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• life cycle model
  ...''A framework of processes and activities concerned with the [[Life Cycle (glossary)]] that may be organized into stages, which also acts as a common reference ISO/IEC. 2008. ''Systems and Software Engineering -- System Life Cycle Processes.'' Geneva, Switzerland: International Organisation for Standardis
  703 bytes (89 words) - 23:18, 2 May 2024

Page text matches

• life cycle process
  <blockquote>(2) ''Life cycle: evolution of a system, product, service, project or other human-made entit (1) and (2) ISO/IEC. 2008. ''Systems and Software Engineering -- System Life Cycle Processes''. Geneva, Switzerland: International Organisation for Standardis
  1,023 bytes (124 words) - 22:03, 2 May 2024
• System Life Cycle Approaches
  ...scribed; this forms a starting point for discussions of more detailed life cycle knowledge. *[[Generic Life Cycle Model]]
  6 KB (858 words) - 22:10, 2 May 2024
• Systems Engineering Core Concepts
  {{Term|concept (glossary)|Concepts}} are the fundamental building blocks for the construction of the == Purpose and Uses of the Systems Engineering Concept Model ==
  8 KB (1,197 words) - 22:21, 2 May 2024
• Applications of Systems Engineering
  ...neering}} to the creation and {{Term|Life Cycle Management (glossary)|life cycle management}} of various types of systems. ...ystem (glossary)|enterprise systems}}, and {{Term|System of Systems (SoS) (glossary)|systems of systems}} (SoS). It also contains a knowledge area describing H
  4 KB (638 words) - 23:16, 2 May 2024
• physical architecture
  ...elements which provides the design solution for a consumer product or life-cycle process intended to satisfy the requirements of the functional architecture ...ISO/IEC. 2010. ''Systems and Software Engineering, Part 1: Guide for Life Cycle Management''. Geneva, Switzerland: International Organization for Standardi
  2 KB (221 words) - 22:47, 2 May 2024
• Generic Life Cycle Model
  ...More complex life cycle models which address this are described in [[Life Cycle Models]]. ==A Generic System Life Cycle Model==
  10 KB (1,415 words) - 21:48, 2 May 2024
• System Realization
  ...aligns with the system requirements and architecture ({{Term|Verification (glossary)|system verification}}). ...for further discussion of the relationships between process and life cycle model.
  10 KB (1,350 words) - 22:12, 2 May 2024
• Applying Life Cycle Processes
  ...hips between these activities to ensure we take a {{Term|Systems Approach (glossary)}}. ...of the inter-relationships between process activities within a life cycle model.
  15 KB (2,203 words) - 22:48, 2 May 2024
• Representing Systems with Models
  ...ties, performance, {{Term|Behavior (glossary)|behavior}}, or {{Term|Cost (glossary)|cost}}. ...en gaining recognition as a central process of {{Term|Systems Engineering (glossary)|systems engineering}}. The use of modeling and simulation during the early
  6 KB (848 words) - 23:00, 2 May 2024
• Why Model?
  ...in the context of {{Term|Model-Based Systems Engineering (MBSE) (glossary)|model-based systems engineering}} (MBSE). ==Purpose of a Model==
  12 KB (1,796 words) - 23:56, 2 May 2024
• Fundamentals for Future Systems Engineering
  ...be supported by a more encompassing foundation of theory and sophisticated model-based methods and tools allowing a better understanding of increasingly com ...While this is done, it can be difficult to connect to the product focused life cycles of many SE projects.
  7 KB (1,070 words) - 21:51, 2 May 2024
• Guide to the Systems Engineering Body of Knowledge (SEBoK)
  ...nces|key knowledge sources and references]] of {{Term|Systems Engineering (glossary)|systems engineering}} organized and explained to assist a wide variety of ..., {{Term|Service_System_(glossary)|service}} and {{Term|Enterprise_System_(glossary)|enterprise}} systems. It includes problem discovery and formulation, solu
  6 KB (814 words) - 12:47, 6 May 2024
• Software Engineering in the Systems Engineering Life Cycle
  ...ftware engineering}} (SwE) life cycle processes integrate with the SE life cycle. A joint workshop organized by INCOSE, the Systems Engineering Research Ce == Systems Engineering and Software Engineering Life Cycles ==
  17 KB (2,413 words) - 21:57, 2 May 2024
• Development of SEBoK v. 1.4
  ...015]] standard, updated articles in the areas of System Architecture, Life-Cycle processes, System of Systems, Competencies, Ethics and MBSE, as well as thr ...for a SoI, we have brought together overview material on life cycle, life cycle process relationships and enterprise application into a new Knowledge Area
  12 KB (1,687 words) - 22:17, 10 March 2024
• Introduction to SE Transformation
  ...ineering, such as {{Term|Model-Based Systems Engineering (MBSE) (glossary)|Model-Based Systems Engineering (MBSE)}}. In general, topics will be introduced *[[Transitioning Systems Engineering to a Model-based Discipline]]
  6 KB (813 words) - 23:25, 2 May 2024
• process
  (2) SEI. 2007. ''Capability maturity model integrated (CMMI) for development'', version 1.2, Pittsburg, PA, USA: Softw ...and (4) ISO/IEEE. 2008. ''Systems and Software Engineering — Software Life Cycle Processes''. Geneva, Switzerland: International Organization for Standards
  2 KB (197 words) - 23:08, 2 May 2024
• Process Integration
  ...cycle process drivers and choices]]. This may cause the {{Term|Tailoring (glossary)|tailoring}} of defined processes as described in [[Application of Systems ...o consider the structure of a generic process and product life cycle stage model as portrayed in Figure 1 below.
