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- ...ular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...nd how this relates in detail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).4 KB (582 words) - 22:48, 2 May 2024
- ...eric SE paradigm is described; this forms a starting point for discussions of more detailed life cycle knowledge. ...rt of the SEBoK is divided into knowledge areas (KAs), which are groupings of information with a related theme. The Kas, in turn, are divided into topics6 KB (858 words) - 22:10, 2 May 2024
- ...e}}, properties, performance, {{Term|Behavior (glossary)|behavior}}, or {{Term|Cost (glossary)|cost}}. ...se of modeling and simulation during the early stages of the system design of complex systems and architectures can:6 KB (848 words) - 23:00, 2 May 2024
- ...y formal definition of the {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI) is developed. ...ressed (i.e., what type of solution will be implemented) and ''how'' the {{term|Solution (glossary)|solution}} will be defined and developed.7 KB (1,047 words) - 22:36, 2 May 2024
- ...ncentrate on system purpose and behavior, and are described in the context of the operational environment and conditions.'' (ISO/IEC/IEEE 15288, 2023, Se ...eroperating systems and enabling systems. This also includes consideration of laws and regulations, environmental restrictions, and ethical values.'' (IS2 KB (270 words) - 22:34, 2 May 2024
- ...ular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...nd how this relates in detail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).13 KB (1,865 words) - 21:49, 2 May 2024
- ...h the system requirements and architecture ({{Term|Verification (glossary)|system verification}}). ...]] KAs. See also [[Applying Life Cycle Processes]] for further discussion of the relationships between process and life cycle model.10 KB (1,350 words) - 22:12, 2 May 2024
- ...Systems Approach (glossary)|systems approaches to practice}} grounded in {{Term|Systems Science (glossary)|systems science}}. ...) as discussed in [[Foundations of Systems Engineering|Part 2: Foundations of Systems Engineering]].9 KB (1,300 words) - 22:03, 2 May 2024
- ...ular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...nd how this relates in detail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).12 KB (1,695 words) - 22:21, 2 May 2024
- ...inciples, thoughts and beliefs. They play an important role in all aspects of cognition and communication. == Purpose and Uses of the Systems Engineering Concept Model ==8 KB (1,197 words) - 22:21, 2 May 2024
- ...environment embodied in its elements, relationships, and in the principles of its design and evolution'' (ISO/IEC/IEEE 2015, Section 4.5) </blockquote> ...onal structure of a system or component; the organizational structure of a system and its implementation guidelines.'' (ISO/IEC 2009, 1) </blockquote>3 KB (397 words) - 21:49, 2 May 2024
- ...combinations of ways and means (activities and resources) to perform a set of activities.'' (DoD 2009)</blockquote> <blockquote>(2) ''The ability to execute a specified course of action. It is defined by a user and expressed in non-equipment based operat3 KB (440 words) - 21:52, 2 May 2024
- Some users of the Systems Engineering Body of Knowledge (SEBoK) may be new to the field. This article provides recommend ...“system,” the SEBoK authors believe that this definition encompasses most of those which are relevant to SE.8 KB (1,102 words) - 22:54, 2 May 2024
- <blockquote>''(1) A set of elements in interaction.'' (von Bertalanffy 1968)</blockquote> ...SO/IEC/IEEE 2015)''</blockquote><blockquote>(3) A system is an arrangement of parts or elements that together exhibit behavior or meaning that the indivi3 KB (447 words) - 23:14, 2 May 2024
- ...erest (glossary)|system-of-interest}} (SoI) replaces an existing or legacy system, it may be necessary to manage the migration between systems such that stak ...gns personnel to operate the system and monitors the services and operator-system performance. In order to sustain services, it identifies and analyzes opera10 KB (1,438 words) - 22:25, 2 May 2024
- ...through life relationships between these activities to ensure we take a {{Term|Systems Approach (glossary)}}. ...s between them. In this topic, we discuss a number of views on the nature of the inter-relationships between process activities within a life cycle mode15 KB (2,203 words) - 22:48, 2 May 2024
- ...ineered System (glossary)|engineered system}} and engineered system {{Term|System Context (glossary)|context}} that were introduced in the [[Systems Fundamen ...r more selected engineered {{Term|System-of-Interest (glossary)|systems of interest}} (SoI).15 KB (2,335 words) - 21:46, 2 May 2024
- .... SE must generally be synchronized across a number of tailored instances of such life cycle models to fully satisfy stakeholder needs. More complex li ==A Generic System Life Cycle Model==10 KB (1,415 words) - 21:48, 2 May 2024
- ...ular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...nd how this relates in detail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).15 KB (2,310 words) - 22:30, 2 May 2024
- ...nd system {{Term|Pattern (glossary)|patterns}} discussed in the [[Patterns of Systems Thinking]] topic. ...hts of {{Term|Systems Science (glossary)|systems science}} to real-world {{Term|Problem (glossary)|problems}}.14 KB (2,062 words) - 23:22, 2 May 2024
- ...ular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...nd how this relates in detail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).20 KB (2,907 words) - 22:30, 2 May 2024
- ...ete {{Term|System-of-Interest (glossary)|system-of-interest (SoI)}}. See [[System Integration]]. ...s' roles. If implementation involves a production process, a manufacturing system which uses the established technical and management processes may be requir12 KB (1,664 words) - 22:39, 2 May 2024
- ...ssary)|stakeholders}} for a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). They and other stakeholders express needs and expectations for res ...sary)|enterprises}}, and {{Term|System of Systems (SoS) (glossary)|systems of systems}} (SoS).14 KB (1,992 words) - 21:58, 2 May 2024
- ...ems}}. The evolution of modeling standards enables the broad adoption of {{Term|Model-Based Systems Engineering (MBSE) (glossary)|Model-Based Systems Engin ...ich aims to integrate various system aspects across various disciplines, {{Term|Product (glossary)|products}}, and technologies.13 KB (1,627 words) - 22:35, 2 May 2024
- ...and also suggests how you can navigate the SEBoK to find SE information of interest. ...ertheless, it is worthwhile highlighting the content on the left-hand side of each page, which is always the same and always has four sections:7 KB (1,192 words) - 23:17, 2 May 2024
- ...nd highlights how different models must work together to support broader {{Term|Engineering (glossary)|engineering}} efforts. ...seful for selecting the right type of model for the intended purpose and {{Term|Scope (glossary)|scope}}.16 KB (2,219 words) - 23:14, 2 May 2024
- ...st missions are accomplished through the coordination and interoperability of multiple systems. The article defines mission engineering and describes th ==Definition of Mission Engineering==8 KB (1,005 words) - 21:55, 2 May 2024
- ...e landscape of disciplines that are intertwined with SE. For a closer view of the individual disciplines, see [[Related Disciplines|Part 6]]. ...ot address how that performance contributes to the value propositions of {{Term|Stakeholder (glossary)|stakeholders}}.10 KB (1,363 words) - 22:30, 2 May 2024
- ...SSE, from organizational strategy, to interoperability, to the life cycle of services, and then to their design. ...erm|Design (glossary)|design}}, operate, and deliver services. The mission of service strategies is to develop the capacity to achieve and maintain a str15 KB (2,090 words) - 23:04, 2 May 2024
- ...)|systems}}, including definitions, {{Term|Scope (glossary)|scope}}, and {{Term|Context (glossary)|context}}. ...System (glossary)|engineered system}} is introduced as the system context of critical relevance to SE.26 KB (3,977 words) - 22:26, 2 May 2024
- ...ir relationships to {{Term|Modeling Tool (glossary)|modeling tools}} and {{Term|Model-Based Systems Engineering (MBSE) (glossary)|model-based systems engin ==Definition of a Model==18 KB (2,563 words) - 22:17, 2 May 2024
- .... This section discusses the moral foundations of ethics, and the elements of ethical conduct that are especially relevant to systems engineering. ...gs about what is right and wrong. All of us also share, with other members of various communities to which we belong, ethics: standards that say what con11 KB (1,491 words) - 21:46, 2 May 2024
- ...g the realization of the architecture of the system through a complete set of design characteristics described in a form suitable for implementation. ...ve recognized the usefulness of the notion of ''system'' in dealing with {{Term|complexity (glossary)}} (interconnections level, multi-techno, emergence, e13 KB (1,755 words) - 23:22, 2 May 2024
- ...e of these ideas contribute to basic theory and methods that are used in {{Term|Systems Thinking (glossary)|systems thinking}} discussed in the [[Systems T ...''[[General System Theory: Foundations, Development, Applications|General System Theory]]'' (GST), he characterizes a systems approach as:21 KB (2,965 words) - 22:37, 2 May 2024
