Josefina López Herrera Institut d’Informàtica i Robòtica Industrial Universitat Politècnica de Catalunya Edifici Nexus Gran Capità 2-4 Barcelona 08034, Spain [email protected]Improving the Forecasting Capability of Fuzzy Inductive Reasoning by Means of Dynamic Mask Allocation François E. Cellier Electrical & Computer Engineering Dept. University of Arizona P.O.Box 210104 Tucson, AZ 85721-0104 U.S.A [email protected]
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Josefina López Herrera Institut d’Informàtica i Robòtica Industrial
Josefina López Herrera Institut d’Informàtica i Robòtica Industrial Universitat Politècnica de Catalunya Edifici Nexus Gran Capità 2-4 Barcelona 08034, Spain [email protected]. François E. Cellier Electrical & Computer Engineering Dept. University of Arizona P.O.Box 210104 - PowerPoint PPT Presentation
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Josefina López HerreraInstitut d’Informàtica i Robòtica Industrial
DMAFIR Algorithm to Predict Time Series with Multiple Regimes
• The behavioral patterns change between segments.• Van-der-Pol oscillator series is introduced. This oscillator
is described by the following second-order differential equation: 0)1( 2 xxxx
x1• By choosing the outputs of the two integrators as two state
variables:
x2• The following state-space model is obtained:
21 12
212 )1(
2y
2 Output Time Series
DMAFIR Algorithm to Predict Time Series with Multiple Regimes
• To start the experiment, three different models were identified using three different values of 5.35.25.1
• The first 80 data points of each time series were discarded, as they represent the transitory period. The next 800 data points were used to learn the behavior of each series and the subsequent 200 data points were used as testing data.
• With a sampling rate of 0.05, 200 data points correspond aprox. to one oscillation period. Four limit cycles were used for training the model, and one limit cycle was used for testing.
DMAFIR Algorithm to Predict Time Series with Multiple Regimes
9146.0))((~5.39085.0))((~5.29342.0))47(),((~5.1
ttyfyttyfy
ttyttyfyQualityMaskRegime
* the input/output behaviors will be different because of the different training data used by the two models
Van-der-Pol Series Using FIR• Only with Optimal Mask.
• Compares the real value with their predictions.
• Because of the completely deterministic nature of this time series, the predictions should be perfect. They are not perfect due to data deprivation. Since 800 data points were used for training, the experience data base contains only four cycles.
One-day Predictions of the Van-der-Pol Series Using FIR With
• The model can not predict the peaks of the time series with5.3,5.2
• FIR can only predict behaviors that it has seen before.
• The values along the diagonal are smallest and the values in the two remaining corners are largest.• FIR during the prediction looks for five good neighbors, it only encounters four that are truly pertinent.
One-day Predictions of the Van-der-Pol Multiple Regimes Series.
• A time series be constructed in which the variable assumes a value of 1.5 during one segment, followed by a value of 2.5 during the second time segment, followed 3.5 The multiple regimes series consists of 553 samples.
Predictions Errors for Multiple Regimes Van-der-Pol Series
1195.19317.15.32978.25.28759.55.1
DMAFIR
errorModel
• The model obtained for
= 1.5 cannot predict the higher peaks of the second and third time segment very well.
• The DMAFIR error demostrates that this new technique can indeed be successfully applied to the problem of predicting time series that operate in multiple regimes.
Variable Structure System Prediction with DMAFIR
• A time-varing system exhibits an entire spectrum of different behavioral patterns. To demostrate DMAFIR’s ability of dealing with time-varying systems, the Van-der-Pol oscillator is used. A series was generated, in which
changes its value continuously in the range from 1.0 to 3.5. The time series contains 953 records sampled using a sampling interval of 0.05. The time series contains 953 records sampled using a sampling interval of 0.05.
One-day Prediction of the Van-der-Pol Time-Varying Series
One-day Predictions of the Van-der-Pol Time-Varying Series Using DMAFIR
with the Similarity Confidence Measure
2997.18791.15.34864.15.27431.55.1
DMAFIRforforfor
errorModel
• Predictions Errors for
Time-varying Van-der-Pol Series.
Conclusions
• FIRs confidence measure is exploited to dynamically select the one of a set of models that best predicts the behavior of the output of the given time
• The algorithm is shown to improve the quality of the forecasts made:– single regime (Barcelona)– multiple regimes (Van der Pol)– time-varying systems (Van der Pol)