This chapter summarizes the insights and contributions presented throughout the book on DevOps for Cyber-Physical Systems (CPS), offering a cohesive summary of key developments across the DevOps lifecycle–from traceability and testing to deployment and ethics. It highlights emerging research themes such as runtime-aware validation, uncertainty modeling, sustainable DevOps practices, and fairness in CPS operations. Drawing on contributions from EU projects and recent academic advances, the chapter reflects on the evolving needs of CPS engineering and identifies actionable future directions, including simulation realism, green DevOps, and standardization. By advocating a holistic, responsible, and data-driven approach to DevOps, this chapter aims to guide researchers and practitioners toward dependable and ethically sound CPS development.

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Future Directions of DevOps for Cyber-Physical Systems

  • Sebastiano Panichella,
  • Paolo Arcaini,
  • Myra B. Cohen,
  • Aitor Arrieta

摘要

This chapter summarizes the insights and contributions presented throughout the book on DevOps for Cyber-Physical Systems (CPS), offering a cohesive summary of key developments across the DevOps lifecycle–from traceability and testing to deployment and ethics. It highlights emerging research themes such as runtime-aware validation, uncertainty modeling, sustainable DevOps practices, and fairness in CPS operations. Drawing on contributions from EU projects and recent academic advances, the chapter reflects on the evolving needs of CPS engineering and identifies actionable future directions, including simulation realism, green DevOps, and standardization. By advocating a holistic, responsible, and data-driven approach to DevOps, this chapter aims to guide researchers and practitioners toward dependable and ethically sound CPS development.