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Enterprise systems engineering
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Enterprise systems engineering
Enterprise systems engineering (ESE) is the discipline that applies systems engineering to the design of an enterprise. As a discipline, it includes a body of knowledge, principles, and processes tailored to the design of enterprise systems.
An enterprise is a complex, socio-technical system that comprises interdependent resources of people, information, and technology that must interact to fulfill a common mission.
Enterprise systems engineering incorporates all the tasks of traditional systems engineering but is further informed by an expansive view of the political, operational, economic, and technological (POET) contexts in which the system(s) under consideration are developed, acquired, modified, maintained, or disposed.[citation needed]
Enterprise systems engineering may be appropriate when the complexity of the enterprise exceeds the scope of the assumptions upon which textbook systems engineering are based. Traditional systems engineering assumptions include relatively stable and well understood requirements, a system configuration that can be controlled, and a small, easily discernible set of stakeholders.[citation needed]
An enterprise systems engineer must produce a different kind of analysis on the people, technology, and other components of the organization in order to see the whole enterprise. As the enterprise becomes more complex, with more parameters and people involved, it is important to integrate the system as much as possible to enable the organization to achieve a higher standard.
Four elements are needed for enterprise systems engineering to work. These include development through adaption, strategic technical planning, enterprise governance, and ESE processes (with stages).
Development through adaptation is a way to compromise with the problems and obstacles in complex systems. Over time, the environment changes and adaptation is required to continue development. For example, mobile phones have undergone numerous modifications since their introduction. Initially, the devices were considerably larger than those seen in later iterations. Over time, variations in size and design have been observed across different generations of mobile phones. Additionally, the evolution of mobile data technology from 1G to 5G has influenced the speed and convenience of mobile phone usage.
Strategic technical planning (STP) gives the enterprise the picture of their aim and objectives. STP components are:
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Enterprise systems engineering
Enterprise systems engineering (ESE) is the discipline that applies systems engineering to the design of an enterprise. As a discipline, it includes a body of knowledge, principles, and processes tailored to the design of enterprise systems.
An enterprise is a complex, socio-technical system that comprises interdependent resources of people, information, and technology that must interact to fulfill a common mission.
Enterprise systems engineering incorporates all the tasks of traditional systems engineering but is further informed by an expansive view of the political, operational, economic, and technological (POET) contexts in which the system(s) under consideration are developed, acquired, modified, maintained, or disposed.[citation needed]
Enterprise systems engineering may be appropriate when the complexity of the enterprise exceeds the scope of the assumptions upon which textbook systems engineering are based. Traditional systems engineering assumptions include relatively stable and well understood requirements, a system configuration that can be controlled, and a small, easily discernible set of stakeholders.[citation needed]
An enterprise systems engineer must produce a different kind of analysis on the people, technology, and other components of the organization in order to see the whole enterprise. As the enterprise becomes more complex, with more parameters and people involved, it is important to integrate the system as much as possible to enable the organization to achieve a higher standard.
Four elements are needed for enterprise systems engineering to work. These include development through adaption, strategic technical planning, enterprise governance, and ESE processes (with stages).
Development through adaptation is a way to compromise with the problems and obstacles in complex systems. Over time, the environment changes and adaptation is required to continue development. For example, mobile phones have undergone numerous modifications since their introduction. Initially, the devices were considerably larger than those seen in later iterations. Over time, variations in size and design have been observed across different generations of mobile phones. Additionally, the evolution of mobile data technology from 1G to 5G has influenced the speed and convenience of mobile phone usage.
Strategic technical planning (STP) gives the enterprise the picture of their aim and objectives. STP components are: