Difference between revisions of "Laboratory informatics"

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'''Laboratory informatics''' is the specialized application of information through a platform of instruments, software, and data management tools that allow scientific data to be captured, migrated, processed, and interpreted for immediate use, as well as stored and managed to support future product development while maximizing [[laboratory]] operations.  
'''Laboratory informatics''' is the specialized application of information through a platform of instruments, software, and data management tools that allow scientific data to be captured, migrated, processed, and interpreted for immediate use, as well as stored and managed to support future product development while maximizing [[laboratory]] operations.  


The field of laboratory informatics is a relatively new, rapidly developing field that has seen significant growth as demand for fast and efficient electronic data exchange has boomed. A rapid series of technological developments have made laboratory equipment less static and more interactive, allowing large networks of integrated lab devices, computers, and telecommunications equipment to log, analyze, and distribute data. This has progressively enabled scientific research projects to move from a localized model to a more global model, one that allows "involved researchers to spend less time collecting data or waiting for information to arrive from another location, which in turn allows them to focus more on the work at hand and makes their research both faster and more efficient.".<ref>{{cite web|url=http://www.virtualinformatics.com/content/Laboratory_informatics.htm |title=Laboratory Informatincs |publisher=virtualinformatics.com |date=2011-04-09 |accessdate=2011-04-22}}</ref>  This has led to laboratories requiring more robust and scalable data management systems to stay competitive.  
The field of laboratory informatics is a relatively new, rapidly developing field that has seen significant growth as demand for fast and efficient electronic data exchange has boomed. A rapid series of technological developments have made laboratory equipment less static and more interactive, allowing large networks of integrated lab devices, computers, and telecommunications equipment to log, analyze, and distribute data. This has progressively enabled scientific research projects to move from a localized model to a more global model, one that allows "involved researchers to spend less time collecting data or waiting for information to arrive from another location, which in turn allows them to focus more on the work at hand and makes their research both faster and more efficient."<ref>{{cite web|url=http://www.virtualinformatics.com/content/Laboratory_informatics.htm |title=Laboratory Informatincs |publisher=virtualinformatics.com |date=2011-04-09 |accessdate=2011-04-22}}</ref>  This has led to laboratories requiring more robust and scalable data management systems to stay competitive.  


== Sub-topics in Laboratory Informatics ==
== Sub-topics in Laboratory Informatics ==

Revision as of 18:28, 22 April 2011

Laboratory informatics is the specialized application of information through a platform of instruments, software, and data management tools that allow scientific data to be captured, migrated, processed, and interpreted for immediate use, as well as stored and managed to support future product development while maximizing laboratory operations.

The field of laboratory informatics is a relatively new, rapidly developing field that has seen significant growth as demand for fast and efficient electronic data exchange has boomed. A rapid series of technological developments have made laboratory equipment less static and more interactive, allowing large networks of integrated lab devices, computers, and telecommunications equipment to log, analyze, and distribute data. This has progressively enabled scientific research projects to move from a localized model to a more global model, one that allows "involved researchers to spend less time collecting data or waiting for information to arrive from another location, which in turn allows them to focus more on the work at hand and makes their research both faster and more efficient."[1] This has led to laboratories requiring more robust and scalable data management systems to stay competitive.

Sub-topics in Laboratory Informatics

Laboratory informatics is often modeled as a central component or hub for other branching elements of the field. However, looking at the architecture in this fashion oversimplifies the field of laboratory informatics and risks giving the false appearance that branched elements of the field have greater importance than others. Instead, a multi-layered, non-hierarchical model of these elements that places an emphasis on an individual laboratory's identified business needs may be more appropriate.[2] Important elements of laboratory informatics include but are not limited to:

References