Difference between revisions of "Introduction to Systems Engineering"

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m (Text replacement - "<center>'''SEBoK v. 1.9.1, released 16 October 2018'''</center>" to "<center>'''SEBoK v. 2.0, released 1 June 2019'''</center>")
 
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The primary focus of the SEBoK is on the current baseline of knowledge describing the practice of domain independent [[Systems Engineering (glossary)|systems engineering]] (SE).  This Knowledge Area (KA) contains topic articles which provide an overview of SE practice and discuss its economic value, historic evolution and key relationships.
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The primary focus of the SEBoK is on the current baseline of knowledge describing the practice of domain independent {{Term|Systems Engineering (glossary)|systems engineering}} (SE).  This Knowledge Area (KA) contains topic articles which provide an overview of SE practice and discuss its economic value, historic evolution and key relationships.
 
   
 
   
 
==Topics==
 
==Topics==
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==Systems Engineering==
 
==Systems Engineering==
SE is an interdisciplinary approach and means to enable the realization of successful systems. Successful systems must satisfy the needs of its customers, users and other stakeholders. Some key elements of systems engineering are highlighted in Figure 1 and include:
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SE is a transdisciplinary approach and means to enable the realization of successful systems. Successful systems must satisfy the needs of its customers, users and other stakeholders. Some key elements of systems engineering are highlighted in Figure 1 and include:
*The principles and concepts that characterize a system, where a [[System (glossary)|system]] is an interacting combination of [[System Element (glossary)|system elements]] to accomplish a defined objective(s). The system interacts with its environment, which may include other systems, users, and the natural environment. The system elements that compose the system may include hardware, software, firmware, people, information, techniques, facilities, services, and other support elements.
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*The principles and concepts that characterize a system, where a {{Term|System (glossary)|system}} is an interacting combination of {{Term|System Element (glossary)|system elements}} to accomplish a defined objective(s). The system interacts with its environment, which may include other systems, users, and the natural environment. The system elements that compose the system may include hardware, software, firmware, people, information, techniques, facilities, services, and other support elements.
*A [[Systems Engineer (glossary)|systems engineer]] is a person or role who supports this interdisciplinary approach. In particular, the [[Systems Engineering (glossary)|systems engineer]] often serves to elicit and translate customer needs into specifications that can be realized by the system development team.
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*A {{Term|Systems Engineer (glossary)|systems engineer}} is a person or role who supports this transdisciplinary approach. In particular, the {{Term|Systems Engineering (glossary)|systems engineer}} often serves to elicit and translate customer needs into specifications that can be realized by the system development team.
*In order to help realize successful systems, the systems engineer supports a set of [[Life Cycle Process (glossary)|life cycle processes]] beginning early in conceptual design and continuing throughout the [[Life Cycle (glossary)|life cycle]] of the system through its manufacture, deployment, use and disposal. The systems engineer must analyze, specify, design, and verify the system to ensure that its functional, interface, performance, physical, and other quality characteristics, and cost are balanced to meet the needs of the system stakeholders.
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*In order to help realize successful systems, the systems engineer supports a set of {{Term|Life Cycle Process (glossary)|life cycle processes}} beginning early in conceptual design and continuing throughout the {{Term|Life Cycle (glossary)|life cycle}} of the system through its manufacture, deployment, use and disposal. The systems engineer must analyze, specify, design, and verify the system to ensure that its functional, interface, performance, physical, and other quality characteristics, and cost are balanced to meet the needs of the system stakeholders.
*A systems engineer helps ensure the elements of the system fit together to accomplish the objectives of the whole, and ultimately satisfy the needs of the [[Customer (glossary)|customers]] and other [[Stakeholder (glossary)|stakeholders]] who will acquire and use the system.
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*A systems engineer helps ensure the elements of the system fit together to accomplish the objectives of the whole, and ultimately satisfy the needs of the {{Term|Customer (glossary)|customers}} and other {{Term|Stakeholder (glossary)|stakeholders}} who will acquire and use the system.
  
 
[[File:SE_Key_Concepts.jpeg|thumb|500px|center|'''Figure 1. Key Elements of Systems Engineering.''' (SEBoK Original)]]
 
[[File:SE_Key_Concepts.jpeg|thumb|500px|center|'''Figure 1. Key Elements of Systems Engineering.''' (SEBoK Original)]]
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<center>[[Structure of the SEBoK|< Previous Article]] | [[SEBoK Introduction|Parent Article]] | [[Systems Engineering Overview|Next Article >]]</center>
 
<center>[[Structure of the SEBoK|< Previous Article]] | [[SEBoK Introduction|Parent Article]] | [[Systems Engineering Overview|Next Article >]]</center>
  
<center>'''SEBoK v. 2.0, released 1 June 2019'''</center>
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<center>'''SEBoK v. 2.1, released 31 October 2019'''</center>
  
 
[[Category:Part 1]]
 
[[Category:Part 1]]
 
[[Category:Introduction to Systems Engineering]]
 
[[Category:Introduction to Systems Engineering]]

Latest revision as of 18:40, 25 October 2019

The primary focus of the SEBoK is on the current baseline of knowledge describing the practice of domain independent systems engineeringsystems engineering (SE). This Knowledge Area (KA) contains topic articles which provide an overview of SE practice and discuss its economic value, historic evolution and key relationships.

Topics

Each part of the SEBoK is divided into KAs, which are groupings of information with a related theme. The KAs in turn are divided into topics. This KA contains the following topics:

Systems Engineering

SE is a transdisciplinary approach and means to enable the realization of successful systems. Successful systems must satisfy the needs of its customers, users and other stakeholders. Some key elements of systems engineering are highlighted in Figure 1 and include:

  • The principles and concepts that characterize a system, where a systemsystem is an interacting combination of system elementssystem elements to accomplish a defined objective(s). The system interacts with its environment, which may include other systems, users, and the natural environment. The system elements that compose the system may include hardware, software, firmware, people, information, techniques, facilities, services, and other support elements.
  • A systems engineersystems engineer is a person or role who supports this transdisciplinary approach. In particular, the systems engineersystems engineer often serves to elicit and translate customer needs into specifications that can be realized by the system development team.
  • In order to help realize successful systems, the systems engineer supports a set of life cycle processeslife cycle processes beginning early in conceptual design and continuing throughout the life cyclelife cycle of the system through its manufacture, deployment, use and disposal. The systems engineer must analyze, specify, design, and verify the system to ensure that its functional, interface, performance, physical, and other quality characteristics, and cost are balanced to meet the needs of the system stakeholders.
  • A systems engineer helps ensure the elements of the system fit together to accomplish the objectives of the whole, and ultimately satisfy the needs of the customerscustomers and other stakeholdersstakeholders who will acquire and use the system.
Figure 1. Key Elements of Systems Engineering. (SEBoK Original)

References

None.


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