Difference between revisions of "Systems Science"

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This Knowledge Area (KA) provides a guide to the major developments in [[Systems Science (glossary)]] which is an interdisciplinary field of science that studies the nature of complex systems in nature, society, and science. Grounded in systems thinking, and based on theory and practice, it aims to develop interdisciplinary foundations applicable in a variety of areas, such as [[Engineering (glossary)|engineering (glossary)]], biology, medicine and social sciences.  This knowledge is not specific to [[Systems Engineering (glossary)|systems engineering (glossary)]], but is part of a wider systems body of knowledge.  Not all system knowledge is captured here - only those aspects relevant to the SEBoK.
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'''''Lead Author:''''' ''Rick Adcock'', '''''Contributing Authors:''''' ''Gary Smith''
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This knowledge area (KA) provides a guide to some of the major developments in {{Term|Systems Science (glossary)|systems science}}, which is an interdisciplinary field of science that studies the nature of {{Term|Complex (glossary)|complex}} {{Term|System (glossary)|systems}} in nature, society, and {{Term|Engineering (glossary)|engineering}}.  
  
To download a PDF of all of Part 2 (including this knowledge area), please [http://www.sebokwiki.org/075/images/7/7e/SEBoK075_Part2.pdf click here].
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This is part of the wider systems knowledge which can help to provide a common language and intellectual foundation, and make practical systems {{Term|Concept (glossary)|concepts}}, {{Term|Principle (glossary)|principles}}, {{Term|Pattern (glossary)|patterns}} and tools accessible to {{Term|Systems Engineering (glossary)|systems engineering}} (SE) as discussed in the [[Foundations of Systems Engineering|Introduction to Part 2]].  
  
 
==Topics==
 
==Topics==
The topics contained within this knowledge area include:
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Each part of the SEBoK is divided into KAs, which are groupings of information with a related theme. The KAs, in turn, are divided into topics. This KA contains the following topics:  
*[[History of Systems Science]]  
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* [[History of Systems Science]]  
*[[Systems Philosophy, Theories, and Mathematics]]
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* The origins of [[Systems Approaches]]
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* [[Complexity]]
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* [[Emergence]]  
  
==Development of System Theory==
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==Introduction==
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Systems science brings together research into all aspects of systems with the goal of identifying, exploring, and understanding patterns of {{Term|Complexity (glossary)|complexity}} and {{Term|Emergence (glossary)|emergence}} which cross disciplinary fields and areas of application. It seeks to develop interdisciplinary foundations which can form the basis of theories applicable to all types of systems, independent of {{Term|Element (glossary)|element}} type or application; additionally, it could form the foundations of a meta-discipline unifying traditional scientific specialisms. 
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The [[History of Systems Science]] article describes some of the important multidisciplinary fields of research of which systems science is composed.
  
[[Systems Thinking (glossary)]] is an approach to understanding or intervening in systems, based on the principles and concepts of systems. The [[Systems Thinking]] KA offers definitions of systems thinking and the systems theory which supports it.
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A second article presents and contrasts the underlying theories and origins behind some of the classic {{Term|Systems Approach (glossary)|system approaches}} taken in applying systems science to real problems.
  
The development of these theoretical ideas to a point where they can be considered part of the cannon of systems thinking is like any other branch of science - not a straight forward or linear process.  [[General System Theory (glossary)]] [[Acronyms|(GST)]] (von Bertalanffy, 1968) enables comparisons between systems that rely on different technologies, judging the goodness or completeness of a system, and developing domain-independent systems approaches which can form the basis of disciplines such as Systems Engineering.  While many researchers and practitioners have created GST concepts, these tend to be a stepping stone to theories and approaches.  This situation is made worse by the variety of domains and disciplines in which systems research is conducted and reported.
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People who think and act in a systems way are essential to the success of both research and practice. Successful systems research will not only apply {{Term|Systems Thinking (glossary)|systems thinking}} to the topic being researched but should also consider a systems thinking approach to the way the research is planned and conducted. It would also be of benefit to have people involved in research who have, at a minimum, an awareness of system practice and ideally are involved in practical applications of the theories they develop.
 
