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• Product SE TBD 2
  <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  105 bytes (13 words) - 23:03, 2 May 2024
• Use Case 2: Other Engineers
  36 bytes (4 words) - 19:33, 19 November 2023

Page text matches

• capability management
  <blockquote>(2) ''The planning, organization, assessment and control of capabilities.'' (C (1)-(2) These definitions were developed for SEBoK v. 1.0.
  484 bytes (61 words) - 21:51, 2 May 2024
• NIST 800-64
  ...National Institute of Standard and Technology (NIST). NIST 800-64 Revision 2:2008</blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  591 bytes (74 words) - 23:24, 2 May 2024
• system context
  ''<blockquote>(2) Diagram defining the highest level view of a system in its environment.'' (1) and (2) Flood, R.L. and E.R. Carson. 1993. ''Dealing with complexity: An introduct
  840 bytes (115 words) - 23:12, 2 May 2024
• emergent behavior
  <blockquote>''2. Behavior that is "arising unexpectedly or as a new or improved development (1) Apple. 2011. "On-line Dictionary", version 2.2.3, 2005 - 2011
  516 bytes (63 words) - 21:50, 2 May 2024
• constraint
  <blockquote>''(2) A type of requirement or design feature that cannot be traded off.'' (ANSI (1) and (2) ANSI/EIA. 1998. ''ANSI/EIA 632|Processes for Engineering a System.'' Phila
  584 bytes (76 words) - 23:02, 2 May 2024
• acquirer
  ...n (ISO)/International Electrotechnical Commission (IEC), ISO/IEC DTR 24748-2. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  563 bytes (74 words) - 22:46, 2 May 2024
• holism
  <blockquote>(2) ''To take a Holistic view of a situation.'' (von Bertalanffy 1968)</block (1) and (2) von Bertalanffy, L. 1968. ''General system theory: Foundations, developmen
  642 bytes (84 words) - 22:31, 2 May 2024
• abstract syntax
  <blockquote>(2) ''The set of constructs and associated rules to create well-formed models. (2) This definition was developed for the SEBoK v. 1.0.
  696 bytes (86 words) - 22:49, 2 May 2024
• environment
  <blockquote>''(2) The surroundings (natural or man‐made) in which the system‐of-interest ...ternational Council on Systems Engineering (INCOSE), INCOSE-TP-2003-002-03.2.
  1 KB (139 words) - 23:26, 2 May 2024
• state
  <blockquote>''(2) A description of the current or future potential, or health of the system. (1) and (2) Ackoff, R.L. 1971. "Towards a System of Systems Concepts." ''Management Sc
  650 bytes (91 words) - 22:14, 2 May 2024
• variety
  <blockquote>''(2) Interacting systems stability increases with variety, and with the degree (2) Hitchins, D. 2007. ''Systems Engineering: A 21st Century Systems Methodolo
  1 KB (145 words) - 23:02, 2 May 2024
• reductionism
  ''<blockquote>(2) a view that a complex system is nothing but the sum of its parts, and that (1) and (2) M’Pherson, P, K. 1974. "A perspective on systems science and systems phi
  611 bytes (85 words) - 23:09, 2 May 2024
• milestone
  <blockquote>(2) ''A scheduled event used to measure progress.'' (IEEE 1998)</blockquote> (2) IEEE. 1998. ''IEEE Standard for Software Project Management Plans.'' New Y
  612 bytes (80 words) - 23:10, 2 May 2024
• SEBoK Sponsors
  | rowspan="2" | |<center>Up to 2 (incl.)</center>
  2 KB (303 words) - 16:20, 11 November 2023
• antipattern
  <blockquote>'' (2) Pattern of failure.'' (SEI 2012)</blockquote> (2) SEI 2012. ''Patterns of Failure: System Archetypes.'' Available at http://
  759 bytes (101 words) - 22:57, 2 May 2024
• behavior
  ''<blockquote>(2) The effect produced when an instance of a complex system or organism is us (2) This definition was developed for the SEBoK.
  1 KB (158 words) - 23:16, 2 May 2024
• interoperability
  <blockquote>(2) ''The ability for two or more ORBs to cooperate to deliver requests to the ...ation (ISO)/International Electrotechnical Commission (IEC), ISO/IEC 19500-2:2003.
  2 KB (187 words) - 22:42, 2 May 2024
• supplier
  <blockquote>''(2) Suppliers may be internal or external.'' (ISO/IEC 2015) </blockquote> (1) and (2) ISO/IEC/IEEE. 2015. ''[[ISO/IEC/IEEE 15288|Systems and Software Engineeri
  707 bytes (90 words) - 22:07, 2 May 2024
• neutral state
  ...nceptual framework for resilience engineering." IEEE ''Systems Journal'' 3(2):181-191. ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164.
  722 bytes (90 words) - 22:11, 2 May 2024
• simulation
  <blockquote>''(2) The process of developing or using a model as in (1).'' (ISO/IEC/IEEE 2476 (1) and (2) ISO/IEC/IEEE. 2010. ''Systems and Software Engineering - System and Softwa
  720 bytes (90 words) - 22:09, 2 May 2024
• descriptive model
  <blockquote>''(2) That depicts or describes how things actually work, and answers the questi (2) BusinessDictionary.com. 2012. s.v. "Descriptive Model." http://www.busines
  870 bytes (109 words) - 21:51, 2 May 2024
• abstract model
  <blockquote>''(2) An abstract or conceptual representation of a system that does not have a (2) This definition was developed for the SEBoK v. 1.0.
  901 bytes (116 words) - 22:48, 2 May 2024
• issue
  <blockquote>(2) ''A concern that has a probability of occurrence equal to one, a consequen (2) Conrow, E. 2008. "Risk Analysis for Space Systems." Space Systems Engineer
  1 KB (148 words) - 22:14, 2 May 2024
• resilience
  <blockquote>2. ''Ability to adapt to changing conditions and prepare for, withstand, and 2) DHS. 2010. ''Department of Homeland Security Risk Lexicon," September 201
  1 KB (185 words) - 21:58, 2 May 2024
• system-of-interest
  <blockquote>''(2) The system of interest to an observer.'' (Bertalanffy 1968)</blockquote> (2) von Bertalanffy, L. 1968. ''General system theory: Foundations, developmen
  1 KB (166 words) - 22:38, 2 May 2024
• integrity
  [2] Degree to which a system or component prevents unauthorized access to, or [2]ISO/IEC. 2011. ''Systems and Software Engineering - Systems and Software Qu
  829 bytes (105 words) - 22:54, 2 May 2024
• scope
  <blockquote>(2) ''Work to be performed under a contract or subcontract in the completion o (2) BusinessDictionary.com, s.v. "Scope." Available online at: http://www.busi
  1 KB (180 words) - 22:14, 2 May 2024
• concurrently
  <blockquote>(2) ''A problem, process, system, or application in which many activities are (1) and (2) ISO/IEC/IEEE. 2010. ''Systems and Software Engineering - System and Softwa
  930 bytes (115 words) - 21:45, 2 May 2024
• project management
  <blockquote>(''2) The collection of work activities concerned with planning and estimating, (2) Fairley, R.E. 2009. ''[[Managing and Leading Software Projects]]''. Hoboke
  843 bytes (114 words) - 23:01, 2 May 2024
• decision gate
  <blockquote>''(2) A preplanned management event in the project cycle to demonstrate accompli ...ook|Systems Engineering Handbook]], version 3.2.2. INCOSE-TP-2003-002-03.2.2.
