/20170426150419/http://www.scientificcomputing.com/article/2003/10/considerations-management-laboratory-data |title=Considerations for Management of Laboratory Data |author=Elliott, M.H. |work=Scientific Computing |publisher=Advantage Business Media |date=31 October 2003 |archivedate=26 April 2017 |accessdate=21 March 2020}}</ref> | |||
2. A SDMS typically acts as a seamless "wrapper" for other data systems like LIMS and ELN in the laboratory, though sometimes the SDMS software is readily apparent. | |||
3. A SDMS is designed primarily for data consolidation, knowledge management, and knowledge asset realization.<ref name="WoodComp07">{{cite web |url=https://www.it.uu.se/edu/course/homepage/lims/vt12/ComprehensiveLaboratoryInformatics.pdf |archiveurl=https://web.archive.org/web/20170825181932/https://www.it.uu.se/edu/course/homepage/lims/vt12/ComprehensiveLaboratoryInformatics.pdf |format=PDF |title=Comprehensive Laboratory Informatics: A Multilayer Approach |author=Wood, S. |work=American Laboratory |page=1 |date=September 2007 |archivedate=25 August 2017}}</ref> | |||
An SDMS can be seen as one potential solution for handling unstructured data, which can make up nearly 75 percent of a research and development unit's data.<ref name="SciComp1">{{cite web |url=http://www.rdworldonline.com/tomorrows-successful-research-organizations-face-a-critical-challenge/ |author=Deutsch, S. |title=Tomorrow’s Successful Research Organizations Face a Critical Challenge |work=R&D World |publisher=WTWH Media LLC |date=31 December 2006 |accessdate=21 March 2020}}</ref> This includes PDF files, images, instrument data, spreadsheets, and other forms of data rendered in many environments in the laboratory. Traditional SDMSs have focused on acting as a nearly invisible blanket or wrapper that integrate [[information]] from corporate offices (standard operating procedures, safety documents, etc.) with data from lab devices and other data management tools, all to be indexed and searchable from a central database. An SDMS also must be focused on increasing research productivity without sacrificing data sharing and collaboration efforts.<ref name="SciComp1" /> | |||
Some of the things a standard SDMS may be asked to do include, but are not limited to<ref name="SDMArch">{{cite web |url=http://personal.cscs.ch/~mvalle/sdm/scientific-data-management.html |archiveurl=http://web.archive.org/web/20120306015034/http://personal.cscs.ch/~mvalle/sdm/scientific-data-management.html |author=Valle, Mario |title=Scientific Data Management |publisher=Swiss National Supercomputing Center |archivedate=06 March 2012 |accessdate=05 March 2013}}</ref><ref name="HetwardSelect09">{{cite web |url=https://scholarworks.iupui.edu/handle/1805/2000 |title=Selection of a Scientific Data Management System (SDMS) Based on User Requirements |author=Heyward, J.E. II |publisher=Indiana University-Purdue University Indianapolis |date=05 November 2009 |pages=5 |accessdate=29 September 2017}}</ref>: | |||
*retrieve worklists from LIMS and convert them to sequence files | |||
*interact real-time with simple and complex laboratory instruments | |||
*analyze and create reports on laboratory instrument functions | |||
*perform complex calculations and comparisons of two different sample groups | |||
*monitor environmental conditions and react when base operating parameters are out of range | |||
*act as an operational database that allows selective importation/exportation of ELN data | |||
*manage workflows based on data imported into the SDMS | |||
*validate other computer systems and software in the laboratory | |||
==References== | |||
{{Reflist|colwidth=30em}} | |||
<!---Place all category tags here--> | |||
[[Category:Laboratory informatics]] | |||
[[Category:Software systems]] |
Revision as of 15:25, 22 March 2024
This is sublevel12 of my sandbox, where I play with features and test MediaWiki code. If you wish to leave a comment for me, please see my discussion page instead. |
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A scientific data management system (SDMS) is software that acts similarly to a document management system (DMS), capturing, cataloging, and archiving data generated by laboratory instruments (e.g., high-performance liquid chromatography and mass spectrometry instruments) and applications (e.g., laboratory information management systems, electronic laboratory notebooks, and other analytical applications) in a compliant, often pre-defined manner best suitable for its intended use, whether it be structured, unstructured, or semi-structured data.[1] The SDMS can also act as a gatekeeper, serving platform-independent data to informatics applications and other stakeholders.
