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- == Guide to the Systems Engineering Body of Knowledge, Part 1 == ;Part 1: SEBoK Introduction1 KB (131 words) - 04:04, 11 May 2022
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- == Guide to the Systems Engineering Body of Knowledge, Part 1 == ;Part 1: SEBoK Introduction1 KB (131 words) - 04:04, 11 May 2022
- == Guide to the Systems Engineering Body of Knowledge, Part 7 == ;Part 7: Systems Engineering Implementation Examples2 KB (212 words) - 04:13, 11 May 2022
- Art Pyster is the Lead Editor for Part 6 of the SEBoK. ...al accomplishments prior to coming to George Mason University in 2016 are (1) standing up and operating the Systems Engineering Research Center, which i1 KB (214 words) - 02:37, 11 October 2021
- ;Part 1: SEBoK Introduction :[[Use Case 1: Practicing Systems Engineers]]10 KB (1,086 words) - 00:03, 11 March 2024
- ...ant environmental considerations (see [[Foundations of Systems Engineering|Part 2]]) ...s (glossary)|process}} knowledge (see [[Systems Engineering and Management|Part 3]])9 KB (1,254 words) - 22:05, 2 May 2024
- ;Part 1: SEBoK Introduction ;Part 2: Foundations of Systems Engineering12 KB (1,270 words) - 00:13, 6 May 2024
- If you are new to SE, we suggest you begin by visiting Part 1: [[SEBoK Introduction]]. It provides an excellent overview of the SE disci ...ch is to read the use cases called out in [[SEBoK Users and Uses]] in Part 1, which suggest ways in which you might find valuable information for differ7 KB (1,192 words) - 23:17, 2 May 2024
- This article is part of the [[Systems Approach Applied to Engineered Systems]] knowledge area (K ...s would be an engine management unit as part of an engine, or an engine as part of a car. The WSoI in a system context may encapsulate some aspects of SoS15 KB (2,335 words) - 21:46, 2 May 2024
- ...ms engineering}} (SE) as discussed in [[Foundations of Systems Engineering|Part 2: Foundations of Systems Engineering]]. Each part of the SEBoK is divided into KAs, which are groupings of information with a9 KB (1,300 words) - 22:03, 2 May 2024
- ...ensive systems in terms of total cost of ownership or loss of human life. Part 7 presents the problems in the [[FAA Advanced Automation System (AAS)|Unit ...investment in thorough SE results in highly cost-effective systems. Figure 1 summarizes the analyses data by Werner Gruhl, which relates investment leve9 KB (1,272 words) - 23:09, 2 May 2024
- ...d generalists and their ideological works, such as Vitruvius and his ''Ten Books on Architecture'' (Vitruvius: Morgan transl. 1960). “Architecture” in R ...neering and Software Engineering]] knowledge area in [[Related Disciplines|Part 6: Related Disciplines]] describes how software engineering applies the pri16 KB (2,139 words) - 23:24, 2 May 2024
- ...d whole system design down to specific requirements and interfaces (Figure 1) ...stems]], the networking of the constituent systems in a SoS is often a key part of an SoS. In some circumstances, the entire content of a SoS is informatio7 KB (944 words) - 22:30, 2 May 2024
- This topic is part of the [[Systems Thinking]] knowledge area (KA). The {{Term|Scope (glossary ...ntext provides the tool for applying this balance and is thus an essential part of any systems approach and hence, of systems engineering (SE) as well. App14 KB (2,062 words) - 23:22, 2 May 2024
- ...ems in general and SE in particular. Its references inform customers about books and articles that provide important perspectives on systems and SE. [[SEBoK Introduction|Part 1: SEBoK Introduction]]:14 KB (1,992 words) - 21:58, 2 May 2024
- ...om ''"transferring the burden"'' (in systems thinking terms) to some other part of the environment that unable to sustain that burden (Senge 2006). This al ...ing) and systems engineering (SE) have developed and matured, for the most part, independently; therefore, the systems science and the systems engineering19 KB (2,682 words) - 22:50, 2 May 2024
- ...oices]] article, those models described fall into three major categories: (1) primarily pre-specified single-step or multistep, also known as traditiona ...tems engineering activities, please see the other knowledge areas (KAs) in Part 3.25 KB (3,555 words) - 23:02, 2 May 2024
- ...out using the most advanced techniques and technologies available in their part of the project. The discussion devolves into an argument about how to do th ...concepts. In particular, Stueti could benefit from reading the articles in Part 2: [[Foundations of Systems Engineering]], particularly [[The Nature of Sys13 KB (2,122 words) - 22:23, 2 May 2024
- ISO/IEC. 1998. ISO/IEC 14598-5:1998, ''Information technology — Part 5: Process for evaluators''. Geneva, Switzerland: International Organizatio ...2003a. ISO/IEC TR 9126-2:2003, ''Software engineering — Product quality — Part 2: External metrics''. Geneva, Switzerland: International Organization for23 KB (2,921 words) - 22:51, 2 May 2024
- ...stems, and defense and space systems. The collaboration domains in Figure 1 below are a first approximation to the collaboration required from differen |+'''Table 1. Service Systems Engineering Domain Collaboration.''' (Hipel et al. 2007) R15 KB (2,090 words) - 23:04, 2 May 2024
- Each part of the SEBoK is divided into knowledge areas (KAs), which are groupings of ...red Systems]] knowledge area in SEBoK [[Foundations of Systems Engineering|Part 2]]. First, with so many diverse {{Term|Stakeholder (glossary)|stakeholder26 KB (3,515 words) - 22:53, 2 May 2024