  1 KB (177 words) - 22:33, 2 May 2024
• product system
  <blockquote>(2) ''A system considered from the point of view of a physical “system end p (2) This definition was extended from: ISO/IEC. 2008. Systems and Software Eng
  1 KB (190 words) - 22:25, 2 May 2024
• agile
  ''<blockquote>(2) Project execution methods can be described on a continuum from “adaptive ...rnational Council on Systems Engineering (INCOSE). INCOSE-TP-2003-002-03.2.2.
  904 bytes (113 words) - 23:19, 2 May 2024
• praxis
  <blockquote>''(2) In praxis there can be no prior knowledge of the right means by which we r (2) Bernstein, R.J. (1983). Beyond Objectivism and Relativism: Science, hermen
  2 KB (227 words) - 22:01, 2 May 2024
• abstraction
  <blockquote>(2) ''The process of formulating a view.'' (ISO/IEC 2010) </blockquote> (1)-(2) ISO/IEC. 2010. ''Systems and Software Engineering Vocabulary (SEVocab)''
  1 KB (127 words) - 21:59, 2 May 2024
• systems thinking
  ''<blockquote>(2) A process of discovery and diagnosis – an inquiry into the governing pro (2) & (3) Senge, P.M. 1990. ''The fifth discipline: The Art & Practice of the
  1 KB (193 words) - 22:40, 2 May 2024
• chaos
  <blockquote>''(2) A chaotic system has elements which are not interconnected and behave rand (1) and (2) ''Oxford English Dictionary''. s.v. "Chaos."
  1 KB (198 words) - 22:02, 2 May 2024
• architecting
  <blockquote>(2) ''The architecting process sometime involves the use of heuristics to esta (2) Rechtin, E. 1990. ''Systems Architecting: Creating & Building Complex Syst
  1 KB (120 words) - 21:54, 2 May 2024
• demonstration
  <blockquote>''(2) A qualitative exhibition of functional performance against a set of test a (2) This definition was developed for the SEBoK.
  1 KB (141 words) - 22:23, 2 May 2024
• behavioral architecture
  <blockquote> (2) ''A set of inter-related scenarios.'' (Created for SEBoK)</blockquote> (2) This definition was developed for the SEBoK.
  2 KB (201 words) - 23:06, 2 May 2024
• technical performance measure (tpm)
  ''<blockquote>(2) A product design assessment, which estimates, through engineering analysis (2) BMP. 2012. "2.8 Risk Monitoring." Accessed September 13, 2012. Available at: http://www.b
  989 bytes (130 words) - 22:11, 2 May 2024
• maintainability
  <blockquote>(2) ''The American Society for Quality uses this definition. "Maintainability (2) American Society for Quality. 2011. "Glossary: Maintainability." Accessed
  1,018 bytes (134 words) - 23:10, 2 May 2024
• risk
  ''<blockquote>(2) In the domain of catastrophic risk analysis, such as for terrorist attacks ...sition University (DAU)/U.S. Department of Defense, Fifth Edition, Version 2.
  2 KB (310 words) - 22:34, 2 May 2024
• specialty engineering
  <blockquote>''(2) The collection of those narrow disciplines that are needed to engineer a c (2) Elowitz, M. 2006. "Specialty Engineering as an Element of Systems Engineer
  1 KB (151 words) - 22:23, 2 May 2024
• life cycle process
  <blockquote>(2) ''Life cycle: evolution of a system, product, service, project or other hu (1) and (2) ISO/IEC. 2008. ''Systems and Software Engineering -- System Life Cycle Pro
  1,023 bytes (124 words) - 22:03, 2 May 2024
• software engineering
  <blockquote>(2) ''The study of approaches as in (1).'' (IEEE 1990)</blockquote> (1) and (2) IEEE. 1990. ''IEEE Standard Glossary of Software Engineering Terminology.'
  1 KB (149 words) - 22:06, 2 May 2024
• viable
  (1) & (2) Oxford English Dictionary, 2013., s.v. "viable." (1) and (2) are dictionary definitons which illustrate the two basic ideas of able to
  1 KB (145 words) - 22:32, 2 May 2024
• form, fit, function, and interface (f3i)
  <blockquote>(2) ''A mechanism to link design to performance requirements; i.e., replacing (2) DoD. 2004. ''Guidelines for Engineering, Manufacturing and Maintenance Doc
  1 KB (164 words) - 23:00, 2 May 2024
• synergy
  <blockquote>'' (2) A construct or collection of different elements working together to produc (2) Blanchard, B. 2004. ''System Engineering Management,'' p. 8. Hoboken, N, U
  2 KB (245 words) - 22:11, 2 May 2024
• physical architecture
  <blockquote>(2) ''An arrangement of physical elements which provides the design solution f (2) ISO/IEC. 2007. ''Systems and Software Engineering -- Recommended Practice
  2 KB (221 words) - 22:47, 2 May 2024
• lean systems engineering (lse)
  ''<blockquote>(2) Lean Systems Engineering (LSE) is the area of synergy between lean thinki ...rnational Council on Systems Engineering (INCOSE), INCOSE-TP-2003-002-03.2.2.
  1 KB (150 words) - 21:59, 2 May 2024
• operational scenario
  ''<blockquote>(2) A set of actions or functions representing the dynamic of exchanges betwee (2) and (3) These definitions were developed for the SEBoK.
  1 KB (162 words) - 22:47, 2 May 2024
• function
  <blockquote>(2)'' An action, a task, or an activity performed to achieve a desired outcome (2) Hitchins, D. 2007. ''Systems Engineering: A 21st Century Systems Methodolo
  2 KB (254 words) - 22:36, 2 May 2024
• mean sea level
  <blockquote>(2)''The average height of the surface of the sea at a tide station for all st ...sea level in a global context differs from a global geoid by not more than 2 m.
  1 KB (178 words) - 22:17, 2 May 2024
• concurrent
  <blockquote>''(2) Meeting or tending to meet at the same point; being in accordance; harmoni (1) and (2) Oxford English Dictionary. s.v. "Concurrent."
  2 KB (254 words) - 21:50, 2 May 2024
• effectiveness
  <blockquote>''(2) A combination of performance (how well a function is done in ideal conditi (2) is the systems engineering definiton, relating effectiveness to achieving
  1 KB (176 words) - 22:08, 2 May 2024
• complexity
  <blockquote>''(2) The degree to which a system's design or code is difficult to understand b (2) ISO/IEC. 2009. "Systems and Software Engineering Vocabulary (SEVocab)" - I
  2 KB (266 words) - 23:12, 2 May 2024
• structure
  <blockquote>(2) ''(Data structure) a physical or logical relationship among data elements, ...uperclass and one of its more specific, immediate subclasses.'' (IEEE 1320.2-1998)</blockquote>
  1 KB (170 words) - 22:15, 2 May 2024
• governance
  ...ganizations [or systems] are directed and controlled.'' (ISO/IEC 2008, 1.6.2) </blockquote> <blockquote>(2) ''Organizational chains of responsibility, authority, and communication fo
  1 KB (170 words) - 22:39, 2 May 2024
• reverse engineering
  <blockquote>''(2) The reverse engineering process applied to a product, service or enterpris (1) and (2) These definitions were developed for the SEBoK.