Purpose and technology
An SDMS is used to improve data handling and management issues in a number of scientific disciplines. As the four Vs of modern big data—volume, variety, veracity, and velocity—increase time spent on data acquisition and management, taking time away from other aspects of scientific research and complicating aspects of experimental reproducibility, solutions like an SDMS can help better manage the total lifecycle of data.[2]
As with many other laboratory informatics tools, the lines between a LIMS, ELN, and an SDMS are at times blurred. However, there are some essential qualities that an SDMS owns that distinguishes it from other informatics systems:
1. While a LIMS has traditionally been built to handle structured, mostly homogeneous data, a SDMS (and systems like it) is built to handle unstructured, mostly heterogeneous data.[3]
2. A SDMS typically acts as a seamless "wrapper" for other data systems like LIMS and ELN in the laboratory, though sometimes the SDMS software is readily apparent.
3. A SDMS is designed primarily for data consolidation, knowledge management, and knowledge asset realization.[4]
An SDMS can be seen as one potential solution for handling unstructured data, which can make up nearly 75 percent of a research and development unit's data.[5] This includes PDF files, images, instrument data, spreadsheets, and other forms of data rendered in many environments in the laboratory. Traditional SDMSs have focused on acting as a nearly invisible blanket or wrapper that integrate information from corporate offices (standard operating procedures, safety documents, etc.) with data from lab devices and other data management tools, all to be indexed and searchable from a central database. An SDMS also must be focused on increasing research productivity without sacrificing data sharing and collaboration efforts.[5]
Some of the things a standard SDMS may be asked to do include, but are not limited to[6][7]:
- retrieve worklists from LIMS and convert them to sequence files
- interact real-time with simple and complex laboratory instruments
- analyze and create reports on laboratory instrument functions
- perform complex calculations and comparisons of two different sample groups
- monitor environmental conditions and react when base operating parameters are out of range
- act as an operational database that allows selective importation/exportation of ELN data
- manage workflows based on data imported into the SDMS
- validate other computer systems and software in the laboratory
References
- ↑ Hayward, S. (15 May 2017). "Experts Explain: The Rise of Laboratory Data Lakes". Laboratory Equipment. Advantage Business Media. Archived from the original on 16 May 2017. https://web.archive.org/web/20170516235859/http://www.laboratoryequipment.com/article/2017/05/experts-explain-rise-laboratory-data-lakes. Retrieved 22 March 2024.
- ↑ Stansberry, Dale; Somnath, Suhas; Breet, Jessica; Shutt, Gregory; Shankar, Mallikarjun (1 December 2019). "DataFed: Towards Reproducible Research via Federated Data Management". 2019 International Conference on Computational Science and Computational Intelligence (CSCI) (Las Vegas, NV, USA: IEEE): 1312–1317. doi:10.1109/CSCI49370.2019.00245. ISBN 978-1-7281-5584-5. https://ieeexplore.ieee.org/document/9071425/.
- ↑ Elliott, M.H. (31 October 2003). "Considerations for Management of Laboratory Data". Scientific Computing. Advantage Business Media. Archived from the original on 26 April 2017. https://web.archive.org/web/20170426150419/http://www.scientificcomputing.com/article/2003/10/considerations-management-laboratory-data. Retrieved 21 March 2020.
- ↑ Wood, S. (September 2007). "Comprehensive Laboratory Informatics: A Multilayer Approach" (PDF). American Laboratory. p. 1. Archived from the original on 25 August 2017. https://web.archive.org/web/20170825181932/https://www.it.uu.se/edu/course/homepage/lims/vt12/ComprehensiveLaboratoryInformatics.pdf.
- ↑ 5.0 5.1 Deutsch, S. (31 December 2006). "Tomorrow’s Successful Research Organizations Face a Critical Challenge". R&D World. WTWH Media LLC. http://www.rdworldonline.com/tomorrows-successful-research-organizations-face-a-critical-challenge/. Retrieved 21 March 2020.
- ↑ Valle, Mario. "Scientific Data Management". Swiss National Supercomputing Center. Archived from the original on 06 March 2012. http://web.archive.org/web/20120306015034/http://personal.cscs.ch/~mvalle/sdm/scientific-data-management.html. Retrieved 05 March 2013.
- ↑ Heyward, J.E. II (5 November 2009). "Selection of a Scientific Data Management System (SDMS) Based on User Requirements". Indiana University-Purdue University Indianapolis. pp. 5. https://scholarworks.iupui.edu/handle/1805/2000. Retrieved 29 September 2017.