Informatics

Not to be confused with Information technology.
For other uses, see Informatics (disambiguation).

Informatics is the science of information and computer information systems. As an academic field it involves the practice of information processing, and the engineering of information systems. The field considers the interaction between humans and information alongside the construction of interfaces, organisations, technologies and systems. It also develops its own conceptual and theoretical foundations and utilizes foundations developed in other fields. As such, the field of informatics has great breadth and encompasses many individual specializations, including disciplines of computer science, information systems, information technology and statistics. Since the advent of computers, individuals and organizations increasingly process information digitally. This has led to the study of informatics with computational, mathematical, biological, cognitive and social aspects, including study of the social impact of information technologies.

Etymology

In 1956 the German computer scientist Karl Steinbuch coined the word Informatik by publishing a paper called Informatik: Automatische Informationsverarbeitung ("Informatics: Automatic Information Processing").[1] The English term Informatics is sometimes understood as meaning the same as computer science. The German word Informatik is usually translated to English as computer science.

The French term informatique was coined in 1962 by Philippe Dreyfus[2] together with various translations—informatics (English), also proposed independently and simultaneously by Walter F. Bauer and associates who co-founded Informatics Inc., and informatica (Italian, Spanish, Romanian, Portuguese, Dutch), referring to the application of computers to store and process information.

The term was coined as a combination of "information" and "automatic" to describe the science of automating information interactions. The morphology—informat-ion + -ics—uses "the accepted form for names of sciences, as conics, linguistics, optics, or matters of practice, as economics, politics, tactics",[3] and so, linguistically, the meaning extends easily to encompass both the science of information and the practice of information processing.

History

The culture of library science promotes policies and procedure for managing information that fosters the relationship between library science and the development of information science to provides benefits for health informatics development; which is traced to the 1950s with the beginning of computer uses in healthcare (Nelson & Staggers p.4). Early practitioners interested in the field soon learned that; there was no formal education programs set up to educate them on the informatics science until during the late 1960s and early 1970s. Professional development begins to emerge, playing a significant role in the development of health informatics (Nelson &Staggers p.7) According to Imhoff et al., 2001. Healthcare informatics is not only the application of computer technology to problems in healthcare but covers all aspects of generation, handling, communication, storage, retrieval, management, analysis, discovery, and synthesis of data information and knowledge in the entire scope of healthcare. Furthermore, they stated that the primary goal of health informatics can be distinguished as follows: To provide solution for problems related to data, information, and knowledge processing. To study general principles of processing data information and knowledge in medicine and healthcare.

Reference Imhoff, M., Webb. A,.&Goldschmidt, A., (2001). Health Informatics. Intensive Care Med, 27: 179-186. doi:10.1007//s001340000747.

Nelson, R. & Staggers, N. Health Informatics: An Interprofessional Approach. St. Louis: Mosby, 2013. Print. (p.4,7)


This new term was adopted across Western Europe, and, except in English, developed a meaning roughly translated by the English ‘computer science’, or ‘computing science’. Mikhailov advocated the Russian term informatika (1966), and the English informatics (1967), as names for the theory of scientific information, and argued for a broader meaning, including study of the use of information technology in various communities (for example, scientific) and of the interaction of technology and human organizational structures.

Informatics is the discipline of science which investigates the structure and properties (not specific content) of scientific information, as well as the regularities of scientific information activity, its theory, history, methodology and organization.[4]

Usage has since modified this definition in three ways. First, the restriction to scientific information is removed, as in business informatics or legal informatics. Second, since most information is now digitally stored, computation is now central to informatics. Third, the representation, processing and communication of information are added as objects of investigation, since they have been recognized as fundamental to any scientific account of information. Taking information as the central focus of study distinguishes informatics from computer science. Informatics includes the study of biological and social mechanisms of information processing whereas computer science focuses on the digital computation. Similarly, in the study of representation and communication, informatics is indifferent to the substrate that carries information. For example, it encompasses the study of communication using gesture, speech and language, as well as digital communications and networking.