  1 KB (194 words) - 23:12, 2 May 2024
• geodesic or geodesic line
  ...d (0, 180) are joined by four separate geodesic [2 polar (the shorter) and 2 equatorial]. The exponential map is only guaranteed to be one-to-one for a <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  1 KB (173 words) - 22:50, 2 May 2024
• cohesion
  <blockquote>(2) ''The manner and degree to which the tasks performed by a single software (2) ISO/IEC/IEEE. 2010. ''Systems and Software Engineering - System and Softwa
  1 KB (181 words) - 21:53, 2 May 2024
• interface
  <blockquote>''2. A hardware or software component that connects two or more other component (1) and (2) ISO/IEC. 1993. Information technology--Vocabulary--Part 1: Fundamental ter
  1 KB (157 words) - 23:00, 2 May 2024
• control
  <blockquote>''(2) In engineering, the monitoring of system output to compare with expected o (1) and (2) ISO/IEC/IEEE. 2010. ''Systems and Software Engineering -- Vocabulary (SEVo
  2 KB (261 words) - 21:45, 2 May 2024
• meta-model
  ...ts a valid instance of Vm that is a description of Vm itself.'' (IEEE 1320.2-1998 (R2004) IEEE Standard for Conceptual Modeling Language Syntax and Sema ...474-1:2002 Information technology -- CDIF framework -- Part 1: Overview, 4.2)</blockquote>
  3 KB (380 words) - 22:19, 2 May 2024
• legacy system
  <blockquote>(2) ''A legacy system is an old method, technology, computer system, or applic (2) Wikipedia contributors. "Legacy system." ''Wikipedia'', The Free Encyclope
  1 KB (192 words) - 23:13, 2 May 2024
• Systems Research Framework, A Guide to Systems Research
  <blockquote>Kineman, J.J. 2017. Chapter 2, ''Systems Research Framework, A Guide to Systems Research''. Springer.</bl <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  363 bytes (46 words) - 22:41, 2 May 2024
• robustness
  [2] the ability to resist capability degradations under adverse conditions. Br [2] Brtis, John. 2016. How to Think About Resilience in a DoD Context. Colorad
  1 KB (162 words) - 22:58, 2 May 2024
• opportunity
  <blockquote> (2) ''an outcome better than expected; a less negative outcome; a positive out (2) Conrow, E. 2003. ''Effective Risk Management: Some Keys to Success.'' 2nd
  2 KB (261 words) - 22:32, 2 May 2024
• An Enterprise Framework for Operationally Effective System of Systems Design
  ...ctive System of Systems Design.” ''Journal of Enterprise Architecture'', 8(2), May 2012.</blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  399 bytes (46 words) - 21:45, 2 May 2024
• adaptability
  <blockquote>(2) ''Attributes of software that bear on the opportunity for its adaptation t (2) INCOSE. 1998. INCOSE SE Terms Glossary. In: I''NCOSE Concepts and Terms,''
  2 KB (278 words) - 23:11, 2 May 2024
• Reliability Engineering Handbook
  <blockquote>Kececioglu, D. 1991. ''Reliability Engineering Handbook,'' Vol 2. Upper Saddle River, NJ: Prentice Hall.</blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  461 bytes (55 words) - 22:51, 2 May 2024
• homeostasis
  <blockquote>(2) ''A Homeostatic system state is one where the system is static but its ele (2) is theoretical system science definition which applies to all system, cond
  1 KB (185 words) - 21:52, 2 May 2024
• Hubble Space Telescope Case Study (reference)
  ..." Ft. Belvoir, VA: Defense Acquisition University (DAU). Last modified May 2, 2005. Accessed on November 27, 2012. Available at https://acc.dau.mil/adl/ <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  544 bytes (69 words) - 22:39, 2 May 2024
• Systems Engineering Principles Revisited
  ....” Proceedings of the 14th INCOSE International Symposium, Session 6 Track 2: Researching SE Methodologies & Approaches in SE Research, Toulouse, France <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  432 bytes (49 words) - 23:14, 2 May 2024
• Development of SEBoK v. 1.9.1
  ! colspan="2" |BKCASE Editor in Chief ! colspan="2" |SEBoK Part 2: Systems
  6 KB (819 words) - 22:36, 8 March 2024
• Designing Software for Ease of Extension and Contraction
  ...nsion and Contraction." IEEE ''Transactions on Software Engineering'' SE-5(2): 128-138. </blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  493 bytes (63 words) - 22:14, 2 May 2024
• functional redundancy
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  466 bytes (57 words) - 21:50, 2 May 2024
• life cycle
  <blockquote>''(2) The evolution of a system, product, service, project or other human-made e (2) ISO/IEC/IEEE. 2015. ''[[ISO/IEC/IEEE 15288|Systems and Software Engineeri
  1 KB (185 words) - 22:25, 2 May 2024
• product
  <blockquote>(2) ''An artifact that is produced, is quantifiable, and can be either an end ...lementary Guidance to the INCOSE Systems Engineering Handbook''. Version 3.2, issue 1.0. Foresgate, UK: International Council on Systems Engineering (IN
  1 KB (191 words) - 23:20, 2 May 2024
• principle
  <blockquote>2) '' a rule or belief governing one’s behavior.'' (Oxford Dictionaries Onl (1) and (2) Oxford Dictionaries Online S.v. "Principle" Accessed February 20, 2012. A
  1 KB (208 words) - 23:18, 2 May 2024
• entropy
  <blockquote>''(2) Lack of order or predictability; gradual decline into disorder.'' (Oxford (1) & (2) Oxford English Dictionary. 2012. s.v. "Entropy."
  1 KB (211 words) - 21:55, 2 May 2024
• component
  <blockquote>(2) ''One of the parts that make up a system.'' (IEEE 2008)</blockquote> (2) IEEE. 2008. "IEEE Standard for Software and System Test Documentation". In
  1 KB (184 words) - 22:37, 2 May 2024
• human in the loop
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  438 bytes (55 words) - 22:57, 2 May 2024
• Stewards
  | colspan="2" style="background-color: #ffffff" |[[File:Stevens-Official-PMSColor-R.png|
  555 bytes (62 words) - 21:18, 2 May 2024
• process
  <blockquote>''(2) A set of activities, methods, practices, and transformations that people u ...''Capability maturity model integrated (CMMI) for development'', version 1.2, Pittsburg, PA, USA: Software Engineering Institute (SEI)/Carnegie Mellon U
  2 KB (197 words) - 23:08, 2 May 2024
• measure
  <blockquote>(2)'' To ascertain a quantitative or qualitative value for an entity based on (2) PSM. 2010. ''Practical Software and Systems Measurement: A Foundation for
  1 KB (191 words) - 22:30, 2 May 2024
• reparability
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  503 bytes (64 words) - 23:10, 2 May 2024
• service systems engineering
  <blockquote>''(2) A multidiscipline that addresses a service system from a life-cycle, cyber (2) Tien, J.M and D. Berg. 2003. "A Case for Service Systems Engineering." ''J
  2 KB (243 words) - 23:16, 2 May 2024
• Towards a conceptual framework for resilience engineering
  ...nstitute of Electrical and Electronics Engineers (IEEE) Systems Journal, 3(2), 181-191. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  645 bytes (78 words) - 22:27, 2 May 2024
• A Multidisciplinary Framework for Resilience to Disasters and Disruptions
  ...and Disruptions." ''Journal of Integrated Design and Process Science.'' 11(2): 91-108.</blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  597 bytes (73 words) - 22:14, 2 May 2024
• engineering
  <blockquote>(2) ''To (cleverly) arrange for something to happen. '' (Checkland 1999)</bloc <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  592 bytes (70 words) - 21:45, 2 May 2024
• prototype
  (1) and (2) Forsberg, K., H. Mooz, H. Cotterman. 2005. ''[[Visualizing Project Managem
  2 KB (226 words) - 22:52, 2 May 2024
• Leading Change
  ...Change: Why Transformation Efforts Fail." ''Harvard Business Review''. 73(2): 59-67. Accessed 21 May 2014. Available at: http://hbr.org/2007/01/leading <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  659 bytes (72 words) - 22:15, 2 May 2024
• failure
  ...nability to perform within previously specified limits.'' (ISO/IEC 2005, 4.2) </blockquote> <blockquote>(2) ''An event in which a system or system component does not perform a requir
  2 KB (205 words) - 21:54, 2 May 2024
• Development of SEBoK v. 1.8
  The Editorial Board for v. 1.8 is listed in Tables 2, 3, and 4 below. <center>'''Table 2. SEBoK v. 1.8 Leadership.''' (SEBoK Original)</center>
  7 KB (959 words) - 22:36, 8 March 2024
• Resilience Principles for Engineered Systems
  Jackson, S., & Ferris, T. (2013). Systems Engineering, 16(2), 152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  654 bytes (80 words) - 22:04, 2 May 2024
• engineered system
  ...em Context (glossary)]] .'' (Created for SEBoK)</blockquote><blockquote>''(2) An engineered system is a system designed or adapted to interact with an a (2) INCOSE Fellows Briefing to INCOSE Board of Directors, January 2019.