  17 KB (2,425 words) - 22:24, 2 May 2024
• Transitioning Systems Engineering to a Model-based Discipline
  == Model-Based Systems Engineering == ...and controlling documentation about the system. By leveraging the system model as a primary artifact, MBSE offers the potential to enhance product quality
  10 KB (1,386 words) - 23:19, 2 May 2024
• System Life Cycle Process Drivers and Choices
  ...ment. (See the knowledge areas in Part 3 for a description of how the life cycle can impact systems engineering (SE) processes.) ...as Fixed Requirements), there are several models of {{Term|Evolutionary (glossary)|evolutionary}} development processes; however, there is no one-size-fits-a
  15 KB (2,172 words) - 23:17, 2 May 2024
• Technical Planning
  ...are defined with the right timing in the {{Term|Life Cycle (glossary)|life cycle}} in order to manage acceptable risks levels, meet schedules, and avoid cos * Definition of the {{Term|Project (glossary)|project}} from a technical perspective.
  15 KB (2,044 words) - 23:20, 2 May 2024
• Analysis and Selection between Alternative Solutions
  ...proach}} at a particular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...ail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).
  12 KB (1,695 words) - 22:21, 2 May 2024
• Business or Mission Analysis
  ...t of the SoI, which is performed as part of the {{term|Concept Definition (glossary)|Concept Definition}} process. ...d [[Stakeholder Needs Definition]], which explores what {{term|Capability (glossary)|capabilities}} are needed to accomplish the mission or the intended use of
  17 KB (2,427 words) - 22:52, 2 May 2024
• Emerging Topics
  ...These have been used as the basis for a standardized approach to the life cycle of any complex system (see [[Systems Engineering and Management]]). Hence, ...Engineering (MBSE) (glossary)|Model-Based Systems Engineering]], [[Agile (glossary)|agile]], systems-of-systems). More recently, the rise of Artificial Intell
  5 KB (760 words) - 22:19, 2 May 2024
• Stakeholder Needs Definition
  ...es}} are needed by various stakeholders for the {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI) to accomplish the mission. The outcome of the S ...le analysis activities that includes risks, drivers, constraints, and life cycle concepts analysis, as shown in Figure 1, the result is an overall integrate
  21 KB (3,027 words) - 23:20, 2 May 2024
• Portfolio Management
  ...|Program Management (glossary)|program}}, and {{Term|Portfolio Management (glossary)|portfolio management}} (PfM) processes to achieve maximum stakeholder valu *a description of the Project Management Institute's (PMI’s) portfolio life cycle process based on PMI’s Guide to the Project Management Body of Knowledge
  14 KB (1,831 words) - 22:18, 2 May 2024
• Structure of the SEBoK
  ...real differences and the reasons behind them. In particular, the SEBoK [[Glossary of Terms]] contains the most used or generally agreed upon definitions of t ...e, context, and structure of the SEBoK, and of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).
  9 KB (1,359 words) - 23:17, 2 May 2024
• Cycles and the Cyclic Nature of Systems
  ...emporary pattern (2015). The Foundation for the Study of Cycles describe a cycle as, "A series of events that is regularly repeated in the same order. The l Due to its generality, "cycle" is a key concept for {{Term|Systemist (glossary)|Systemists}}, in our communication, in our thinking, and our engagement wi
  9 KB (1,269 words) - 21:46, 2 May 2024
• Guidance for Systems Engineering Novices
  *A {{Term|System (glossary)|system}} is “a collection of elements and a collection of inter-relation ...multiple views; satisfies key stakeholders’ value propositions; has a life cycle and evolution dynamics; has a boundary and an external environment; and is
  8 KB (1,102 words) - 22:54, 2 May 2024
• Guidance for Systems Engineers
  ...|systems engineer}} learning the discipline of {{Term|Systems Engineering (glossary)|systems engineering}} (SE), and the more experienced systems engineer seek ...s written, for the most part, independent of any particular {{Term|Domain (glossary)|domain}} of practice. By design, parts 1 though 6 focus on the disciplin
  11 KB (1,702 words) - 22:16, 2 May 2024
• Configuration Management
  ...blems that persist throughout the system {{Term|Life Cycle (glossary)|life cycle}}. Hence, one primary objective of CM is to manage and control the change t ...rity of the product system and controlling changes to the {{Term|Baseline (glossary)|baseline}}. The baseline for a project contains all of the technical requi
  14 KB (1,901 words) - 21:54, 2 May 2024
• System Life Cycle Models
  ...System (glossary)|system}} generally consists of a series of {{Term|Stage (glossary)|stages}} regulated by a set of management decisions which confirm that the *[[System Life Cycle Process Drivers and Choices]]
  18 KB (2,623 words) - 22:22, 2 May 2024
• Enabling Systems Engineering
  ...nd positions itself to effectively perform the {{Term|Systems Engineering (glossary)|systems engineering}} (SE) activities described elsewhere in the SEBoK. ...e systems engineers he or she employs, and, if so, what {{Term|Competency (glossary)|competencies}} the project manager might seek in those systems engineers.