In the English-speaking world the term informatics was first widely used in the compound medical informatics, taken to include "the cognitive, information processing, and communication tasks of medical practice, education, and research, including information science and the technology to support these tasks".[5] Many such compounds are now in use; they can be viewed as different areas of "applied informatics". Indeed, "In the U.S., however, informatics is linked with applied computing, or computing in the context of another domain."[6]

Informatics encompasses the study of systems that represent, process, and communicate information. However, the theory of computation in the specific discipline of theoretical computer science, which evolved from Alan Turing, studies the notion of a complex system regardless of whether or not information actually exists. Since both fields process information, there is some disagreement among scientists as to field hierarchy; for example Arizona State University attempted to adopt a broader definition of informatics to even encompass cognitive science at the launch of its School of Computing and Informatics in September 2006.

A broad interpretation of informatics, as "the study of the structure, algorithms, behaviour, and interactions of natural and artificial computational systems," was introduced by the University of Edinburgh in 1994 when it formed the grouping that is now its School of Informatics. This meaning is now (2006) increasingly used in the United Kingdom.[7]

The 2008 Research Assessment Exercise, of the UK Funding Councils, includes a new, Computer Science and Informatics, unit of assessment (UoA),[8] whose scope is described as follows:

The UoA includes the study of methods for acquiring, storing, processing, communicating and reasoning about information, and the role of interactivity in natural and artificial systems, through the implementation, organisation and use of computer hardware, software and other resources. The subjects are characterised by the rigorous application of analysis, experimentation and design.

Academic schools and departments

Academic research in the informatics area can be found in a number of disciplines such as computer science, information technology, Information and Computer Science, information system, business information management and health informatics.

In France, the first degree level qualifications in Informatics (computer science) appeared in the mid-1960s.

In English-speaking countries, the first example of a degree level qualification in Informatics occurred in 1982 when Plymouth Polytechnic (now the University of Plymouth) offered a four-year BSc(Honours) degree in Computing and Informatics – with an initial intake of only 35 students. The course still runs today [9] making it the longest available qualification in the subject.

At the Indiana University School of Informatics (Bloomington, Indianapolis and Southeast), informatics is defined as "the art, science and human dimensions of information technology" and "the study, application, and social consequences of technology." It is also defined in Informatics 101, Introduction to Informatics as "the application of information technology to the arts, sciences, and professions." These definitions are widely accepted in the United States, and differ from British usage in omitting the study of natural computation.

Texas Woman's University places its informatics degrees in its department of Mathematics and Computer Science within the College of Arts & Sciences, though it offers interdisciplinary Health Informatics degrees.[10] Informatics is presented in a generalist framework, as evidenced by their definition of informatics ("Using technology and data analytics to derive meaningful information from data for data and decision driven practice in user centered systems"), though TWU is also known for its nursing and health informatics programs.

At the University of California, Irvine Department of Informatics, informatics is defined as "the interdisciplinary study of the design, application, use and impact of information technology. The discipline of informatics is based on the recognition that the design of this technology is not solely a technical matter, but must focus on the relationship between the technology and its use in real-world settings. That is, informatics designs solutions in context, and takes into account the social, cultural and organizational settings in which computing and information technology will be used."

At the University of Michigan, Ann Arbor Informatics interdisciplinary major, informatics is defined as "the study of information and the ways information is used by and affects human beings and social systems. The major involves coursework from the College of Literature, Science and the Arts, where the Informatics major is housed, as well as the School of Information and the College of Engineering. Key to this growing field is that it applies both technological and social perspectives to the study of information. Michigan's interdisciplinary approach to teaching Informatics gives a solid grounding in contemporary computer programming, mathematics, and statistics, combined with study of the ethical and social science aspects of complex information systems. Experts in the field help design new information technology tools for specific scientific, business, and cultural needs." Michigan offers four curricular tracks within the informatics degree to provide students with increased expertise. These four track topics include:[11]

At the University of Washington, Seattle Informatics Undergraduate Program, Informatics is an undergraduate program offered by the Information School. Bachelor of Science in Informatics is described as "[a] program that focuses on computer systems from a user-centered perspective and studies the structure, behavior and interactions of natural and artificial systems that store, process and communicate information. Includes instruction in information sciences, human computer interaction, information system analysis and design, telecommunications structure and information architecture and management." Washington offers three degree options as well as a custom track.[15]

Applied disciplines

Organizational informatics

One of the most significant areas of application of informatics is that of organizational informatics. Organizational informatics is fundamentally interested in the application of information, information systems and ICT within organisations of various forms including private sector, public sector and voluntary sector organisations.[16][17] As such, organisational informatics can be seen to be sub-category of social informatics and a super-category of business informatics.