- ...cialty Engineering}} disciplines listed in INCOSE (2015) and GGE. For most of these disciplines, there are also SEBoK articles in the Knowledge Area[[Sys ...rpretations require dedicated contributions from the geodetic/geospatial {{Term|Domain (glossary)|domain}}. Those contributions should be achieved by integ19 KB (2,639 words) - 23:15, 2 May 2024
- The SEBoK is a large, curated compendium of information about {{Term|Systems Engineering (glossary)|systems engineering}}. It: *is a guide to the body of SE knowledge which provides references to detailed sources for additional i9 KB (1,254 words) - 22:05, 2 May 2024
- ...namic aspects of how the approach is used and how this relates to elements of SE. ...ary)|complexity}} at multiple levels of a {{Term|System Context (glossary)|system context}} necessitate a holistic approach.19 KB (2,682 words) - 22:50, 2 May 2024
- ...s as a primary information source and quick, comprehensive reference for {{Term|Systems Engineering (glossary)|systems engineering}} information. *how those boundaries and synergies are likely to evolve with increasing use of evolutionary development, lean and agile methods, and systems that provide10 KB (1,363 words) - 21:50, 2 May 2024
- ...ed from non-functional system requirements (e.g. constraint of replacement of obsolescence, and/or continued product support). ...when completed becomes the basis for {{Term|System Realization (glossary)|system realization}}.26 KB (3,550 words) - 23:19, 2 May 2024
- ...rm|System (glossary)|system}} relationship, detailed management, and the {{Term|Engineering (glossary)|engineering}} activities this implies. ...ms thinking}} to {{Term|Engineered System (glossary)|engineered system}} {{Term|Context (glossary)|contexts}} throughout their lives.32 KB (4,775 words) - 21:46, 2 May 2024
- ...BoK) is a guide to foundational knowledge which is relevant or useful to {{Term|Systems Engineering (glossary)|systems engineering}} (SE). ...EBoK Part 2 in context (SEBoK Original).''' For more detail see[[Structure of the SEBoK]]]]20 KB (2,816 words) - 22:49, 2 May 2024
- ...is used as the basis of [[System Validation]], as well as input into the [[System Requirements Definition]] process. ...r understand the problem, threat, or opportunity space, as well as options of the solution space.21 KB (3,027 words) - 23:20, 2 May 2024
- ...ystems Engineer (glossary)|systems engineer}} learning the discipline of {{Term|Systems Engineering (glossary)|systems engineering}} (SE), and the more exp What these system engineers find in the SEBoK includes:11 KB (1,702 words) - 22:16, 2 May 2024
- ...ves behind the development of the SoI, which is performed as part of the {{term|Concept Definition (glossary)|Concept Definition}} process. .../IEEE 15288). The solution could be a new system, a change to an existing system, a service, an operational change or some other solution.17 KB (2,427 words) - 22:52, 2 May 2024
- ...nking on {{Term|Complexity (glossary)|complexity}} and how it influences {{Term|Systems Engineering (glossary)|systems engineering}} (SE) practice. ...to the different {{Term|Engineered System (glossary)|engineered system}} {{Term|Context (glossary)|contexts}}. This article is closely related to the [[Eme21 KB (3,037 words) - 22:03, 2 May 2024
- ...d types of systems, expanded from the definitions presented in [[What is a System?]]. ...tems; etc. Indeed, it seems there is almost no end to the use of the word “system” in today’s society.24 KB (3,625 words) - 22:03, 2 May 2024
- This article describes how {{Term|Software Engineering (glossary)|software engineering}} (SwE) life cycle pro ...ern systems are, one would expect the relationship between the disciplines of systems engineering (SE) and software engineering (SWE) to be well defined.17 KB (2,413 words) - 21:57, 2 May 2024
- ...ering (glossary)}} challenges where one might thrive on a thoughtful blend of humility and optimism. ...ate school instruction. The cases are structured using the Friedman-Sage {{Term|framework (glossary)}} (Friedman and Sage 2003; Friedman and Sage 2004, 84-12 KB (1,756 words) - 21:54, 2 May 2024
- ...the life cycle concepts and integrated set of needs generated during the [[System Concept Definition]] activities. System requirements play major roles in systems engineering, as they:23 KB (3,256 words) - 22:49, 2 May 2024
- ...stems engineer has a vital stake in the success of the development and use of the IM process and IM systems. ...n many forms in an organization; some information is related to a specific system development program and some is held at an enterprise level and made availa16 KB (2,255 words) - 22:41, 2 May 2024