  7 KB (1,108 words) - 21:54, 2 May 2024
• Scope of Service Systems Engineering
  ...ope of SSE, from organizational strategy, to interoperability, to the life cycle of services, and then to their design. ...business {{Term|Process (glossary)|processes}} required to {{Term|Design (glossary)|design}}, operate, and deliver services. The mission of service strategies
  15 KB (2,090 words) - 23:04, 2 May 2024
• Systems Engineering: Historic and Future Challenges
  ...ent, and the growth of software functionality in {{Term|Engineered System (glossary)|engineered systems}}. ...concurrent work on operational concepts, requirements, structure, and life cycle planning.
  16 KB (2,139 words) - 23:24, 2 May 2024
• Relationship between Systems Engineering and Geospatial/Geodetic Engineering
  ...lected through relationships between several {{Term|Specialty Engineering (glossary)|Specialty Engineering}} disciplines listed in INCOSE (2015) and GGE. For m ...equire dedicated contributions from the geodetic/geospatial {{Term|Domain (glossary)|domain}}. Those contributions should be achieved by integrating appropriat
  19 KB (2,639 words) - 23:15, 2 May 2024
• Systems Thinking
  ...|Systems Science (glossary)|systems science}} and {{Term|Systems Approach (glossary)|systems approaches}} to practice. ...(glossary)|patterns}} and tools accessible to {{Term|Systems Engineering (glossary)|systems engineering}} (SE), as discussed in the [[Foundations of Systems E
  5 KB (763 words) - 23:16, 2 May 2024
• Functional Architecture
  ...her in order to collectively give the system the appropriate [[Capability (glossary)|capabilities]] to meet those goals. The handling of internal inputs and ou ...to stakeholders, and consequently can be used later on in the system life cycle as well, in support of verification and validation (V&V) efforts and system
  18 KB (2,461 words) - 22:27, 2 May 2024
• Agile Systems Engineering
  ...est serves the system, subsystem or component of the [[System-of-Interest (glossary)|system of interest]] (SOI).   ...ase study where the key integration points were identified across multiple life cycles in use by various significant components of the South African Radio
  22 KB (3,045 words) - 22:15, 2 May 2024
• Vee Life Cycle Model
  ...aditional or sequential processes; (2) evolutionary sequential (or the Vee Model) and (3) evolutionary opportunistic and evolutionary concurrent (or increm ...ion, it is important to note that the Vee model, and variations of the Vee model, all address the same basic set of systems engineering (SE) activities. The
  25 KB (3,555 words) - 23:02, 2 May 2024
• Systems Engineering and Software Engineering
  ...ineering (glossary)|Software engineering}} and {{Term|Systems Engineering (glossary)|systems engineering}} are not merely related disciplines; they are intimat *[[Software Engineering in the Systems Engineering Life Cycle]]
  7 KB (903 words) - 23:06, 2 May 2024
• Hubble Space Telescope
  ...particular interest to those facing formidable {{Term|Systems Engineering (glossary)}} challenges where one might thrive on a thoughtful blend of humility and ...uction. The cases are structured using the Friedman-Sage {{Term|framework (glossary)}} (Friedman and Sage 2003; Friedman and Sage 2004, 84-96), which decompose
  12 KB (1,756 words) - 21:54, 2 May 2024
• Introduction to Systems Engineering Fundamentals
  ...ncluding definitions, {{Term|Scope (glossary)|scope}}, and {{Term|Context (glossary)|context}}. ...engineering}} (SE) literature. The concept of an {{Term|Engineered System (glossary)|engineered system}} is introduced as the system context of critical releva
  26 KB (3,977 words) - 22:26, 2 May 2024
• Information Management
  ...s}} (SoS), {{Term|Architecture (glossary)|architectures}}, {{Term|Service (glossary)|services}}, nested hardware/platforms, and people. Fundamentally, this pro ...s information throughout the information {{Term|Life Cycle (glossary)|life cycle}} regardless of source or format (e.g., data, paper documents, electronic d
  16 KB (2,255 words) - 22:41, 2 May 2024
• Development of SEBoK v. 2.0
  ...user "mouses over" the glossary term. The user can also still click to the glossary, but this feature allows quick reference to definitions without leaving the *References to the INCOSE Competency Model
  8 KB (1,083 words) - 22:36, 8 March 2024
• Applying the Systems Approach
  ...y)|system}} relationship, detailed management, and the {{Term|Engineering (glossary)|engineering}} activities this implies. ...to {{Term|Engineered System (glossary)|engineered system}} {{Term|Context (glossary)|contexts}} throughout their lives.
