A System of Systems Methodology: Difference between revisions
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Problem-contexts, it followed, could also exhibit a 'unitary' or 'pluralist' character. Bringing the two dimensions of 'systems' and 'decision- makers' together, to form a four-celled matrix, yielded a classification of problem-contexts as mechanical-unitary, systemic-unitary, mechanical-pluralist and systemic-pluralist. Some brief justifi- cation was provided for the choice of the two dimensions forming the matrix. | Problem-contexts, it followed, could also exhibit a 'unitary' or 'pluralist' character. Bringing the two dimensions of 'systems' and 'decision- makers' together, to form a four-celled matrix, yielded a classification of problem-contexts as mechanical-unitary, systemic-unitary, mechanical-pluralist and systemic-pluralist. Some brief justifi- cation was provided for the choice of the two dimensions forming the matrix. | ||
{| class="wikitable" style="width: 100%;" | |||
|- | |||
! scope="col"| | |||
! scope="col" style="width: 50%"| Unitary | |||
! scope="col" style="width: 50%"| Pluralist | |||
|- | |||
! scope="row"| Mechanical | |||
| | |||
* Assumes that it is relatively easy to establish clear objectives for the system in which the problem resides, so the context must be unitary. | |||
* The system is represented in a quantitative model which simulates its performance under different operational conditions something only possible if the system is simple and the context mechanical. | |||
* Classical OR Systems analysis and systems engineering are most appropriate for solving problems. | |||
| Mechanical-pluralist contexts responded to the kind of systems design method proposed by Churchman, and by Mason and Mitroff in their 'strategic assumption surfacing and testing' methodology. | |||
|- | |||
! scope="row"| Systemic | |||
| Cybernetic approaches, such as advocated by Beer and in the socio-technical systems literature. | |||
| The soft systems thinking proposed by Ackoff and by Checkland could minister to problems set in systemic-pluralist problem-contexts. For example, Ackoff's 'interactive planning' exhibited, through the participative principle, a method to cope with pluralism and, through the proposed design for a 'responsive decision system', an attempt to come to terms with systemicity. | |||
|} | |||
The above analysis is: | |||
* Of practical importance because it can assist problem solvers to choose an appropriate methodology for the particular circumstances they faced. | |||
* Its theoretical message is that OR and the other systems-based methodologies, far from being in competition with one another, could be used in an informed way, as a set of complementary tools, to tackle a much greater range of problem types. | |||
Latest revision as of 09:52, 3 February 2023
The starting point was a classification of problem- contexts according to:
- The nature of the systems(s) embedding the problem of concern
- The relationship between relevant stakeholders
. Systems were seen to lie on a continuum ranging from simple to complex and, following Ackoff's terminology, problem-contexts labelled 'mechanical' if they contained relatively simple systems and 'systemic' if they housed complex systems. Decision-makers could be in a
- Unitary relationship to one another If they agreed upon a set of goals
- Pluralist If their objectives differed.
Problem-contexts, it followed, could also exhibit a 'unitary' or 'pluralist' character. Bringing the two dimensions of 'systems' and 'decision- makers' together, to form a four-celled matrix, yielded a classification of problem-contexts as mechanical-unitary, systemic-unitary, mechanical-pluralist and systemic-pluralist. Some brief justifi- cation was provided for the choice of the two dimensions forming the matrix.
| Unitary | Pluralist | |
|---|---|---|
| Mechanical |
|
Mechanical-pluralist contexts responded to the kind of systems design method proposed by Churchman, and by Mason and Mitroff in their 'strategic assumption surfacing and testing' methodology. |
| Systemic | Cybernetic approaches, such as advocated by Beer and in the socio-technical systems literature. | The soft systems thinking proposed by Ackoff and by Checkland could minister to problems set in systemic-pluralist problem-contexts. For example, Ackoff's 'interactive planning' exhibited, through the participative principle, a method to cope with pluralism and, through the proposed design for a 'responsive decision system', an attempt to come to terms with systemicity. |
The above analysis is:
- Of practical importance because it can assist problem solvers to choose an appropriate methodology for the particular circumstances they faced.
- Its theoretical message is that OR and the other systems-based methodologies, far from being in competition with one another, could be used in an informed way, as a set of complementary tools, to tackle a much greater range of problem types.