31. Orosz, M., Duffy, B., Charlton, C., Saunders, H., & Thomas, E. Unique Challenges in Mission Engineering and Technology Integration, pages 665-681. John Wiley & Sons, Ltd, 2023.
Unique Challenges in Mission Engineering and Technology Integration [link]Paper  doi  abstract   bibtex   
Summary Undertaking mission engineering and technology integration in large enterprise systems such as automotive manufacturing or space-based communication systems offer many challenges. These systems are typically composed of multiple interconnected systems and subsystems, each developed and maintained by multiple vendors operating on different timelines and priorities. Mission engineering refers to applying systems engineering processes and principles to the complete product lifecycle – requirements analysis, design, development, integration, testing, deployment, and sustainment of a complex systems of systems project. Such processes and principles include DevSecOps, digital engineering, model-based systems engineering (MBSE), Agile and other systems design and development processes. Technology integration refers to the processes and principles of inserting technology into both the engineering and development processes of a system's acquisition program. Examples of technology insertion include adding or expanding system requirements to meet changing market conditions or reacting to changing operating environments. This chapter discusses the unique challenges and offers recommended strategies in undertaking mission engineering and technology insertion in large enterprise systems with a particular focus on software-based systems. Where appropriate, reference to hardware-only or hybrid hardware and software-based systems will also be noted.
@inbook{doi:https://doi.org/10.1002/9781394203314.ch31,
    author = {Orosz, Michael and Duffy, Brian and Charlton, Craig and Saunders, Hector and Thomas, Ellins},
    publisher = {John Wiley & Sons, Ltd},
    isbn = {9781394203314},
    title = {Unique Challenges in Mission Engineering and Technology Integration},
    booktitle = {Systems Engineering for the Digital Age},
    chapter = {31},
    pages = {665-681},
    doi = {https://doi.org/10.1002/9781394203314.ch31},
    url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/9781394203314.ch31},
    eprint = {https://onlinelibrary.wiley.com/doi/pdf/10.1002/9781394203314.ch31},
    year = {2023},
    keywords = {digital engineering, DevSecOps, model-based systems engineering, MBSE, large-system acquisition, software acquisition},
    abstract = {Summary Undertaking mission engineering and technology integration in large enterprise systems such as automotive manufacturing or space-based communication systems offer many challenges. These systems are typically composed of multiple interconnected systems and subsystems, each developed and maintained by multiple vendors operating on different timelines and priorities. Mission engineering refers to applying systems engineering processes and principles to the complete product lifecycle – requirements analysis, design, development, integration, testing, deployment, and sustainment of a complex systems of systems project. Such processes and principles include DevSecOps, digital engineering, model-based systems engineering (MBSE), Agile and other systems design and development processes. Technology integration refers to the processes and principles of inserting technology into both the engineering and development processes of a system's acquisition program. Examples of technology insertion include adding or expanding system requirements to meet changing market conditions or reacting to changing operating environments. This chapter discusses the unique challenges and offers recommended strategies in undertaking mission engineering and technology insertion in large enterprise systems with a particular focus on software-based systems. Where appropriate, reference to hardware-only or hybrid hardware and software-based systems will also be noted.}
}
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