  32 KB (4,775 words) - 21:46, 2 May 2024
• Service Life Management
  ...le}} of the system. (See [[Life Cycle Models]] for a general discussion of life cycles.) Specifically, this article focuses on changes to a system after de ...nfluences product and service performance and support costs for the entire life of the program.
  16 KB (2,142 words) - 23:22, 2 May 2024
• System Requirements Definition
  ...s and supporting models or diagrams. Inputs into this process are the life cycle concepts and integrated set of needs generated during the [[System Concept ...of system {{Term|Architecture (glossary)|architecture}} and {{Term|Design (glossary)|design}} activities.
  23 KB (3,256 words) - 22:49, 2 May 2024
• Types of Systems
  ...]] knowledge area (KA). It provides various perspectives on {{Term|System (glossary)|system}} classifications and types of systems, expanded from the definitio The modern world has numerous kinds of systems that influence daily life. Some examples include transport systems; solar systems; telephone systems;
  24 KB (3,625 words) - 22:03, 2 May 2024
• Guidance for Systems Engineering Customers
  ...erm|Stakeholder (glossary)|stakeholders}} for a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). They and other stakeholders express needs and ...m|Enterprise (glossary)|enterprises}}, and {{Term|System of Systems (SoS) (glossary)|systems of systems}} (SoS).
  14 KB (1,992 words) - 21:58, 2 May 2024
• Logistics
  ...{{Term|logistics (glossary)|logistics}} within {{Term|Systems Engineering (glossary)|systems engineering}} (SE) and the definition used will determine what act ...he end user. Figure 1, below, shows a Defense Acquisition University (DAU) model of the SE aspects for consideration in logistics and logistics planning (DA
  18 KB (2,434 words) - 22:56, 2 May 2024
• Physical Architecture
  .... Once a logical architecture model is defined (see [[Logical Architecture Model Development]]), concrete physical elements have to be identified that can s ...ysis}} and when completed becomes the basis for {{Term|System Realization (glossary)|system realization}}.
  26 KB (3,550 words) - 23:19, 2 May 2024
• Development of SEBoK v. 1.1
  ...nor update was released in April 2013. It updated many topic articles and glossary articles. Changes included: *Sixteen glossary terms were updated and two new glossary terms were added.
  8 KB (1,162 words) - 14:57, 20 June 2014
• Synthesizing Possible Solutions
  ...proach}} at a particular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...ail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).
  20 KB (2,907 words) - 22:30, 2 May 2024
• Development of SEBoK v. 1.7
  The focus on {{Term|Model-Based Systems Engineering (MBSE) (glossary)|MBSE}} has also been expanded with two new articles, an [[Submarine Warfa ...ide a better overview of the SEBoK and a simplified version of the central model created for the SEBoK strucuture has been added to the [[Main Page|SEBoK ma
  9 KB (1,168 words) - 22:36, 8 March 2024
• Logical Architecture
  ...ew. Other additional views are suggested in {{Term|Architecture Framework (glossary)|architecture frameworks}}, depending on the domain. ===Functional Architecture Model===
  26 KB (3,699 words) - 22:40, 2 May 2024
• Overview of the Systems Approach
  This knowledge area (KA) considers how a {{Term|Systems Approach (glossary)|systems approach}} relates to engineered systems and to systems engineerin ...ity (glossary)|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
• Value of Service Systems Engineering
  ...al {{Term|Customer (glossary)|customer}} experience during {{Term|Service (glossary)|service}} operations. ...standing of cross disciplinary issues to manage, communicate, {{Term|plan (glossary)|plan}}, and organize service systems development and delivery of service.
  19 KB (2,522 words) - 22:27, 2 May 2024
• What is a Model?
  ...eling tools}} and {{Term|Model-Based Systems Engineering (MBSE) (glossary)|model-based systems engineering (MBSE)}}. ==Definition of a Model==
  18 KB (2,563 words) - 22:17, 2 May 2024
• Systems Engineering Implementation Examples
  ...e engineering of {{Term|Complex (glossary)|complex}}, {{Term|Adaptability (glossary)|adaptive}} systems. #Life Cycle Support
  7 KB (994 words) - 22:04, 2 May 2024
• Development of SEBoK v. 2.1
  ...e are new articles on [[Digital Engineering]], [[Set-Based Design]], and [[Model-Based Systems Engineering Adoption Trends 2009-2018]]. In Part 3, there is ...it is a glossary item. You can still click on the word and be taken to the glossary and view source materials and discussion, but it is not necessary.