  3 KB (367 words) - 22:54, 2 May 2024
• On the Systems Engineering and Management of Systems of Systems and Federations of Systems
  ...rations of Systems". ''Information-Knowledge-Systems Management Journal.'' 2(4) (December 2001): 325-45. </blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  509 bytes (61 words) - 22:56, 2 May 2024
• hierarchy
  ''<blockquote>(2) Organisation of system elements into groups of (sub-)system wholes, based (2) Simon, H.A. 1962. "The Architecture of Complexity." ''Proceedings of the A
  2 KB (354 words) - 22:20, 2 May 2024
• Development of SEBoK v. 1.9
  The Editorial Board for v. 1.9 is listed in Tables 2, 3, and 4 below. <center>'''Table 2. SEBoK v. 1.9 Leadership.''' (SEBoK Original)</center>
  7 KB (953 words) - 22:36, 8 March 2024
• system
  <blockquote>''(2) combination of interacting elements organized to achieve one or more state (2) ISO/IEC/IEEE. 2015. ''[[ISO/IEC/IEEE 15288|Systems and Software Engineerin
  3 KB (447 words) - 23:14, 2 May 2024
• modularity
  <blockquote>(2) Software attributes that provide a structure of highly independent compone (2) ISO/IEC/IEEE. 2009. ''Systems and Software Engineering - System and Softwa
  2 KB (225 words) - 22:20, 2 May 2024
• output
  <blockquote>(2) ''Pertaining to a device, process, or channel involved in transmitting dat (2) ISO/IEEE. 2009. ''Systems and Software Engineering Vocabulary (SEVocab)''
  2 KB (233 words) - 21:55, 2 May 2024
• enterprise
  <blockquote>(2) ''An organization (or cross organizational entity) supporting a defined bu (2) CIO Council. 1999. ''Federal Enterprise Architecture Framework (FEAF)''. W
  3 KB (458 words) - 23:18, 2 May 2024
• system of systems (sos)
  <blockquote>''(2) an assemblage of components which individually may be regarded as systems, (2) Maier, M. W. 1998. "Architecting principles for systems-of-systems." ''Sys
  2 KB (244 words) - 22:55, 2 May 2024
• Creating Systems That Work
  ...st Century''. London, UK: Royal Academy of Engineering. Accessed September 2, 2011. Available at http://www.raeng.org.uk/education/vps/pdf/RAE_Systems_R <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  682 bytes (95 words) - 21:57, 2 May 2024
• encapsulation
  <blockquote>''(2) A software development technique that consists of isolating a system funct (2) IEEE. 1990. ''Standard Glossary of Software Engineering.'' Washington, DC,
  2 KB (252 words) - 22:35, 2 May 2024
• internode interaction
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  570 bytes (69 words) - 22:17, 2 May 2024
• derived requirement
  (2) INCOSE. 1998. ''INCOSE SE Terms Glossary,'' version 0. Accessed September <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  591 bytes (72 words) - 21:51, 2 May 2024
• functional architecture
  ...ed by BKCASE] for the v1.0 (2012) Logical Architecture article; Definition 2 developed by C. Singam for the v2.10 Functional Architecture article. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  2 KB (243 words) - 21:53, 2 May 2024
• set-based design
  ...les robust system design by 1) considering a large number of alternatives, 2) using experts who design from their own perspectives and use the intersect <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• enterprise architecture
  (2) ''A strategic information asset base, which defines the business, the info (2) CIO Council. 1999. ''Federal Enterprise Architecture Framework (FEAF)''. W
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• set driver
  ...et-Based Design in Trade-off Analytics.” ''Naval Engineers Journal.'' 130 (2): 51-62. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• ellipsoid
  ...an ellipsoid of revolution where the rotation is about the polar axis, or (2) a reference ellipsoid, which is a geometric reference surface embedded in * For definition (2):
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• Development of SEBoK v. 2.0
  ==Version 2.0 Updates== This is a major release of the SEBOK. Version 2.0 has the following updates:
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• Group Dynamics
  ...oughout useful and appropriate (1) definitions of the terms and concepts, (2) illustrations, and (3) references associated with the study of group dynam <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• body of knowledge
  <blockquote>''(2) Identifies that subset of the project management body of knowledge general (2) PMI. 2013. ''[[A Guide to the Project Management Body of Knowledge|A Guide
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• model
  <blockquote>(2) ''A representation of one or more concepts that may be realized in the phy (2) Friedenthal, S., A. Moore, R. Steiner, and M. Kaufman. 2012. ''A Practical
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• stakeholder
  <blockquote>(2) ''Individual or organization having a right, share, claim, or interest in (2) ISO/IEC. June 2010. ''Software and Systems Engineering -- Life Cycle Proce
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• binding
  <blockquote>''(2) Static binding is done '''once''' and then the relationship remains unchan <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• project
  <blockquote>(2) ''a development effort consisting of both technical and management activit (2) ANSI/EIA. 2003.''Processes for Engineering a System''. Philadelphia, PA, U
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• cyber-physical systems
  <blockquote>''(2) ... in the past the science of computation has systematically abstracted a (2) L. Sha, S. Gopalakrishnan, X. Liu and Q. Wang. "Cyber-Physical Systems: A
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• Defining a Strategy for Development of Systems Capability in the Workforce
  ...pment of Systems Capability in the Workforce." ''Systems Engineering.'' 14(2) (Summer, 2011): 141-143. </blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Enterprise as Systems: Essential Challenges and Enterprise Transformation
  ...ial Challenges and Enterprise Transformation." ''Systems Engineering''. 8 (2): 138-150. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• System Safety
  ...ngton, VA, USA: Department of Defense (DoD). MIL-STD 882E. Accessed April 2, 2021. Available at http://everyspec.com/MIL-STD/MIL-STD-0800-0899/MIL-STD- ...orce Instruction 91-202. Washington, DC, USA: US Air Force. Accessed April 2, 2021. Available https://static.e-publishing.af.mil/production/1/af_se/publ
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• capability
  <blockquote>(2) ''The ability to execute a specified course of action. It is defined by a (1) DoD. 2009. ''DoD Architecture Framework (DoDAF)'', version 2.0. Washington, DC, USA: U.S. Department of Defense (DoD).
