Difference between revisions of "Scientific data management system"

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(Corrected text of third point.)
(Added more to the initial SDMS entry.)
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3. A SDMS is designed primarily for data consolidation, knowledge management, and knowledge asset realization. <ref>Wood, Simon (2007). [http://www.starlims.com/AL-Wood-Reprint-9-07.pdf "Comprehensive Laboratory Informatics: A Multilayer Approach"], pp. 3.</ref>
3. A SDMS is designed primarily for data consolidation, knowledge management, and knowledge asset realization. <ref>Wood, Simon (2007). [http://www.starlims.com/AL-Wood-Reprint-9-07.pdf "Comprehensive Laboratory Informatics: A Multilayer Approach"], pp. 3.</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.scientificcomputing.com/tomorrows-successful-research.aspx |title=Tomorrow’s Successful Research Organizations Face a Critical Challenge |publisher=Scientific Computing |date=2008-07-30 |accessdate=2011-05-04}}</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 (P&P, for example) 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" />


== Modern features of a SDMS ==
== Modern features of a SDMS ==

Revision as of 21:22, 5 May 2011

A scientific data management system (SDMS) is a piece or package of software that captures, catalogs, and archives data generated by laboratory instruments (HPLC, mass spectrometry) and applications (LIMS, analytical applications, electronic laboratory notebooks) in a compliant manner, serving platform-independent data to informatics applications and/or other consumers.

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.[1]

2. A SDMS typically acts as a seamless "wrapper" for other data systems like LIMS and ELN in the laboratory.

3. A SDMS is designed primarily for data consolidation, knowledge management, and knowledge asset realization. [2]

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.[3] 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 (P&P, for example) 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.[3]


Modern features of a SDMS

References