Theories of socio-technical systems

Theories about Socio-Technical Systems include: Functionalism/ Transaction economics, Socio-Technical Interaction Networks/Infrastructure, Media, Information Societies, and Ethics/Values.

Functionalism/transaction economics

Functionalism is defined as the impact new technologies have. Technologies are able to supply new functions or even revise preexisting functions. The main impact of these technologies is seen in the change that they provide and the new things that are possible with these changes. These changes also come with a grain of salt because of the costs that come along with these changes. Looking at the costs and benefits, transaction economics, is extremely critical in the study of the impact of a technology. The difference in costs that is given is equal to the impact of using the new technology. New technologies have made a lot of the tasks done on a daily basis a lot more cost efficient.

Socio-technical networks/infrastructure

Socio-technical interaction network (STIN) is a network that includes people, equipment, data, diverse resources, documents, messages, legal arrangements, enforcement mechanisms and resource flows.[18] STINs are embedded in all of the ICT (Information Communication Technology) that are used today. The bases of these STINs are known as infrastructure. Infrastructure is known as the basic physical and organization structures that are essential to the operation of an enterprise [19] This infrastructure offers solutions that may occur in STINs. Infrastructure is also often not visible and for that reason it is taken for granted. However, infrastructure is extremely important.

See also

Notes

  1. Karl Steinbuch Eulogy – Bernard Widrow, Reiner Hartenstein, Robert Hecht-Nielsen
  2. Dreyfus, Phillipe. L’informatique. Gestion, Paris, June 1962, pp. 240–41
  3. Oxford English Dictionary 1989
  4. Mikhailov, A.I., Chernyl, A.I., and Gilyarevskii, R.S. (1966) "Informatika – novoe nazvanie teorii naučnoj informacii." Naučno tehničeskaja informacija, 12, pp. 35–39.
  5. Greenes, R.A. and Shortliffe, E.H. (1990) "Medical Informatics: An emerging discipline with academic and institutional perspectives." Journal of the American Medical Association, 263(8) pp. 1114–20.
  6. For example, at University of Reading, Sussex, City University, Ulster, Bradford, Manchester and Newcastle
  7. UoA 23 Computer Science and Informatics, Panel working methods
  8. BSc(Hons) Computing Informatics – University of Plymouth Link
  9. "Informatics - Texas Woman's University".
  10. "Curriculum - Informatics - University of Michigan". University of Michigan. Retrieved 6 February 2013.
  11. "Concentration: Informatics". University of Michigan. Retrieved 8 February 2013.
  12. "UMSI plans new undergraduate degree". University of Michigan School of Information. Retrieved 11 February 2013.
  13. "Kappa Theta Pi (KTP)". Retrieved 19 February 2013.
  14. "Degree Options". University of Washington Information School. Retrieved 6 April 2015.
  15. Beynon-Davies P. (2002). Information Systems: an introduction to informatics in Organisations. Palgrave, Basingstoke, UK. ISBN 0-333-96390-3
  16. Beynon-Davies P. (2009). Business Information Systems. Palgrave, Basingstoke, UK. ISBN 978-0-230-20368-6
  17. [R. Kling, G. McKim, and A. King, "A Bit More to It: Scholarly Communication Forums as Socio-Technical Interaction Networks" JASIST, 54(1):47–67, 2003.]
  18. ["Infrastructure." Wikipedia. Wikimedia Foundation, n.d. Web. 11 Apr. 2015.]

External links

Look up informatics in Wiktionary, the free dictionary.
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