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A core Course on Modeling Introduction to Modeling 0LAB0 0LBB0 0LCB0 0LDB0 S.30.

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Presentation on theme: "A core Course on Modeling Introduction to Modeling 0LAB0 0LBB0 0LCB0 0LDB0 S.30."— Presentation transcript:

1 A core Course on Modeling Introduction to Modeling 0LAB0 0LBB0 0LCB0 0LDB0 c.w.a.m.v.overveld@tue.nl v.a.j.borghuis@tue.nl S.30

2 Conclusion: interpret result Reflection: right outcome? Right problem? (problem validation) Right concepts? (concepts validation) Right model? (model verification) Right outcome? (outcome verification) Right answer? (answer verification)

3 Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. input uncertainty output uncertainty http://www.morguefile.com/archive/display/588958 Confidence for glass box models ( numerical confidence )

4 Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. input uncertainty output uncertainty http://www.morguefile.com/archive/display/229070 Confidence for glass box models ( numerical confidence )

5 Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. input uncertainty output uncertainty http://www.morguefile.com/archive/display/229070 Confidence for glass box models ( numerical confidence )

6 Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. input uncertainty output uncertainty http://www.morguefile.com/archive/display/229070 Confidence for glass box models ( numerical confidence )

7 For y=f(x), spreading in x causes spreading in y. For small  x, we have  y = (  y /  x)  x  (dy/dx)  x = f ’(x)  x = f ’(x)  x input uncertainty output uncertainty Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. Confidence for glass box models ( numerical confidence ) http://www.morguefile.com/archive/display/531309

8 So for relative spreading  y/y and  x/x (expressed in %), we have (  y/y) / (  x/x) = f ’(x) x/y := c(x) (condition number). input uncertainty output uncertainty Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. Confidence for glass box models ( numerical confidence ) http://www.morguefile.com/archive/display/531309

9 c(x)=1: 5% spread in x causes 5% spread in y. Large c(x): instable! The condition number is the ratio in relative spreading between output and input: the propagation of uncertainty. input uncertainty output uncertainty Quantitative validation: in a glass box model, input uncertainties may be amplified or dampened. Confidence for glass box models ( numerical confidence ) http://www.morguefile.com/archive/display/531309

10 For y=f(x), we have (  y/y)=c(x) (  x/x) What about y=f(x 1,x 2,x 3,…)? http://www.morguefile.com/archive/display/165272 Confidence for glass box models ( numerical confidence )

11 For y=f(x), we have (  y/y)=c(x) (  x/x) What about y=f(x 1,x 2,x 3,…)? http://www.morguefile.com/archive/display/165272 Confidence for glass box models ( numerical confidence )

12 For y=f(x), we have (  y/y)=c(x) (  x/x) What about y=f(x 1,x 2,x 3,…)? First try: (  y/y)=  i | c(x i ) | (  x i /x i ). This is too pessimistic: if x i are independent, they will not all be extreme at the same time. A better formula is: (  y/y) 2 =  i c 2 (x i ) (  x i /x i ) 2. http://www.morguefile.com/archive/display/165272 Confidence for glass box models ( numerical confidence )

13 Propagation of uncertainty: (  y/y) 2 =  i c 2 (x i ) (  x i /x i ) 2. Properties: All  x i /x i occur squared. Therefore, spreading proportional to  n rather than n for n arguments. All  x i /x i occur squared. Therefore, spreading proportional to  n rather than n for n arguments. All c i occur squared. So even if  f/  x i <0: no compensation with ‘negative contributions’. All c i occur squared. So even if  f/  x i <0: no compensation with ‘negative contributions’. One rotten apple … One rotten apple … To seek room for improvement, search for x i with large  i and large c i. To seek room for improvement, search for x i with large  i and large c i. http://cdn.morguefile.com/imageData/public/files/j/jeltovski/preview/fldr_2011_08_20/file8111313896923.jpg Confidence for glass box models ( numerical confidence )

14 Summary Confidence for glass box models: Structural validity: do we believe the mechanism inside the glass box? Numerical validity: what is the numerical uncertainty of the model outcome? Sensitivity analysis and the propagation of uncertainty in input data: these are expressed in terms of the condition numbers. Sensitivity analysis helps to decide if a model should be improved.

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