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Five Levels of Iterative Systems Engineering (Benchmarks) — [Read now→](https://flowengineering.com/blog/five-levels-of-iterative-systems-engineering/)

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## Summary
The webinar discussed the transition to agile and iterative approaches in aerospace engineering, emphasizing the importance of clear impact-driven goals, role definitions, and continuous iteration. The panelists also addressed challenges in managing scope creep and the need to balance stakeholder expectations while embracing an iterative approach.

## Highlights
- Responsible Engineer: On the importance of every engineer owning requirements and being involved in systems engineering
- Differences between Legacy philosophies and agile approach in aerospace engineering
- Need for clear impact-driven goals, role definitions, and continuous iteration
- Challenges of managing scope creep and benefits of failing fast and learning from mistakes
- Balancing stakeholder expectations while embracing an iterative approach
- Importance of learning from internal processes and customer feedback
- Use of tools like continuous integration and continuous deployment to facilitate iterative design and improve efficiency

## Key Insights
- The importance of every engineer owning requirements and being involved in systems engineering highlights the collaborative nature of agile engineering. This approach ensures that each engineer understands the project’s goals and contributes to its success.
- The differences between Legacy philosophies and the agile approach emphasize the need for aerospace engineering to adapt to changing market needs. Agile methodologies enable faster iteration and adjustment, ensuring that the final product remains relevant.
- The emphasis on clear impact-driven goals, role definitions, and continuous iteration highlights the importance of focus and adaptability in agile engineering. By setting clear objectives and continuously iterating, aerospace projects can achieve faster and more efficient processes.
- The discussion of managing scope creep and the benefits of failing fast and learning from mistakes emphasizes the importance of flexibility and learning in agile engineering. By embracing failures as learning opportunities, aerospace projects can improve and deliver better results.
- Balancing stakeholder expectations while embracing an iterative approach acknowledges the challenges of satisfying both government-funded projects and investor-backed companies. Finding a balance between risk appetite and stakeholder needs is crucial in agile engineering.
- The importance of learning from internal processes and customer feedback highlights the iterative nature of agile engineering. By constantly evaluating and adjusting based on feedback, aerospace projects can ensure that they are developing the right solutions.
- The use of tools like continuous integration and continuous deployment showcases the role of technology in facilitating iterative design and improving efficiency. These tools enable faster iteration cycles and help aerospace projects adapt to changing requirements.

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