  9 KB (1,333 words) - 22:36, 8 March 2024
• Assessment and Control
  ...to monitor performance. The results of the reviews and {{Term|Measurement (glossary)|measurement}} analyses are used to identify and record findings/discrepanc ...iscrepancies that are uncovered in the enterprise, infrastructure, or life cycle activities associated with the project. Analysis of the causes of the findi
  15 KB (2,029 words) - 22:05, 2 May 2024
• System Implementation
  ...glossary)|aggregates}} and finally the complete {{Term|System-of-Interest (glossary)|system-of-interest (SoI)}}. See [[System Integration]]. ...understand that these views are process -oriented. While this is a useful model, examining implementation only in terms of process can be limiting.
  12 KB (1,664 words) - 22:39, 2 May 2024
• Business Activities Related to Product Systems Engineering
  == Marketing, Product Life Cycle Management, & Quality Management == ...ecently, the focus has started to shift from the idea of managing just the life of the product, to an expanded view that includes the management of product
  18 KB (2,522 words) - 21:54, 2 May 2024
• Set-Based Design
  ...real time (Specking et al. 2018a). This article provides insights on using model-based design to create and assess alternatives with set-based design. ...s into {{Term|Set_Driver_(glossary)|set drivers}} or {{Term|Set_Modifiers_(glossary)|set modifiers}}. Set drivers are “fundamental design decisions that defi
  10 KB (1,457 words) - 23:10, 2 May 2024
• System Analysis
  ...} in order to select and/or update the most efficient {{Term|Architecture (glossary)|system architecture}} and to generate derived engineering data. During eng ...ineering data and artifacts created during the {{Term|Systems Engineering (glossary)|systems engineering}} (SE) process. The evaluations are at the center of s
  22 KB (3,136 words) - 22:42, 2 May 2024
• Procurement and Acquisition
  ...Procurement}} is the act of buying goods and services. {{Term|Acquisition (glossary)|Acquisition}} covers the conceptualization, initiation, design, developmen ...broader range of topics than procurement. Acquisition spans the whole life cycle of acquired systems. The procurement of appropriate systems engineering (SE
  19 KB (2,743 words) - 23:15, 2 May 2024
• The Nature of Project Management
  ...of thumb, expert judgment, and use of parametric models such as the PRICE model for hardware, COCOMO for software projects and COSYSMO for systems projects *the overall system life cycle is understood;
  10 KB (1,349 words) - 22:14, 2 May 2024
• Enterprise Systems Engineering Key Concepts
  ...the {{Term|context (glossary)|context}} of government {{Term|acquisition (glossary)|acquisition}} of very large, complex military and civil systems (e.g., F22 ...orporates {{Term|enterprise (glossary)|enterprise}} strategic {{Term|Plan (glossary)|plan}}ning and enterprise investment analysis (along with others as descri
  17 KB (2,259 words) - 21:47, 2 May 2024
• Developing Individuals
  ...stems Engineering (glossary)|systems engineering}} (SE) {{Term|Competency (glossary)|competencies}} is a key aspect of [[Enabling Individuals|enabling individu ..., and the Academy of Program/Project & Engineering Leadership (APPEL 2009) model (Menrad and Lawson 2008).
  19 KB (2,587 words) - 22:36, 2 May 2024
• Identifying and Understanding Problems and Opportunities
  ...proach}} at a particular point in the life of a {{Term|System-of-Interest (glossary)|system-of-interest}} (SoI). ...ail to {{Term|Element (glossary)|elements}} of {{Term|Systems Engineering (glossary)|systems engineering}} (SE).
