Systems engineering is a field of engineering that deals with complex engineering projects which should be designed and managed over the life cycle of the project. Therefore, issues such as logistics, the coordination of different teams, and automatic control of machinery become really complicated.[1] Systems engineering deals with work-processes and tools to handle such projects. For this, it applies both technical and human-centered disciplines such as control engineering, industrial engineering, organizational studies, and project management.
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System
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| Concepts | |
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Theoretical
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| Scientists |
- Manfred Clynes
- Edsger W. Dijkstra
- Alexander Bogdanov
- Russell L. Ackoff
- William Ross Ashby
- Ruzena Bajcsy
- Béla H. Bánáthy
- Gregory Bateson
- Anthony Stafford Beer
- Richard E. Bellman
- Ludwig von Bertalanffy
- Margaret Boden
- Kenneth E. Boulding
- Murray Bowen
- Kathleen Carley
- Mary Cartwright
- C. West Churchman
- George Dantzig
- Fred Emery
- Heinz von Foerster
- Stephanie Forrest
- Jay Wright Forrester
- Barbara Grosz
- Charles A. S. Hall
- Mike Jackson
- Lydia Kavraki
- James J. Kay
- Faina M. Kirillova
- George Klir
- Allenna Leonard
- Edward Norton Lorenz
- Niklas Luhmann
- Humberto Maturana
- Margaret Mead
- Donella Meadows
- Mihajlo D. Mesarovic
- James Grier Miller
- Radhika Nagpal
- Howard T. Odum
- Talcott Parsons
- Ilya Prigogine
- Qian Xuesen
- Anatol Rapoport
- John Seddon
- Peter Senge
- Claude Shannon
- Katia Sycara
- Eric Trist
- Francisco Varela
- Manuela M. Veloso
- Kevin Warwick
- Norbert Wiener
- Jennifer Wilby
- Anthony Wilden
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| Applications |
- Systems theory in anthropology
- Systems theory in archaeology
- Systems theory in political science
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| Organizations |
- Principia Cybernetica
- List
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