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• Development of SEBoK v. 1.6
  ...stems Engineering and Specialty Engineering KA (further renamed in version 2.4 as [[Systems Engineering and Quality Attributes]]), as well as a number o The Editorial Board for v. 1.6 is listed in Tables 2, 3, and 4 below.
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• set modifiers
  ...et-Based Design in Trade-off Analytics.” ''Naval Engineers Journal.'' 130 (2): 51-62. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• SEBoK Introduction
  ...es Systems Engineering knowledge areas, the remaining SEBoK content (Parts 2 – 6) focuses on domain-independent information—that which is universal ...for the SEBoK, though general systems concepts are also discussed in Part 2. The SEBoK also covers considerations for the disciplines of software engin
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• Development of SEBoK v. 1.7
  The Editorial Board for v. 1.7 is listed in Tables 2, 3, and 4 below. <center>'''Table 2. SEBoK v. 1.7 Leadership.''' (SEBoK Original)</center>
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• Development of SEBoK v. 1.5
  The Editorial Board for v. 1.5 is listed in Tables 2, 3, and 4 below. <center>'''Table 2. SEBoK v. 1.5 Leadership.''' (SEBoK Original)</center>
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• Development of SEBoK v. 1.1
  *Fourteen topic articles were updated in Parts 1, 2, 3, and 6, for the purpose of expanding or improving the explanation of the ==SEBoK Version 1.1.2==
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• Development of SEBoK v. 2.4
  ! colspan="2" |SEBoK Part 2: Foundations of Systems Engineering | colspan="2" |<center>'''Lead Editor: [[User:Gsmith|Gary Smith]] (UK)'''
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• dualism
  <blockquote>''(2) In the history of thought, the idea that, for some particular domain, ther <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• System-of-Systems Engineering Management: A Review of Modern History and a Path Forward
  ...A Review of Modern History and a Path Forward." IEEE ''Systems'' Journal, 2(4), December 2008. </blockquote>'' <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• value
  <blockquote>(2) ''Numerical or categorical result assigned to a base measure, derived meas ...n. A value system is a set of consistent values and measures. (Wikipedia) (2) Values are the principles or standards of behavior. The things to which w
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• tolerance
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• absorption
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Development of SEBoK v. 2.8
  ! colspan="2" |SEBoK Part 2: Foundations of Systems Engineering | colspan="2" |<center>'''Lead Editor: [[User:Gsmith|Gary Smith]] (UK)'''
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• pattern
  <blockquote>'' (2) A representation of similarities in a set or class of problems, solutions, <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Development of SEBoK v. 2.1
  == Content and Feature Updates for v. 2.1 == This section provides a summary of changes for SEBoK v. 2.1. See [[Letter from the Editor|letter from the Editor]] for a wider discus
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• Development of SEBoK v. 1.2
  ==Content and Feature Updates for v. 1.2== Changes between versions 1.1.2 and version 1.2 included:
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• Governance and Editorial Boards
  ! colspan="2" |SEBoK Part 2: Foundations of Systems Engineering | colspan="2" |<center>[[File:Gary Smith.jpg|150px]]
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• complex
  <blockquote>(2) ''An adjective describing a system or component that has a design or imple <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  891 bytes (109 words) - 22:19, 2 May 2024
• inter-node interaction
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• leader
  ...nition of Leadership." ''International Journal of Leadership Studies,'': 1(2):6-66. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Development of SEBoK v. 2.2
  == Content and Feature Updates for v. 2.2 == This section provides a summary of changes for SEBoK v. 2.2. See [[Letter from the Editor|letter from the Editor]] for a wider discussi
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• operations research
  ...l. It arises from military planning techniques developed during World War 2.</blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Development of SEBoK v. 2.3
  == Content and Feature Updates for v. 2.3 == ...Nature of Systems in Part 2/Systems Science/ provided by Gary Smith (Part 2 Lead Editor)
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• Matrix of Implementation Examples
  ! scope="col" colspan="2" | Case Studies Table 2 shows how the topics (each row) align with the first set of implementation
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• architecture
  <blockquote>(2) ''The organizational structure of a system or component; the organizationa ...in the principles of its design and evolution.'' (ISO/IEC 2011, section 3.2) </blockquote>
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• validation
  <blockquote>(2) ''The assurance that a product, service, or system meets the needs of the (2) PMI. 2013. ''[[A Guide to the Project Management Body of Knowledge|A Guide
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• systemist
  ...ranches of the system landscape, Les editions Allegro Brigitte D. ISBN 978-2-9538007-1-5. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• System Life Cycle Approaches
  ...f the [[Applying the Systems Approach|systems approach]] discussed in Part 2 and is used to establish a basis for the KAs in Part 3 and Part 4 of the SE ...down into its basic elements, which in this case are systems as well (SoI 2 and SoI 3). These two systems are composed of {{Term|System Element (glossa
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• Systems Science
  ...discussed in the [[Foundations of Systems Engineering|Introduction to Part 2]]. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Structure of the SEBoK
  ===Part 2: [[Foundations of Systems Engineering]]=== Part 2 looks in more detail at two aspects of this foundational knowledge of parti
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• Systems Approach Applied to Engineered Systems
  ...discussed in the introduction to [[Foundations of Systems Engineering|Part 2: Foundations of Systems Engineering]]. ...ed from the elements of the systems approach, as described earlier in Part 2 of the SEBoK, and is mapped to the articles [[Concepts of Systems Thinking]
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• verification
  <blockquote>(2) ''The evaluation of whether or not a product, service, or system complies (2) PMI. 2013. ''[[A Guide to the Project Management Body of Knowledge|A Guide
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• engineering change management
  <blockquote>''2. Engineering Change: An alteration in the configuration of a configuration <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• integrated product team (ipt)
  <blockquote>(2) ''An interdisciplinary team'' (Created for SEBoK).</blockquote> <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Development of SEBoK v. 1.4
  ...er knowledge sources which underpin and enable good SE practice. The Part 2 [[Foundations of Systems Engineering|Introduction]] and [[What is a System? |Part 2
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• Systems of Systems
  *[[Use Case 2: Other Engineers]] <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Development of SEBoK v. 1.3
  ==Content and Feature Updates for v. 1.3.2== Version 1.3.2 fixes a number of broken links caused by changes to the INCOSE website.
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• input
  <blockquote>(2) ''Pertaining to a device, process, or channel involved in receiving data f <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• NASA Systems Engineering Handbook
  ...ts of six core chapters: (1) systems engineering fundamentals discussion, (2) the NASA program/project life cycles, (3) systems engineering processes to <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• team
  ...project. Team members (1) operate with a high degree of interdependence, (2) share authority and responsibility for self-management, (3) are accountabl <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• drift correction
  ..."Resilience Principles for Engineered Systems." Systems Engineering 16 (2):152-164. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• risk management
  <blockquote>''(2) an organized means of identifying and measuring risk (risk assessment) and <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• ethics
  <blockquote>(2)''The rules of conduct recognized in respect to a particular class of human <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Relevant Standards
  Table 2 contains a summary of SE related standards. This table does not include al |+'''Table 2. Summary of Systems Engineering Standards.''' (SEBoK Original)
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• Development of SEBoK v. 2.6
  *Parts 2 and 3 - the foundations of systems engineering and systems engineering appr ...wiki and will carry forward any comments still under discussion in version 2.6.