 
While the [[Concepts of Systems Thinking | Concepts of Systems Thinking]] presented in the [[Systems Thinking]] Knowledge Area is a powerful set of ideas for better understanding all kinds of systems, it is neither rigorous nor complete.
 
 
 
This Knowledge area describes the most important movements in Systems Science and presents a guide to the overlapping and sometimes contradictory theories it has created and used.
 
  
 
==References==
 
==References==
  
 
===Works Cited===
 
===Works Cited===
 
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None.
Bertalanffy, L. von. 1968. ''General System Theory: Foundations, Development, Applications,'' Revised ed. New York, NY, USA: Braziller. 
 
  
 
===Primary References===
 
===Primary References===
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Bertalanffy, L. von. 1968. ''[[General System Theory: Foundations, Development, Applications]],'' Revised ed. New York, NY, USA: Braziller.   
 
Bertalanffy, L. von. 1968. ''[[General System Theory: Foundations, Development, Applications]],'' Revised ed. New York, NY, USA: Braziller.   
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Flood, R.L. 1999. ''[[Rethinking the Fifth Discipline]]: Learning within the Unknowable.'' London, UK: Routledge.
  
 
===Additional References===
 
===Additional References===
  
No additional references have been identified for version 0.75. Please provide any recommendations on additional references in your review.
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None.
  
 
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<center>[[Emergence|< Previous Article]] | [[Systems|Parent Article]] | [[History of Systems Science|Next Article >]]</center>
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<center>[[Cycles and the Cyclic Nature of Systems|< Previous Article]] | [[Foundations of Systems Engineering|Parent Article]] | [[History of Systems Science|Next Article >]]</center>
 
 
==Comments from SEBoK 0.5 Wiki==
 
Please note that in version 0.5, this article was titled “System Concepts".
 
 
 
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<iframe src="http://www.sebokwiki.org/05/index.php?title=Talk:System_Concepts&printable=yes" width=825 height=200 frameborder=1 scrolling=auto>
 
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{{DISQUS}}
 
 
 
  
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<center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  
 
[[Category:Part 2]][[Category:Knowledge Area]][[Category:Systems Science]]
 
[[Category:Part 2]][[Category:Knowledge Area]][[Category:Systems Science]]

Latest revision as of 23:19, 2 May 2024


Lead Author: Rick Adcock, Contributing Authors: Gary Smith


This knowledge area (KA) provides a guide to some of the major developments in systems sciencesystems science, which is an interdisciplinary field of science that studies the nature of complexcomplex systemssystems in nature, society, and engineeringengineering.

This is part of the wider systems knowledge which can help to provide a common language and intellectual foundation, and make practical systems conceptsconcepts, principlesprinciples, patternspatterns and tools accessible to systems engineeringsystems engineering (SE) as discussed in the Introduction to Part 2.

Topics

Each part of the SEBoK is divided into KAs, which are groupings of information with a related theme. The KAs, in turn, are divided into topics. This KA contains the following topics:

Introduction

Systems science brings together research into all aspects of systems with the goal of identifying, exploring, and understanding patterns of complexitycomplexity and emergenceemergence which cross disciplinary fields and areas of application. It seeks to develop interdisciplinary foundations which can form the basis of theories applicable to all types of systems, independent of elementelement type or application; additionally, it could form the foundations of a meta-discipline unifying traditional scientific specialisms.

The History of Systems Science article describes some of the important multidisciplinary fields of research of which systems science is composed.

A second article presents and contrasts the underlying theories and origins behind some of the classic system approachessystem approaches taken in applying systems science to real problems.

People who think and act in a systems way are essential to the success of both research and practice. Successful systems research will not only apply systems thinkingsystems thinking to the topic being researched but should also consider a systems thinking approach to the way the research is planned and conducted. It would also be of benefit to have people involved in research who have, at a minimum, an awareness of system practice and ideally are involved in practical applications of the theories they develop.

References

Works Cited

None.

Primary References

Checkland, P. 1999. Systems Thinking, Systems Practice. New York, NY, USA: John Wiley & Sons.

Bertalanffy, L. von. 1968. General System Theory: Foundations, Development, Applications, Revised ed. New York, NY, USA: Braziller.

Flood, R.L. 1999. Rethinking the Fifth Discipline: Learning within the Unknowable. London, UK: Routledge.

Additional References

None.


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