Difference between revisions of "System (glossary)"
(Include newly adopted INCOSE Fellows (and approved by the INCOSE BoD in January 2019)) Tag: visualeditor |
(Recommendations from R. Adcock) Tag: visualeditor |
||
| Line 1: | Line 1: | ||
<blockquote>''(1) A set of elements in interaction.'' (von Bertalanffy 1968)</blockquote> | <blockquote>''(1) A set of elements in interaction.'' (von Bertalanffy 1968)</blockquote> | ||
| − | <blockquote>''(2) combination of interacting [[System Element (glossary)|elements]] organized to achieve one or more stated purposes (ISO/IEC/IEEE 2015)''</blockquote> | + | <blockquote>''(2) combination of interacting [[System Element (glossary)|elements]] organized to achieve one or more stated purposes (ISO/IEC/IEEE 2015)''</blockquote><blockquote>(3) A system is an arrangement of parts or elements that together exhibit behavior or meaning that the individual constituents do not. (INCOSE Fellows, 2019)</blockquote> |
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
===Source=== | ===Source=== | ||
| Line 22: | Line 16: | ||
Definition (2) is the recognized definition for systems engineers. Elements in this sense may include hardware, software, firmware, people, information, techniques, facilities, services, related natural artifacts and other support elements. This definition should be restricted to [[Engineered System (glossary)|engineered systems]] which are created with a purpose which provides value to one or more beneficiaries. | Definition (2) is the recognized definition for systems engineers. Elements in this sense may include hardware, software, firmware, people, information, techniques, facilities, services, related natural artifacts and other support elements. This definition should be restricted to [[Engineered System (glossary)|engineered systems]] which are created with a purpose which provides value to one or more beneficiaries. | ||
| − | + | Definition (3) was created by the INCOSE Fellows Initiative on System and Systems Engineering Definitions. This was established in 2016, to review current INCOSE definitions of SYSTEM and SYSTEMS ENGINEERING and to recommend any changes necessary to align the definitions to a) current practice, and b) the aspirations of INCOSE’s 2025 Vision. At the January 2019 INCOSE Board of Directors meeting, a new INCOSE definition for "system" was approved and is given above. | |
| + | |||
| + | Expanding on this definition, the INCOSE Fellows state: | ||
| + | |||
| + | Systems can be either physical or conceptual, or a combination of both. Systems in the physical universe are composed of matter and energy, may embody information encoded in matter-energy carriers, and exhibit observable behaviour. Conceptual systems are abstract systems of pure information, and do not directly exhibit behaviour, but exhibit “meaning”. In both cases, the system's properties (as a whole) result, or emerge from: | ||
| + | |||
| + | · the parts or elements and their individual properties; AND | ||
| + | |||
| + | · the relationships and interactions between and among the parts, the system and its environment. | ||
| + | |||
| + | Note, definitions (1) and (2) remain applicable to the usage of this term in the current SEBoK, unless specifically stated. As the fellow initiative definition becomes more widely used we expect it to become the default definition in future releases of the SEBoK | ||
| + | |||
| + | See Introduction to Systems Fundamentals for a full discussion of the nature of systems in general and the scope of engineered systems of particular interest to systems engineering. | ||
[[Category:Glossary of Terms]] | [[Category:Glossary of Terms]] | ||
<center>'''SEBoK v. 1.9.1, released 16 October 2018'''</center> | <center>'''SEBoK v. 1.9.1, released 16 October 2018'''</center> | ||
Revision as of 00:44, 29 May 2019
(1) A set of elements in interaction. (von Bertalanffy 1968)
(2) combination of interacting elements organized to achieve one or more stated purposes (ISO/IEC/IEEE 2015)
(3) A system is an arrangement of parts or elements that together exhibit behavior or meaning that the individual constituents do not. (INCOSE Fellows, 2019)
Source
(1) von Bertalanffy, L. 1968. General System Theory: Foundations, Development, Applications. Revised ed. New York, NY, USA: George Braziller, Inc.
(2) ISO/IEC/IEEE. 2015. Systems and Software Engineering - System Life Cycle Processes. Geneva, Switzerland: International Organization for Standardization (ISO)/International Electrotechnical Commission (IEC), Institute of Electrical and Electronics Engineers. ISO/IEC/IEEE 15288:2015. The second definition is an expanded version of the ISO/IEC/IEEE version.
(3) INCOSE Fellows Briefing to INCOSE Board of Directors, January 2019.
Discussion
Definition (1) is the System Science definition and applies to all systems: natural, social or technical.
Definition (2) is the recognized definition for systems engineers. Elements in this sense may include hardware, software, firmware, people, information, techniques, facilities, services, related natural artifacts and other support elements. This definition should be restricted to engineered systems which are created with a purpose which provides value to one or more beneficiaries.
Definition (3) was created by the INCOSE Fellows Initiative on System and Systems Engineering Definitions. This was established in 2016, to review current INCOSE definitions of SYSTEM and SYSTEMS ENGINEERING and to recommend any changes necessary to align the definitions to a) current practice, and b) the aspirations of INCOSE’s 2025 Vision. At the January 2019 INCOSE Board of Directors meeting, a new INCOSE definition for "system" was approved and is given above.
Expanding on this definition, the INCOSE Fellows state:
Systems can be either physical or conceptual, or a combination of both. Systems in the physical universe are composed of matter and energy, may embody information encoded in matter-energy carriers, and exhibit observable behaviour. Conceptual systems are abstract systems of pure information, and do not directly exhibit behaviour, but exhibit “meaning”. In both cases, the system's properties (as a whole) result, or emerge from:
· the parts or elements and their individual properties; AND
· the relationships and interactions between and among the parts, the system and its environment.
Note, definitions (1) and (2) remain applicable to the usage of this term in the current SEBoK, unless specifically stated. As the fellow initiative definition becomes more widely used we expect it to become the default definition in future releases of the SEBoK
See Introduction to Systems Fundamentals for a full discussion of the nature of systems in general and the scope of engineered systems of particular interest to systems engineering.