Identification
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QXD Output
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Samples Figure 7.14. I/O data set for the distillation column QXD Thus a new identification is performed with d = 1, nB = 3, nA = 2 and the results obtained are S = 1 M = 1(RLS) A = 1 FILE: QXD NS = 256 DELAY D=1 COEFFICIENTS OF POLYNOMIAL A A(1) = -.23806 A(2) = -.18820 COEFFICIENTS OF POLYNOMIAL B B(1) = .07982 B(2) = .18303 B(3) = .13244 VALIDATION TEST: Whiteness of the residual error System variance: 0.0542 Model variance: 0.0274 Error variance R(0): 0.0268 NORMALIZED AUTOCORRELATION FUNCTIONS Validation Criterion:Theor. Val.: |RN(i)| 0.136, Pract. Val.: |RN(i)| 0.15 RN(0) = 1.0000 RN(1) = -0.1216 RN(2) = -0.2278 RN(3) = 0.0112 RN(4) = 0.0718 It is observed that the validation is unsatisfactory since the residual error is not sufficiently white (|RN(2)|) > 0.15). We may consider that this situation arises from the fact that the disturbances are incorrectly modeled by the structure S1. A different structure (S3) and the output error method with extended estimation model (M3), still with decreasing adaptation gain, are then tried. In this way a disturbance model will be identified. The results obtained are S = 3 M = 3 (OEEPM) A = 1 FILE:QXD NS = 256 DELAY D=1 COEFFICIENTS OF POLYNOMIAL A A(1) = -.5065 A(2) = -.1595 COEFFICIENTS OF POLYNOMIAL B B(1) = 0.0908 B(2) = .1612 B(3) = .0776 COEFFICIENTS OF POLYNOMIAL C C(1) = -.4973 C(2) = -.2593 VALIDATION TEST: Whiteness of the residual error System variance: 0.0542 Model variance: 0.0308 Error variance R(0): 0.0231 NORMALIZED AUTOCORRELATION FUNCTIONS Validation Criterion:Theor. Val.: |RN(i)| 0.136, Pract. Val.: |RN(i)| 0.15 RN(0) = 1.000000 RN(1) = -0.0241 RN(2) = -0.0454 RN(3) = 0.0518 RN(4) = 0.1014 The validation results obtained are very good. This is therefore a representative model. Figure 7.15 gives the step response for this model with nA = 2 (gain normalized to 1). The analysis of this response shows that the rise time is tR 0 Ts (with a delay d = 1). On the other hand, since the number of cells of the generator register of the PRBS is N = 8, the duration of the largest pulse is less than tR. The validation will thus not be significant for the steady state gain (several models may be validated without their steady state gain being the same). A direct verification of the steady state gain shows that the value obtained (0.987) is correct. Note also that the polynomial B(q-1) is unstable, B(1) < B(2) revealing the presence of a fractional delay greater than 0.5Ts (which explains the presence of an unstable zero). S = 3 M = 3 (OEEPM) A = 1 FILE:QXD NS = 256 DELAY D=1 COEFFICIENTS OF POLYNOMIAL A A(1) = -.7096 COEFFICIENTS OF POLYNOMIAL B B(1) = .0839 B(2) = 0.1415 B(3) = 0.0528 COEFFICIENTS OF POLYNOMIAL C C(1) = -.688 VALIDATION TEST: Whiteness of the residual error System variance: 0.0542 Model variance: 0.02952 Error variance R(0): 0.0227 NORMALIZED AUTOCORRELATION FUNCTIONS Validation Criterion:Theor. Val.: |RN(i)| 0.136, Pract. Val.: |RN(i)| 0.15 RN(0) = 1.0000 RN(1) = -0.0035 RN(2) = -0.0748 RN(3) = -0.0131 RN(4) = 0.0442 As the coefficient A(2) is small if compared to A(1) and the validation results are very good, one may think of identifying a new model with nA=1. In this case the results are 1.2
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