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Optimization . Finding the best fit

Optimization . Finding the best fit. Traditional Part Inspection. Traditional Datum Alignment & Go / No-Go. Nominal . Measured . Traditional Datum Alignment & Go / No-Go. What if we can’t scrap? What if we could use ALL available tolerance? Could it pass? OR

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Optimization . Finding the best fit

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  1. Optimization. Finding the best fit

  2. Traditional Part Inspection

  3. Traditional Datum Alignment & Go / No-Go Nominal Measured

  4. Traditional Datum Alignment & Go / No-Go • What if we can’t scrap? • What if we could use ALL available tolerance? • Could it pass? OR Could I find the minimal amount or rework?

  5. Relationships • Points to Features • Points to Surfaces • Points to Points • Features to Features • Etc.

  6. BEST-FIT FUNCTIONAL SURFACES THESE WILL DOMINATE FIXED PART TO BE ASSEMBLED (ALIGNED) 14 POINTS 31 POINTS

  7. FITTING THE DOOR: “THE REAL LIFE” Door Axis Hinge Door Floor

  8. FITTING THE DOOR: “THE REAL LIFE” Measured point Hinge GroupHinge Object1 Group1 Group2 Object2 Object3 Group3

  9. FITTING THE DOOR: “THE REAL LIFE” These points willdominate REGULAR BEST-FIT

  10. The Car Door

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