Difference between revisions of "Related Disciplines"
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| + | '''''Lead Author:''''' ''Art Pyster'', '''''Contributing Authors:''''' ''Dick Fairley, Tom Hilburn, Alice Squires'' | ||
| + | ---- | ||
| + | Systems engineers routinely work within broad multidisciplinary teams (Pyster et al. 2018) and across many disciplines. Part 6 of the SEBoK presents knowledge that should be useful to systems engineers in two ways: (1) systems engineers benefit from knowing aspects of these disciplines directly; e.g. given how central software is to the functioning of virtually every interesting engineered system, a systems engineer should know a fair amount about software and software engineering; and (2) systems engineers routinely interact with these other fields and professionals in those fields. | ||
| + | [[File:SEBoK_Context_Diagram_Inner_P6_Ifezue_Obiako.png|centre|thumb|600x600px|'''Figure 1 SEBoK Part 6 in context (SEBoK Original).''' For more detail see [[Structure of the SEBoK]]]] | ||
| − | + | SE intersects with virtually every other recognized discipline. Besides the other engineering disciplines such as electrical and mechanical engineering, SE intersects with the physical sciences, social sciences, project management, philosophy, etc. For example, a systems engineer leading the design of an autonomous car would work with electrical engineers, software engineers, project managers, mechanical engineers, computer scientists, radio engineers, data analysts, human factors specialists, cybersecurity engineers, economists, and professionals from many other disciplines. The knowledge areas (KAs) contained in Part 6 and the topics under them provide an overview of some of these disciplines with emphasis on what a systems engineer needs to know to be effective, accompanied by pointers to that knowledge. The KAs included in Part 6 could run into the dozens, but only a handful are addressed in this version of the SEBoK. Subsequent SEBoK releases will expand the number of related disciplines and offer deeper insight into their relationship with SE. | |
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| − | + | ==Knowledge Areas in Part 6== | |
| + | Each part of the SEBoK is divided into knowledge areas (KAs), which are groupings of information with a related theme. Part 6 contains the following KAs: | ||
| + | *[[Systems Engineering and Enterprise IT]] | ||
| + | *[[Systems Engineering and Environmental Engineering]] | ||
| + | *[[Systems Engineering and Geospatial/Geodetic Engineering]] | ||
| + | *[[Systems Engineering and Industrial Engineering]] | ||
| + | *[[Systems Engineering and Mechanical Engineering]] | ||
| + | *[[Systems Engineering and Project Management]] | ||
| + | *[[Systems Engineering and Software Engineering]] | ||
| + | *[[Systems Engineering and Quality Attributes]] | ||
| + | Each KA above except the last is a major well-recognized stand-alone discipline. Each is widely taught in universities around the world, has professional societies devoted to it, standards that assist its practitioners, publications that describe its knowledge and practices, and a vibrant community of practitioners and researchers who often have one or more university degrees in the discipline. The last KA is different. It describes the disciplines associated with engineering system qualities or properties; e.g., security is a system quality. Security engineering is the discipline through which system security is realized in a system. The security of a modern car is widely understood to be a function of many factors such as the strength of its physical exterior, its alarm system which may have extensive sensors and software, and its communications system which can wirelessly alert the owner or police if someone attempts to break into it. Similarly, the reliability of a car is a function of such factors as the reliability of its individual subsystems and components (mechanical, electronic, software, etc.) and how the car has been designed to compensate for a failed subsystem or component (e.g. if the electronic door lock fails, can the driver use a physical key to lock and unlock the car?). The topics included in this KA are among the most important qualities a systems engineer would typically consider. | ||
| − | == | + | ==References== |
| − | + | ===Works Cited=== | |
| − | + | Pyster, A., N. Hutchison, D. Henry. 2018. ''The Paradoxical Mindset of Systems Engineers''. Hoboken, NJ, USA: Wiley. | |
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===Primary References=== | ===Primary References=== | ||
| − | + | Bourque, P. and R.E. Fairley (eds.). 2014. ''[[SWEBOK: Guide to the Software Engineering Body of Knowledge]]'', version 3.0. Los Alamitos, CA, USA: IEEE Computer Society. Accessed May 25, 2023. Available at http://www.Swebok.org. | |
| + | |||
| + | DAU. 2020. ''[[Defense Acquisition Guidebook (DAG)]]''. Ft. Belvoir, VA, USA: Defense Acquisition University (DAU)/US Department of Defense. Available at: https://www.dau.edu/tools/dag (Accessed on March 19, 2021). | ||
| + | |||
| + | IEEE Computer Society. 2022. SWEBOK Guide Version 4.0 beta. Accessed August 28, 2023. Available at https://waseda.app.box.com/s/elnhhnezdycn2q2zp4fe0f2t1fvse5rn. | ||
| − | PMI | + | PMI. 2017. ''[[A Guide to the Project Management Body of Knowledge|A Guide to the Project Management Body of Knowledge (PMBOK® Guide)]]'', 6th ed. Newtown Square, PA, USA: Project Management Institute (PMI). |
| − | + | Pyster, A., N. Hutchison, D. Henry. 2018. ''[[The Paradoxical Mindset of Systems Engineers]]''. Hoboken'', NJ, USA: Wiley. | |
===Additional References=== | ===Additional References=== | ||
| − | + | None. | |
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| − | + | <center>[[Ethical Behavior|< Previous Article (Part 5)]] | [[SEBoK Table of Contents|Parent Article]] | [[Systems Engineering and Environmental Engineering|Next Article >]]</center> | |
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| − | <center>[[Ethical Behavior|< | ||
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| − | + | <center>'''SEBoK v. 2.10, released 06 May 2024'''</center> | |
| − | [[Category: Part 6]][[Category:Part]] | + | [[Category: Part 6]] |
| + | [[Category:Part]] | ||
Latest revision as of 22:15, 2 May 2024
Lead Author: Art Pyster, Contributing Authors: Dick Fairley, Tom Hilburn, Alice Squires
Systems engineers routinely work within broad multidisciplinary teams (Pyster et al. 2018) and across many disciplines. Part 6 of the SEBoK presents knowledge that should be useful to systems engineers in two ways: (1) systems engineers benefit from knowing aspects of these disciplines directly; e.g. given how central software is to the functioning of virtually every interesting engineered system, a systems engineer should know a fair amount about software and software engineering; and (2) systems engineers routinely interact with these other fields and professionals in those fields.