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• Managing and Leading Software Projects
  ...of managing and leading engineering projects: 1) planning and estimating; 2) measuring and controlling; 3) risk management; and 4) leading, motivating, <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• systems engineering
  <blockquote>(2) ''An interdisciplinary approach and means to enable the realization of suc ...rnational Council on Systems Engineering (INCOSE), INCOSE-TP-2003-002-03.2.2.
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• Development of SEBoK v. 2.9
  *A new article on [[System Security]] that replaces the one found in SEBoK 2.8 ...e [[An Overview of the SWEBOK Guide]] that replaces the one found in SEBoK 2.8
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• acceptance sampling
  ...onal Standards Organization (ISO)/American Society for Quality(ASQ) :A3534-2-1993. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• enterprise systems engineering (ese)
  (2) "The body of knowledge for enterprise systems engineering is evolving unde <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Systems Thinking
  ...discussed in the [[Foundations of Systems Engineering|Introduction to Part 2]]. ...ternational Council on Systems Engineering (INCOSE), INCOSE-TP-2003-002-03.2.1.
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• NASA APPEL Performance Enhancement
  ...eadership (APPEL), ''NASA APPEL Performance Enhancement''. Accessed on May 2, 2014. Available at http://appel.nasa.gov/team/request-support/.</blockquot <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Team Dynamics
  ...ns can be placed into two categories (1) socio-emotional interactions and (2) task interactions (Bales 1950, 1999). ...nterdependence can be categorized into five types (1) mutual, reciprocal; (2) unilateral; (3) reciprocal, unequal; (4) serial; and (5) multi-level. (For
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• Development of SEBoK v. 2.5
  ...wiki and will carry forward any comments still under discussion in version 2.6. ==Governing Board for version 2.5==
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• Alignment and Comparison of Systems Engineering Standards
  ...rown to include the work of the organizations and projects shown in Figure 2. These organizations are working towards the goal of completing a compleme ...e:Fig_3_Growing_Industry_Collaboration_GR.png|thumb|600px|center|'''Figure 2. Growing Industry Collaboration.''' (SEBoK Original)]]
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• Foundations of Systems Engineering
  Part 2 of the Guide to the SE Body of Knowledge (SEBoK) is a guide to foundational ..._Inner_P2_Ifezue_Obiako.png|centre|thumb|600x600px|'''Figure 1. SEBoK Part 2 in context (SEBoK Original).''' For more detail see[[Structure of the SEBoK
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• Implementation Examples
  ...ty. Although a so-called quad chart is likely an oversimplification, a 2 x 2 array can be used to make a first-order characterization, as shown in Figur <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Model-Based Systems Engineering Adoption Trends 2009-2018
  ...o called IPO) diagrams, N2 diagrams, functional flow block diagrams, etc., 2) Object-oriented tools that implement the Object Management Group’s Syste Each survey was sent to a diverse group of MBSE practitioners. Table 2 shows that of the 661 responses for the 2018 survey, 410 indicated their co
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• Standard Korean Light Transit System
  ...|Milestone (glossary)|milestone}}), depicted as a colored circle in Figure 2. These EDPs correspond to common life cycle artifacts such as requests for [[File:ChoeKimFigure2.png|thumb|center|600px|'''Figure 2. 7 phases of the SKLTS development (Ahn 2005).''' Reprinted with permission
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• Relationships between Systems Engineering and Project Management
  ...t manager and the systems engineer on a given project. As shown in Figure 2, on some projects there is no overlap in responsibility. On other projects [[File:PM-SE2.jpg|600px|thumb|center|'''Figure 2. Overlap of Project Roles.''' (SEBoK Original)]]
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• qualification
  .... 2011. Systems Engineering Handbook, version 3.2.1. INCOSE-TP-2003-002-03.2.1. (2) Mooz, H., K. Forsberg, K., H. Cotterman. 2003. ''Communicating Project Man
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• System Life Cycle Process Drivers and Choices
  ...ing of each model is shown in Figure 1 below in terms of the increment (1, 2, 3, …) content with respect to the definition (Df), development (Dv), and ...t development stabilized. An example and discussion are provided in Table 2, below.
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• Requirements Management
  ...ital Engineering|digital engineering]] ecosystem, as highlighted in Figure 2; this ability helps to maximize the ability to ensure consistency with othe [[File:Figure ReqtMgt-2 NRM Figure 16-1.jpg|thumb|700px|center|'''Figure 2. Requirement Management Tool as part of a Project's Digital Ecosystem.''' T
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• Development of SEBoK v. 2.10
  ==Governing Board for version 2.10== ==Editorial Board for version 2.10==
  18 KB (2,611 words) - 12:09, 6 May 2024
• System Detailed Design Definition
  ==== 2. Establish design characteristics and design enablers related to each syste Some proven practices gathered from the references are provided in Table 2.
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• SEBoK Table of Contents
  ==[[Foundations of Systems Engineering|Part 2: Foundations of Systems Engineering]]== <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Reverse Engineering a UAV Prototype using Agile Practices
  ...complete. A user story is broken into tasks such as those shown in Figure 2. These templates were developed to understand the scope of each task and w [[File:UAV_Figure_2.png|thumb|center|388px|'''Figure 2. User Story Templates and Task Templates for Consistent Development''' (Ma
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• Scope of the SEBoK
  ...nvironmental considerations (see [[Foundations of Systems Engineering|Part 2]]) |2
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• Acronyms
  |colspan="2"|'''A''' (2) Assembling, Integrating, and Testing
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• Set-Based Design
  ...les robust system design by 1) considering a large number of alternatives, 2) establishing feasibility before making decisions, and 3) using experts who ...and relaxing requirements on the feasible tradespace. For example, Figure 2 demonstrates the effects of constraining or relaxing requirements of an unm
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• The Influence of Project Structure and Governance on Systems Engineering and Project Management Relationships
  ...systems engineering. These alternatives are illustrated in Figures 1 and 2 of the Organizing the Team section in [[Team Capability#Organizing the Team ...tions can be: (1) distributed among some of the functional organizations, (2) centralized within one organization or (3) a hybrid, with some of the func
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• Cycles and the Cyclic Nature of Systems
  [[File:One Spin of the Holon.jpg|thumb|500px|center|'''Figure 2. One Spin of the Holon – the Four Phases of System Engineering'''. An int ...ranches of the system landscape, Les editions Allegro Brigitte D. ISBN 978-2-9538007-1-5.
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• System Realization
  Figure 2 illustrates a macro view of generic outputs from realization activities whe [[File:JS_Figure_2.png|thumb|600px|center|'''Figure 2. The Vee Activity Diagram (Prosnik 2010).''' Released by the Defense Acquis
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• Development of SEBoK v. 2.7
  ==Governing Board for version 2.7== ==SEBoK v. 2.7 Editorial Board==
  18 KB (2,654 words) - 21:54, 2 May 2024
• Systems Engineering Fundamentals
  ...gineering}} (SE) as discussed in [[Foundations of Systems Engineering|Part 2: Foundations of Systems Engineering]]. ...ranches of the system landscape, Les editions Allegro Brigitte D. ISBN 978-2-9538007-1-5.
