Client's Needs
How to design and industrialize a mechanical part, while improving performances, reducing planning, increasing technological maturity from TRL 3 to 6?
OUR APPROACH
Here are the 3 main phases that we followed:
1.
Define product structure and performances to identify KDD and involved disciplines over whole lifecycle.
2.
Define design loops of progressive granulometry involving whole disciplines and allowing to refine KDD and sanctioned by an arbitration ritual.
3.
Set-up and structure a weekly collaborative meeting to synchronize whole disciplines, refine risks evaluation, evaluate product maturity, instantiate activities and consolidate planning.
CREATED VALUE
A collaborative team mindset to converge on a global alignment of product performances and project planning:
- Early identification of transdisciplinary impacts through weekly meetings,
- Early global identification of risks and anticipation of mitigation plan especially on manufacturing and design inconsistencies,
- -3 months on a 15 months reference planning due to sharing and collaborative consolidation of planning.
Our latest case studies
Transformation towards systems engineering
A world leader in propulsion. Projects conducted in a far too sequential and...
How to master the agile automation of a mining company while creating a supplier scalable solution?
A multinational mining, metals, natural gas petroleum company. Needs: How to master the...
How to valuably “ideate” to identify new opportunities for product to step ahead?
Aerospace OEM. A world leader in access to space. Needs: How to identify...