Systems Thinking

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This Knowledge Area (KA) provides a guide to knowledge about systems thinking which is the integrating paradigm for systems science and Systems Approaches to practice.

This is part of the wider systems knowledge which helps to provide a common language and intellectual foundation for systems engineering as discussed in the Introduction to Part 2.

To download a PDF of all of Part 2 (including this knowledge area), please click here.

Topics

The topics contained within this knowledge area include the following:

Introduction

systems thinking is concerned with understanding or intervening in problem situations, based on the principles and concepts of the systems paradigm. This KA offers some basic definitions of systems thinking. The following diagram summarizes how the knowledge is presented.

Figure 1. Systems Thinking and Systems Science. (SEBok Original)

Systems Thinking considers the similarities between systems from different domains as a set of common systems concepts, principles and patterns.

  • A principle is a rule of conduct or behavior. To take this further, a principle is a “basic generalization that is accepted as true and that can be used as a basis for reasoning or conduct” (WordWeb.com). A principle can also be thought of as a “basic truth or law or assumption” (ibid).
  • A concept is an abstraction, or a general idea inferred or derived from specific instances. For example, by viewing a pet dog, one can infer that there are other dogs of that “type.” Hence, from this observation (or perhaps a set of observations) the concept of a dog is developed in one's mind. Concepts are bearers of meaning, as opposed to agents of meaning, and can only be thought about, or designated, by means of a name.

Principles depend on concepts in order to state a “truth.” Hence, principles and concepts go hand in hand; principles cannot exist without concepts and concepts are not very useful without principles to help guide the proper way to act (Lawson and Martin 2008).

Ackoff (Ackoff, 1971). proposes a system of "system-concepts" to bring together the wide variety of concepts which have been proposed. His 30 distinct concepts are grouped under four headings, or principles, “How Systems are formed”, “How Systems Change”, “How Systems Behave” and “How Systems Adapt and Learn”,

In the Concepts article in the KA we have tried to extract concept from the work of a variety of theory and practice sources against Ackoffs original headings. Many of these sources combine both concepts and the principles based on them. A summary of important principles referred back to the concepts upon which they are based is also provided.

A pattern is an expression of observable similarities found in systems form different domains. Patterns exist in both natural and man made systems, and are used in systems science and systems engineering. A summary of the different class of pattern and the use of patterns to support a Systems Approach is discussed in the final article of this KA.

The practical application of Systems Thinking is often through the use of abstract System Representations or models. Some mention of these models is made in the KA, and a more complete guide provided in Representing Systems with Models.

References

Works Cited

Ackoff, R.L. 1971. "Towards a System of Systems Concepts". Management Science. 17(11).

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

Hitchins, D. 2009. "What Are the General Principles Applicable to Systems?" Insight 12(4).

Lawson, H. 2010. A Journey Through the Systems Landscape. London, UK: College Publications, Kings College.

Lawson, H., and J.N. Martin. 2008. "On the Use of Concepts and Principles for Improving Systems Engineering Practice". Proceedings of the 18th Annual International Council on Systems Engineering (INCOSE) International Symposium, 5-19 June 2008, Utrecht, The Netherlands.

Primary References

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

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

Churchman, C. W. 1968. The Systems Approach and its Enemies. New York, NY, USA: Dell Publishing.

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

INCOSE. 2011. INCOSE Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities, version 3.2.1. San Diego, CA, USA: International Council on Systems Engineering (INCOSE), INCOSE-TP-2003-002-03.2.1.

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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