  15 KB (2,310 words) - 22:30, 2 May 2024
• Guidance for Engineers
  The realization of successful complex {{Term|System (glossary)|systems}} requires experts from many disciplines to work together. This ma ...enables engineers from disciplines other than {{Term|Systems Engineering (glossary)|systems engineering}} (SE) to:
  13 KB (1,907 words) - 21:59, 2 May 2024
• Capability Updates, Upgrades, and Modernization
  ...tress the importance of using {{Term|Life Cycle Cost (LCC) (glossary)|life cycle costs}} (LCC) when determining if a product or service should be modernized ...or adding new equipment. {{Term|Form, Fit, Function, and Interface (F3I) (glossary)|Form, fit, function, and interface}} (F3I) is an important principle for u
  25 KB (3,507 words) - 22:51, 2 May 2024
• Determining Needed Systems Engineering Capabilities in Businesses and Enterprises
  ...|Enterprise (glossary)|enterprise}} to perform {{Term|Systems Engineering (glossary)|systems engineering}} (SE) well requires deciding which specific SE capabi ...y be decided and developed centrally by a business, or within {{Term|Team (glossary)|teams}} and by individuals, or through some combination of the two. Deter
  25 KB (3,595 words) - 23:11, 2 May 2024
• Integrating Supporting Aspects into System Models
  ...discusses the integrated modeling of systems and supporting aspects using Model-Based Systems Engineering methodologies and frameworks. Supporting aspects ...tructural, behavioral, social, and environmental facets of the core system model. The article focuses on three main aspects:
  23 KB (3,218 words) - 23:25, 2 May 2024
• Measurement
  ...e accompanying analysis are fundamental elements of [[Systems Engineering (glossary)|systems engineering]] (SE) and technical management. SE measurement provid ...ies. This measurement approach has been adopted by the Capability Maturity Model Integration (CMMI) measurement and analysis process area (SEI 2006, 10), as
  25 KB (3,398 words) - 22:12, 2 May 2024
• System Architecture Design Definition
  ...This approach enables digital transformation design initiatives to employ Model-Based System Engineering [MBSE] practices similar to other design engineeri
  18 KB (2,367 words) - 23:13, 2 May 2024
• A Framework for Viewing Quality Attributes from the Lens of Loss
  ...all under the umbrella category of {{Term|Loss-Driven Systems Engineering (glossary)}} (LDSE), i.e., the value-adding unification of the systems engineering sp ...onmental protection, {{Term|Quality (glossary)}}, and {{Term|Availability (glossary)}}. There is commonality and synergy among these specialty areas, which sho
  17 KB (2,314 words) - 21:51, 2 May 2024
• Enterprise Capability Management
  ...ticles called [[Systems Engineering Management]] and [[Product and Service Life Management]]. Management of operational capability is described herein. ...strategic goals and objectives, given all its resource {{Term|Constraint (glossary)|constraints}} and other limitations.
  18 KB (2,546 words) - 22:37, 2 May 2024
• Roles and Competencies
  ...tudes (KSAA). Within a {{Term|business (glossary)}} or {{Term|Enterprise (glossary)|enterprise}}, SE responsibilities are allocated to individuals through the There are many ways to define {{Term|Competency (glossary)|competency}}. It can be thought of as a measure of the ability to use the
  29 KB (4,086 words) - 21:56, 2 May 2024
• Submarine Warfare Federated Tactical Systems
  ...dealing with programs in the sustainment and evolution phase of their life cycle. For addition information, refer to the links provided in Section V, Lesson ...marines, and to in-service submarines being upgraded on a roughly six-year cycle. The common combat system product line is referred to as the Submarine Warf
  24 KB (3,499 words) - 23:00, 2 May 2024
• Service Systems Engineering Stages
  ...information technology}} (IT), and technology impacts and {{Term|customer (glossary)}} expectations. Lin and Hsieh (2011) provide a good summary on New service ...terprise customer or consumer), a business manager, an {{Term|Engineering (glossary)|engineering}} organization, new web service designers, new technology deve
  23 KB (2,921 words) - 22:51, 2 May 2024
• Service Life Extension
  ...s assessing the risks and the {{Term|Life Cycle Cost (LCC) (glossary)|life cycle cost}} (LCC) of continuing the use of the product or service versus the cos {{Term|Service Life Extension (SLE) (glossary)|Service life extension}} (SLE) emphasizes reliability upgrades and component replacement
  23 KB (3,170 words) - 22:40, 2 May 2024
• Product as a System Fundamentals
  ...vice or how it is operated and supported. Making changes iterates the life cycle and results in new or improved products or features. ...trategy and means of organizing the projects to be executed along the life cycle. In many larger organizations, this type of enabling system is institutiona
  21 KB (2,825 words) - 22:53, 2 May 2024
• System Hardware Assurance
  ...lectronics function as intended and only as intended throughout their life cycle, and to manage identified risks. The term ''hardware'' refers to electronic ...function or other compromises of the hardware throughout the complete life cycle of components and systems. Advances in hardware assurance tools and techniq
  22 KB (2,994 words) - 22:02, 2 May 2024
• System Verification
  ...rification process can work together. For example, the {{Term|Integration (glossary)|integration}} process frequently uses the verification process. It is impo {{Term|Verification (glossary)|Verification}} is the confirmation, through the provision of objective evi
  26 KB (3,648 words) - 22:55, 2 May 2024
• Foundations of Systems Engineering
  ...ional knowledge which is relevant or useful to {{Term|Systems Engineering (glossary)|systems engineering}} (SE). ...e accessible to a wider audience outside of its traditional {{Term|Domain (glossary)|domains}}.
  20 KB (2,816 words) - 22:49, 2 May 2024
• System Detailed Design Definition
  ...usefulness of the notion of ''system'' in dealing with {{Term|complexity (glossary)}} (interconnections level, multi-techno, emergence, etc.). ...on of technological system elements that compose the physical architecture model of the system.
  13 KB (1,755 words) - 23:22, 2 May 2024
• Incremental Life Cycle Model
  ...aditional or sequential processes; (2) evolutionary sequential (or the Vee model); and (3) evolutionary opportunistic and evolutionary concurrent (or increm ...spiral are useful models that emphasize different aspects of a system life cycle.
