Data treatment EDIC-CEDEC Model Thorsten Arnold. Aufarbeitung von GIS-Daten für Import nach C++...
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Transcript of Data treatment EDIC-CEDEC Model Thorsten Arnold. Aufarbeitung von GIS-Daten für Import nach C++...
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Data treatment
EDIC-CEDEC Model
Thorsten Arnold
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Aufarbeitung von GIS-Datenfür Import nach C++
Problem: - Parzellas belong to multiple Irrigation sectors
Solution: - Identify parcels belonging to Multiple sectors- Assign parcel to irrigation sector With largest relation
New problems … - Roads and rivers defined as poligons, just like plots …
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Processing of Model output
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Model Coupling & Sensitivity Analysis
Mod A
Mod B Mod C
Assumptions on external variables
(„World Scenario“)
PA ↔ CPA ↔ B
PB↔C
PA
PB
PC
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Another model setup …Same problem for sensitivity analysis ?!?
Mod AMod B Mod C
XML - KernelData
GUI
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WaSiM
Economic
Agents
XML - KernelData
GUI
CropWAT
Looking Foreward … one option
Cha
nnel
Sys
tem
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WaSiM
Economic
Agents
XML - KernelData
GUI
CropWAT
Looking Foreward … another option
Channel Sys
tem
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Calibration & Sensitivity
Distributed input data X
pdf :
p (X) = p (X1, X2, …, Xi)
(assumed to be known)
Realization of random variable Y
Summary Statistics:
<Y (ς) > = ∫ gς (X,P) p(X,P) dXΩ
With:
X input vectorY ouput vectorΩ k-dim space of input factorsς moment
Y= f( X,P )
Model as „blackbox“
Input Output
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Parameter space & Response surface
How do changes in P affect model outputs Y ( P )?
Model results do not depend on one parameter P1. (no „turning importance“! )
Is model redundant in P1 ?(check „reducing importance“! )
Model results sensitive to both parameters P1 and P2
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Sensitivity Local sensitivity in parameters Importance for calibration
Sensitivity to parameters changes with P !
P1 (-1, 1.4)
P2 (0.3,0) P3 (-0.1, -0.7)
Problem: How does my „response surface“ look like?
)(),()(
21)( P
dP
dYP
dP
dYYgrad P
Gradient
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Sensitivity (V): ScreeningNumeric screening experiments
• Control experimentVary no factors: baseline run Y (P), with P = [P1, P2, …, PN]
• One-at-a-time (OAT) screeningVary one factor Pi Pi + Δ ; compare results Y (P, Pi) to control experiment Y (P)
• Factorial experimentVary all factors at the same time
(random or quasi-random representative of P from pdf, such as Latin Hypercube)
• Fractional Factorial experimentVary many factors Pi, Choose intelligent methods to save run-time
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Sensitivity (V)Moris‘s OAT design
Mean ( Y (P) )
Var ( Y (P))
Increasing dynamic influence
(interaction, nonlinearity)
ΔP6
x
ΔP1
x
ΔP3
x
ΔP5
x ΔP2
x
Δ P4
x
Dynamic parameters
Linear parameters
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Sensitivity & Model coupling
• How does the sensitivity of one model effect the output of other models?
• Which input data / parameter are responsible for most ouput variation / output uncertainty of each module?
• In a coupled model, how can be dealt with parameter sensitivity in order to minimize output uncertainty?