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Identification of Reduced-Oder Dynamic Models of Gas Turbines

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Presentation on theme: "Identification of Reduced-Oder Dynamic Models of Gas Turbines"— Presentation transcript:

1 Identification of Reduced-Oder Dynamic Models of Gas Turbines
CSC Student Seminars (Spring/Summer, 2006) Identification of Reduced-Oder Dynamic Models of Gas Turbines PhD Student: Xuewu Dai Supervisor: Tim Breikin and Hong Wang

2 Introduction 1. Introduction 2. Reduced-order Model
3. Long-term Prediction 4. Dynamic Gradient Descent 5. Nonlinear Least-Squares Optimization 6. Future Works

3 1. Introduction Modlling of Gas Turbines Fault Detection
Condition Monitoring

4 Aims Reducing Computational Complexity: Real time
Improving Prediction Accuracy: Long-term prediction Robustness

5 2. Reduced Order Thermodynamic models: 1. High order : 26th
2. Non-linear Linearisation Our ARX models : 1. Reduced order: 1st, 2nd … 2. Linear:

6 3. Long-term Prediction Model Model b. Long-term Prediction Model
a. One-step Ahead Prediction Model

7 Model Equations One-step ahead prediction 2. Long-term prediction

8 Challenges Computational Burden
How many iterations need to identify the parameters? Dependency of Prediction Errors (Non-Gaussian Noise) MSE=9.1318 Autocorrelation of prediction errors

9 4. Dynamic Gradient Descent
Objective Function Global Gradient and local gradient

10 Dynamic Gradient Descent

11 Results 1: deepest direction

12 BFGS direction

13 5. Nonlinear Least-squares Optimization (Gauss-Newton)

14 Search direction, step size and initial value
Deepest descent: inverse global gradient Nonlinear Least Squares: Gauss-Newton Step size: fixed, adjustable, line search Initial value: Blind guess: [ ] LSE: [ ]

15 Result 3 Gauss-Newton

16 Prediction of 1st Order Model

17 Comparison of 1st Order Model
Methods MSE a b Iterations LSE 1 ANFIS N/A 200 GD 0.9809 0.0376 Exhausted Search 10000 DGD1* 1000 DGD2* 101 DGD3* 98 DGD1: Deepest descent direction and adjusting step size DGD2: BFGS direction and adjusting step size DGD3: Gauss-Newton and line search

18 High Order Model initial (by LSE) : [1.2805 -0.29191 0.10582 0.15903]
final: [ ]

19 6. Future Works Initial value Problem: Robustness Problem: ???
Applying such learning algorithm to Neural Networks Model structure selection by autocorrelation of prediction errors NARMX models

20 CSC Student Seminars (Spring/Summer, 2006) Thanks

21 Appendix

22 Initial value problem manual setting of initial value
[ ] [ ] Final MSE= setting initial value by LSE [ ] [ ] Final MSE=

23 appendix

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