  9 KB (1,300 words) - 22:03, 2 May 2024
• node
  <blockquote>''(2) Configuration of engineering objects forming a single unit for the purpose ...tandard for Functional Modeling Language - Syntax and Semantics for IDEF0, 2.1.80)</blockquote>
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• Software Engineering Features - Models, Methods, Tools, Standards, and Metrics
  ...he table is not meant to be complete; it simply provides examples. In Part 2 of the SEBoK there is a [[Representing Systems with Models|discussion of mo ...by the repeated reference to measurement and metrics in the SWEBOK. Table 2 describes software metrics that are collected and used in different areas o
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• Manufacturability and Producibility
  ...s available at https://www.youtube.com/watch?v=6b29TW05o0o, Accessed April 2, 2021. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
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• Socio-technical Systems
  2)     Agent-Based Modeling of Sociotechnical Systems in Systems Engineerin ...cio-technical systems thinking: A call for bravery. Applied ergonomics, 45(2), pp.171-180.
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• Enabling Systems Engineering
  ...about the different types of enterprises, see [[Types of Systems]] in Part 2. ...lacking a traditional business structure. [[Groupings of Systems]] in Part 2 discusses the Directed SoS to which the traditional business may be equival
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• Systems Engineering Core Concepts
  Figure 2 below shows a usage of these constructs and symbols when applied to a simpl [[File:SE Core Concept Relationships Example.PNG|centre|frame|'''Figure 2. Example of Relationships between Concepts '''(SEBoK Original)]]
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• Applying Life Cycle Processes
  ...e stages within a life cycle model, and also applies to processes. Figure 2 below gives an example of iteration in the life cycle processes associated ...of_processes_related_to_Sys_Def_AF_052312.png|thumb|center|650px|'''Figure 2. Example of Iterations of Processes Related to System Definition (Faisandie
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• Economic Value of Systems Engineering
  ...of over-investing (often called “analysis paralysis”), as shown in Figure 2 (Boehm, Valerdi, and Honour 2008). [[File:P1_EconValueSE_RiskBalancedfig2_BB.jpg|600px|thumb|center|'''Figure 2. Risk-Balanced “How Much SE Is Enough” (Boehm, Valerdi, and Honour 2008
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• Systems Engineering Overview
  ...article [[What is a System?]] in [[Foundations of Systems Engineering|Part 2]]. The primary focus of SEBoK [[Systems Engineering and Management|Part 3: SE is performed as part of a life cycle approach. Figure 2 summarizes the main agents, activities, and artifacts involved in the {{Ter
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• Implementing and Proving a Solution
  <center>'''SEBoK v. 2.10, released 06 May 2024'''</center> [[Category:Part 2]][[Category:Topic]]
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• Configuration Management
  ...al (ECP) (glossary)|engineering change proposal}} (ECP) is shown in Figure 2 below, which is adapted from [[Systems Engineering and Analysis]] (Blanchar [[File:Cm_change_control_process.png|thumb|600px|center|'''Figure 2. Configuration Change Control Process.''' (SEBoK Original)]]
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• Modeling Standards
  ....1-1995. Available at: IEEE http://standards.ieee.org/develop/project/1278.2.html. Accessed December 4, 2014. ...Language for Physical Systems Modeling, Language Specification, Version 3.2''. Modelica Association. Available at: Modelica https://www.modelica.org/d
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• System Adaptability
  |1.2% (low) |1.2% (low)
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• Scope of Service Systems Engineering
  The SDP stages and notation are depicted in Table 2 below; due to the {{Term|Complexity (glossary)|complexity}} of service syst <center>'''Table 2. Service Realization Process: Life Cycle Stages.''' (SEBoK Original)</cente
  15 KB (2,090 words) - 23:04, 2 May 2024
• Portfolio Management
  ...ritization of business venture opportunities, investments, or necessities; 2) identification of projects; 3) allocation of project resources and budgets ...ect to one or more of the six performance management domains seen in Table 2.
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• Information Management
  ...ewed in terms of data validity, consistency, and comprehensiveness. Figure 2 provides an overview of information management considerations. [[File:ArchitectureDesignConsid_Fig2.png|thumb|center|600px|'''Figure 2. Information Management Architecture and Design Considerations.''' (SEBoK O
  16 KB (2,255 words) - 22:41, 2 May 2024
• Case Studies
  ...le. Although a so-called quad chart is likely an oversimplification, a 2 x 2 array can be used to make a first-order characterization, as shown in Figur <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  9 KB (1,239 words) - 21:44, 2 May 2024
• Overview of the Healthcare Sector
  ...hcare sector is an enormous area financially as well. For example, out of $2.87 trillion on healthcare spent in the US in 2010, the breakdown of compone |2,870
  12 KB (1,565 words) - 21:55, 2 May 2024
• Systems Engineering and Environmental Engineering
  ...gn and operation. They are: (1) design for a given operating environment, (2) environmental impact, (3) green design, and (4) compliance with environmen ...conomical, while minimizing (1) generation of pollution at the source and (2) risk to human health and the environment (EPA 2011). Green engineering emb
  13 KB (1,725 words) - 22:07, 2 May 2024
• Value of Service Systems Engineering
  ...er Service Innovation within Agile Service Networks." ''Service Science''. 2 (4): 225-244. DoD. 2010. ''DoD Architecture Framework (DoDAF)'', version 2.0. Arlington, VA, USA: US Department of Defense (DoD).
  19 KB (2,522 words) - 22:27, 2 May 2024
• Business or Mission Analysis
  2.    Collaboration with these stakeholders to understand how they are impa * Consumer-focused Measure: Finished home brew provided within 2 minutes of activation at the selected temperature. Rationale: Consumer surv
  17 KB (2,427 words) - 22:52, 2 May 2024
• Software Engineering in the Systems Engineering Life Cycle
  ...hich defines a very similar set of processes for software systems. Figure 2 shows the relationship between the Enabling, Acquisition, Project and Techn [[File:Aligned-Process-Models.PNG|centre|frame|'''Figure 2. Aligned Process Models for ISO/IEC/IEEE 15288 & 12207: 2008''' (Adapted fr
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• Agile Systems Engineering
  |2.  Plan for evolving requirements, and retain as much flexibility as is val 2. SE has a holistic system view that includes the system elements and the in
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• Overview of the Systems Approach
  ===2. Whole Lifecycle=== [[File:Ellipse Graphic J Ring.png|thumb|center|700px|'''Figure 2. Ellipse Graphic (Ring 1998).''' © 1998 IEEE. Reprinted, with permission
  19 KB (2,682 words) - 22:50, 2 May 2024
• Applying a Model-Based Approach to Support Requirements Analysis on the Thirty-Meter Telescope
  ...and align the TMT optics. Adaptive optics systems like the NFIRAOS (Figure 2) are designed to sense real-time atmospheric turbulence and correct the tel ...erTelescope_Figure2_EarlyLightLocations.png|center|thumb|<center>'''Figure 2. APS and NFIRAOS early light locations.''' (Used with permission. Permissio
  18 KB (2,483 words) - 21:53, 2 May 2024
• Procurement and Acquisition
  ...r requesting proposals from offerors for building complex systems. Figure 2 relates acquisition program elements to a representative request for propos ...A partial list of key program technical attributes is presented in Figure 2.
  19 KB (2,743 words) - 23:15, 2 May 2024
• Brief History of Systems Engineering
  [2] faculty of judgment ...stems engineering: A growing concept. Electrical Engineering. Vol. 76, no. 2, pp. 113-116. doi: 10.1109/EE.1957.6442968.