SE intersects with virtually every other recognized discipline. Besides the other engineering disciplines such as electrical and mechanical engineering, SE intersects with the physical sciences, social sciences, project management, philosophy, etc. For example, a systems engineer leading the design of an autonomous car would work with electrical engineers, software engineers, project managers, mechanical engineers, computer scientists, radio engineers, data analysts, human factors specialists, cybersecurity engineers, economists, and professionals from many other disciplines. The knowledge areas (KAs) contained in Part 6 and the topics under them provide an overview of some of these disciplines with emphasis on what a systems engineer needs to know to be effective, accompanied by pointers to that knowledge. The KAs included in Part 6 could run into the dozens, but only a handful are addressed in this version of the SEBoK. Subsequent SEBoK releases will expand the number of related disciplines and offer deeper insight into their relationship with SE.
Knowledge Areas in Part 6
Each part of the SEBoK is divided into knowledge areas (KAs), which are groupings of information with a related theme. Part 6 contains the following KAs:
- Systems Engineering and Enterprise IT
- Systems Engineering and Environmental Engineering
- Systems Engineering and Geospatial/Geodetic Engineering
- Systems Engineering and Industrial Engineering
- Systems Engineering and Mechanical Engineering
- Systems Engineering and Project Management
- Systems Engineering and Software Engineering
- Systems Engineering and Quality Attributes
Each KA above except the last is a major well-recognized stand-alone discipline. Each is widely taught in universities around the world, has professional societies devoted to it, standards that assist its practitioners, publications that describe its knowledge and practices, and a vibrant community of practitioners and researchers who often have one or more university degrees in the discipline. The last KA is different. It describes the disciplines associated with engineering system qualities or properties; e.g., security is a system quality. Security engineering is the discipline through which system security is realized in a system. The security of a modern car is widely understood to be a function of many factors such as the strength of its physical exterior, its alarm system which may have extensive sensors and software, and its communications system which can wirelessly alert the owner or police if someone attempts to break into it. Similarly, the reliability of a car is a function of such factors as the reliability of its individual subsystems and components (mechanical, electronic, software, etc.) and how the car has been designed to compensate for a failed subsystem or component (e.g. if the electronic door lock fails, can the driver use a physical key to lock and unlock the car?). The topics included in this KA are among the most important qualities a systems engineer would typically consider.
References
Works Cited
Pyster, A., N. Hutchison, D. Henry. 2018. The Paradoxical Mindset of Systems Engineers. Hoboken, NJ, USA: Wiley.
Primary References
Bourque, P. and R.E. Fairley (eds.). 2014. SWEBOK: Guide to the Software Engineering Body of Knowledge, version 3.0. Los Alamitos, CA, USA: IEEE Computer Society. Accessed May 25, 2023. Available at http://www.Swebok.org.
DAU. 2020. Defense Acquisition Guidebook (DAG). Ft. Belvoir, VA, USA: Defense Acquisition University (DAU)/US Department of Defense. Available at: https://www.dau.edu/tools/dag (Accessed on March 19, 2021).
IEEE Computer Society. 2022. SWEBOK Guide Version 4.0 beta. Accessed August 28, 2023. Available at https://waseda.app.box.com/s/elnhhnezdycn2q2zp4fe0f2t1fvse5rn.
PMI. 2017. A Guide to the Project Management Body of Knowledge (PMBOK® Guide), 6th ed. Newtown Square, PA, USA: Project Management Institute (PMI).
Pyster, A., N. Hutchison, D. Henry. 2018. The Paradoxical Mindset of Systems Engineers. Hoboken, NJ, USA: Wiley.
Additional References
None.