  43 KB (6,072 words) - 22:30, 2 May 2024
• System Validation
  ...emember that while system validation is separate from {{Term|Verification (glossary)|verification}}, the activities are complementary and intended to be perfor {{Term|Validation (glossary)|Validation}} is the confirmation, through the provision of objective evide
  28 KB (3,885 words) - 22:39, 2 May 2024
• Assessing Systems Engineering Performance of Business and Enterprises
  ...the enterprise level there are additional concerns. SE {{Term|Governance (glossary)|governance}} should ensure that the performance of systems engineering wit For enterprises that are traditional {{Term|Business (glossary)|businesses}} this is easier, because such organizations typically have mor
  20 KB (2,857 words) - 22:45, 2 May 2024
• Enterprise Systems Engineering Process Activities
  ...ring}} (ESE) is that it “determines the balance between {{Term|Complexity (glossary)|complexity}} and order and in turn the balance between effectiveness and e ...ing enable us to increase efficiency, not effectiveness. The {{Term|Value (glossary)|value}} of the objective pursued is not relevant in determining efficiency
  25 KB (3,359 words) - 23:08, 2 May 2024
• Organizing Business and Enterprises to Perform Systems Engineering
  ...|Enterprise (glossary)|enterprise}} to perform {{Term|Systems Engineering (glossary)|systems engineering}} (SE) well, the team must decide which specific SE ca System information needs to be maintained throughout the life of the system and made available to relevant stakeholders – including tho
  20 KB (2,817 words) - 23:05, 2 May 2024
• Service Systems Engineering
  ...his requires a disciplined and systemic approach among {{Term|Stakeholder (glossary)|stakeholders}} and resources to emphasize end-user satisfaction in the des ...been applied by {{Term|Information and Communications Technologies (ICT) (glossary)|information and communications technologies}} (ICT) service providers (Boo
  17 KB (2,379 words) - 22:54, 2 May 2024
• Complexity
  ...(glossary)|complexity}} and how it influences {{Term|Systems Engineering (glossary)|systems engineering}} (SE) practice. ...nt {{Term|Engineered System (glossary)|engineered system}} {{Term|Context (glossary)|contexts}}. This article is closely related to the [[Emergence|emergence]]
  21 KB (3,037 words) - 22:03, 2 May 2024
• Systems Engineering Organizational Strategy
  ...ts owners, customers, employees, regulators, and other {{Term|Stakeholder (glossary)|stakeholders}}. (See [[Stakeholder Needs Definition]].) ...ajor components, required products, critical specialties, or areas of life cycle
  27 KB (3,888 words) - 22:41, 2 May 2024
• SEBoK Users and Uses
  ...rce that can help anyone understand more about {{Term|Systems Engineering (glossary)}}. Systems engineers should obviously benefit, but so can undergraduate en ...n {{Term|Systems Engineering (glossary)}} and {{Term|Software Engineering (glossary)}}, which highlight the relationships between the two. Hans is now feeling
  13 KB (2,122 words) - 22:23, 2 May 2024
• Human Systems Integration
  {{Term|Human Systems Integration (HSI) (glossary)|Human systems integration (HSI)}} is “the management and technical disci ...ize the greatest benefit to the final system solution and substantial life cycle cost savings.” (INCOSE 2015).
  23 KB (3,230 words) - 22:15, 2 May 2024
• System Integration
  ...ts together, and performing the {{Term|Verification and Validation Action (glossary)|verification and validation actions}} (V&V actions) in the course of the a ...|Service System (glossary)|service system}}, and {{Term|Enterprise System (glossary)|enterprise system}}. The purpose of system integration is to prepare the S
  25 KB (3,520 words) - 22:56, 2 May 2024
• Product Systems Engineering Key Aspects
  ...eholder needs and requirements. For acquired products, an {{Term|Acquirer (glossary)|acquirer}} specifies the needs and requirements, selects a supplier for de ...rovide elements, methods, and tools that are used during their entire life cycle. The supplying enterprises, in turn, may make further agreements with supp
  32 KB (4,642 words) - 22:27, 2 May 2024
• Overview of Geospatial/Geodetic Engineering
  ...capture procedures (surveying, photogrammetry, and {{Term|remote sensing (glossary)|remote sensing}}) and management applications. Tomlinson (2019) and Peters ...agery (glossary)|geographic imagery}}, {{Term|Digital Terrain Model (DTM) (glossary)|Digital Terrain Models (DTM)}}, etc. Beyond such classical geographical da
  15 KB (2,116 words) - 22:49, 2 May 2024
• Decision Management
  ...cases, good decision making requires a formal {{Term|Decision Management (glossary)|decision management}} process. The purpose of the decision management pr ...d evaluating a set of alternatives for a decision at any point in the life cycle and select the most beneficial course of action.”([[ISO/IEC/IEEE 15288]])
  24 KB (3,504 words) - 22:46, 2 May 2024
• Principles of Systems Thinking
  ...ssary)|principles}} as part of the basic ideas of {{Term|Systems Thinking (glossary)|systems thinking}}. ...defined is provided. A number of additional “laws” and {{Term|Heuristic (glossary)|heuristics}} are also discussed.