  11 KB (1,647 words) - 21:52, 2 May 2024
• Project Management for a Complex Adaptive Operating System
  ...tion, produce their own patterns of behavior over time” (Meadows, 2008, p. 2). A system cannot be understood by focusing on its parts alone (Wheatley, 1 ...ty can only be dealt with by equal or greater complexity” (Ashby, 1956, p. 2). In other words, in order to deal effectively with the diversity of proble
  15 KB (2,230 words) - 22:41, 2 May 2024
• System Resistance to Electromagnetic Interference
  ...ions standards and telecommunication development activities” (NTIA 2011, 3-2). The broad functions of the ITU are the regulation, coordination and devel ...ery complicated, as shown in the radio spectrum allocation chart in Figure 2. Sometimes, commercial entities try to use frequencies that are actually as
  14 KB (1,903 words) - 22:56, 2 May 2024
• Service Systems Engineering Stages
  ...tional), behavioral (operational), and physical design of the IT. UML, UML 2.0, and SysML are extensively used to describe operational scenarios, modes ...er Service Innovation within Agile Service Networks." ''Service Science.'' 2 (4): 225-244.
  23 KB (2,921 words) - 22:51, 2 May 2024
• Human Systems Integration
  * U.S. Army. 2015. Regulation 602-2: Human Systems Integration in the System Acquisition Process. Washington: H ...003. DoD Directive 5000.01, The Defense Acquisition System. Accessed April 2, 2021. Available at https://www.esd.whs.mil/Portals/54/Documents/DD/issuanc
  23 KB (3,230 words) - 22:15, 2 May 2024
• Stakeholder Needs Definition
  ...d as inputs into the Stakeholder Needs Definition process (shown in Figure 2). This input includes the problem, threat or opportunity statement capturi [[File:Figure StkhldrNeeds-2 SEBoK Original.jpg|thumb|900px|center|'''Figure 2.''' '''Stakeholder Needs Definition expands upon the Business or Mission An
  21 KB (3,027 words) - 23:20, 2 May 2024
• Deploying, Using, and Sustaining Systems to Solve Problems
  ...nteroperability (glossary)||interoperates}} with the systems around it and 2.) ensuring the resulting system is safe and possesses other critical {{Term ...USA: International Council on Systems Engineering. INCOSE-TP-2003-002-03.2.2.
  13 KB (1,865 words) - 21:49, 2 May 2024
• System Analysis
  ...Systems]] knowledge area (KA) of [[Foundations of Systems Engineering|Part 2]] describes activities related to selecting between possible system solutio ...ts and {{Term|Physical Architecture (glossary)|physical architectures}}); (2) determine progress in satisfying {{Term|System Requirement (glossary)|syst
  22 KB (3,136 words) - 22:42, 2 May 2024
• Team Capability
  ...er or management team, serving in a staff capacity, as indicated in Figure 2. In both cases, SE and project management must work synergistically to ach [[File:Fairley_Fig_1_(2)_Layer_1.png|thumb|400px|center|'''Figure 1. SE Team Subordinate to Project
  26 KB (3,853 words) - 22:13, 2 May 2024
• Functional Architecture
  ...e view of a SysML model, including a Use Case Diagram for a system (Figure 2), a Block Definition Diagram of hierarchical system functions (Figure 3), a [[File:2 - Automobile Use Case.bmp|thumb|900px|center|'''Figure 2. Example SysML Use Case Diagram for an Automotive System.''' (SEBoK Origina
  18 KB (2,461 words) - 22:27, 2 May 2024
• Enterprise Systems Engineering
  ...ologies and {{Term|Culture (glossary)|cultures}} of the Internet (see note 2). The discipline of SE now has the unique opportunity of providing the tool :Note 2. This new revolution is being enabled by cheap and easily usable technology
  22 KB (3,162 words) - 21:43, 2 May 2024
• Developing Individuals
  <td rowspan="2" width="25%"><b><center>PRIMARY GOAL = Delivery of excellent systems to ful ...ent of systems capability in the workforce]]". ''Systems Engineering''. 14(2): 141-143.
  19 KB (2,587 words) - 22:36, 2 May 2024
• Complex Adaptive Taxi Service Scheduler
  ...the best-known minicab (taxi) operator in London had a fleet of more than 2,000 vehicles, each with a Global Positioning System (GPS) navigation system * Occasionally more than 1,500 orders per hour (1 order every 2.4 seconds)
  19 KB (2,939 words) - 22:11, 2 May 2024
• System Architecture Design Definition
  ...behavior & interactions, logical and physical configuration items. Figure 2 illustrates the system architecture design definition approach. ...m Architecture Design Definition Approach.png|thumb|900px|center|'''Figure 2. System Architecture Design Definition Approach.''' (SEBoK Original)]]
  18 KB (2,367 words) - 23:13, 2 May 2024
• Emerging Knowledge
  ...s engineering: A growing concept," in Electrical Engineering, vol. 76, no. 2, pp. 113-116, Feb. 1957, doi: 10.1109/EE.1957.6442968. <center>'''SEBoK v. 2.10, released 06 May 2024'''</center>
  5 KB (683 words) - 22:46, 2 May 2024
• Successful Business Transformation within a Russian Information Technology Company
  ...erm|Vee (V) Model (glossary)}} (“V model”) with Stages 1 through 7 (Figure 2). ...izing this (Stage 2) transformation team defined several key areas (Figure 2) of company’s operations or activities which were supposed to be changed
  17 KB (2,525 words) - 22:46, 2 May 2024
• Logistics
  ...ctive manner over its total remaining life cycle, as illustrated in Figure 2. ...ementation_Illustration_Logistics_Roedler.jpg|thumb|center|600px|'''Figure 2. Sustainment Implementation Illustration (DAU Guidebook 2012).''' Released
  18 KB (2,434 words) - 22:56, 2 May 2024
• System Affordability
  ...nsion and Contraction]]." ''IEEE Transactions on Software Engineering''. 5(2): 128-138. ...nsion and Contraction]]." ''IEEE Transactions on Software Engineering''. 5(2): 128-138.
  10 KB (1,453 words) - 22:20, 2 May 2024
• System Security
  ...riginally appeared in SEBoK 1.0 and was periodically updated through SEBoK 2.8. |+'''Table 2.''' Los Control Objectives (Ross, Winstead, and McEvilley, 2022 - Public Do
  26 KB (3,614 words) - 22:47, 2 May 2024
• System Requirements Definition
  ...erarchy and interfaces). An example functional analysis is shown in Figure 2. [[File:Figure SysReqt-2 Original.jpg|thumb|900px|center|'''Figure 2. Example Function Analysis using a SysML Activity Diagram.''' (SEBoK Origin
  23 KB (3,256 words) - 22:49, 2 May 2024
• Vee Life Cycle Model
  ...gle-step or multistep, also known as traditional or sequential processes; (2) evolutionary sequential (or the Vee Model) and (3) evolutionary opportuni ...their purposes or activities, as shown in Figure 2 below. Replace Figure 2 with the updated figure that removes the first Exploratory stage.
  25 KB (3,555 words) - 23:02, 2 May 2024
• Socio-Technical Features of Systems of Systems
  ...alues, boundaries and the problems of language, Appl. Ergon., vol. 45, no. 2 PA, pp. 137–142. ...nd interaction design - 21st century relevance, Appl. Ergon., vol. 45, no. 2 PA, pp. 162–170.[http://www.dtic.mil/dtic/tr/fulltext/u2/a468785.pdf :/mi
  13 KB (1,901 words) - 22:21, 2 May 2024
• Lean in Healthcare
  ...ents value three levels of care: (1) survival and the degree of recovery; (2) the time required to get back to normal activities, and (3) the sustainabi |2. Over-processing
  18 KB (2,489 words) - 22:22, 2 May 2024

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