  24 KB (3,323 words) - 22:24, 2 May 2024
• Risk Management
  ...nagement (glossary)|project management}} and a {{Term|Systems Engineering (glossary)|systems engineering}} process. A balance must be achieved on each project ...(SEI 2010; DoD 2015; DAU 2003a; DAU 2003b; PMI 2013) ({{Term|Opportunity (glossary)|Opportunity}} and opportunity management is briefly discussed below).
  31 KB (4,303 words) - 22:47, 2 May 2024
• Service Systems Background
  ...the development of manufacturing, and finally toward more {{Term|Service (glossary)|service}}-based economic activity. As reported by the Organization for Eco ...all Center (glossary)|call centers}}; {{Term|Business Process Outsourcing (glossary)|business process outsourcing}}/re-engineering; systems integration; and or
  21 KB (2,837 words) - 22:37, 2 May 2024
• Systems Engineering Principles
  Every discipline has a set of underlying [[Glossary:Principle|principles]] which fundamentally characterize it. Discipline know *transcends a particular lifecycle model or phase
  24 KB (3,530 words) - 11:57, 22 August 2022
• Verification and Validation of Systems in Which AI is a Key Element
  ...the need for AI [[Verification (glossary)|verification]] and [[Validation (glossary)|validation]] (V&V). The element(s) containing AI capabilities is treated a ...fe cycle illustrated in Figure 2, V&V activities occur throughout the life cycle. In addition to requirements allocated to the AI subsystem (as is the case
  29 KB (3,964 words) - 23:23, 2 May 2024
• System Reliability, Availability, and Maintainability
  ...They are often studied together. Collectively, they affect economic life-cycle costs of a system and its utility. ...icians, and users. Collectively, they affect both the utility and the life-cycle costs of a product or system. The origins of contemporary reliability engin
  48 KB (6,784 words) - 23:06, 2 May 2024
• Development of SEBoK v. 2.10
  ** Renaming of [[System Life Cycle Models]] articles to simplify the titles Model-based system design techniques with the Systems Modeling Language [SysML<su
  18 KB (2,611 words) - 12:09, 6 May 2024
• Patterns of Systems Thinking
  ...nce (glossary)|systems science}} from the perspective of {{Term|Principle (glossary)|principles}} and patterns. ...the form of system archetypes, along with antipatterns in {{Term|Software (glossary)|software}} engineering and other fields. Finally, a brief discussion of pa
  31 KB (4,384 words) - 22:02, 2 May 2024
• Systems Engineering and Enterprise IT
  ...s-functional teams (sometimes called {{Term|Integrated Product Team (IPT) (glossary)|Integrated Product Teams (IPTs)}}). It should be noted that there is consi ...ycle Approaches]]. Some typical life cycles are discussed in [[System Life Cycle Models]].
  46 KB (6,608 words) - 23:14, 2 May 2024
• Next Generation Medical Infusion Pump
  ...ct to capture market share, while maintainers wanted initial built-in life cycle support, maintenance, and diagnostic capabilities. ...Mavor (2007), Hospira used a version of the Incremental Commitment Spiral Model (ICSM) summarized in the [[Systems Engineering and Management|SEBoK Part 3
  18 KB (2,598 words) - 22:53, 2 May 2024
• System Resilience
  ...aintain {{Term|capability (glossary)}} in the face of a {{Term|disruption (glossary)}}. The US Department of Homeland Security defines resilience as "ability o ...tant to recognize that future risks can cause a detrimental {{Term|strain (glossary)}} on the system in the present. Systems should be designed to be appropria
  43 KB (5,743 words) - 22:27, 2 May 2024
• Product Systems Engineering Special Activities
  The utilization of TRLs has an impact on the structure and operation of life cycles as described in Part 3; they allow better management and control of ...used when going from individual technologies to the whole system. The SRL model is a function of the individual TRLs in a system and their subsequent integ
  24 KB (3,484 words) - 22:24, 2 May 2024
• Global Positioning System II
  ...mplex}} systems engineering (CSE) or {{Term|Complex Adaptive System (CAS) (glossary)|complex adaptive systems}} engineering (Gorod et al. 2015). The topic is s ...ly expensive to satisfy, the process must rebalance schedule, {{Term|Cost (glossary)|costs}}, and performance by changing or modifying the requirements or set
  27 KB (3,984 words) - 21:48, 2 May 2024
• Technical Leadership in Systems Engineering
  ...-Factor model has good validity across literate populations, but even this model may not be universal (Gurven at al., 2013). There is some evidence that ext ...and situation. Fiedler’s Contingency Model, Hersey et al.’s Situational Model and House’s Path-Goal Theory (all described below) provide useful variati
  50 KB (6,969 words) - 22:58, 2 May 2024