6533b873fe1ef96bd12d44b7
RESEARCH PRODUCT
Upport vector machines for nonlinear kernel ARMA system identification.
José Luis Rojo-álvarezJordi Muñoz-maríAníbal R. Figueiras-vidalGustau Camps-vallsEmilio Soria-olivasManel Martínez-ramónA. Navia-vazquezsubject
Computer Science::Machine LearningStatistics::TheoryComputer Networks and CommunicationsBiomedical signal processingInformation Storage and RetrievalMachine learningcomputer.software_genrePattern Recognition AutomatedStatistics::Machine LearningArtificial IntelligenceApplied mathematicsStatistics::MethodologyAutoregressive–moving-average modelComputer SimulationMathematicsTelecomunicacionesHardware_MEMORYSTRUCTURESSupport vector machinesModels StatisticalNonlinear system identificationbusiness.industryAutocorrelationSystem identificationSignal Processing Computer-AssistedGeneral MedicineComputer Science ApplicationsSupport vector machineNonlinear systemKernelAutoregressive modelNonlinear DynamicsARMA modelling3325 Tecnología de las TelecomunicacionesArtificial intelligenceNeural Networks ComputerbusinesscomputerSoftwareAlgorithmsReproducing kernel Hilbert spacedescription
Nonlinear system identification based on support vector machines (SVM) has been usually addressed by means of the standard SVM regression (SVR), which can be seen as an implicit nonlinear autoregressive and moving average (ARMA) model in some reproducing kernel Hilbert space (RKHS). The proposal of this letter is twofold. First, the explicit consideration of an ARMA model in an RKHS (SVM-ARMA 2k) is proposed. We show that stating the ARMA equations in an RKHS leads to solving the regularized normal equations in that RKHS, in terms of the autocorrelation and cross correlation of the (nonlinearly) transformed input and output discrete time processes. Second, a general class of SVM-based system identification nonlinear models is presented, based on the use of composite Mercer¿s kernels. This general class can improve model flexibility by emphasizing the input¿output cross information (SVM-ARMA 4k), which leads to straightforward and natural combinations of implicit and explicit ARMA models (SVR-ARMA 2k and SVR-ARMA 4k). Capabilities of these different SVM-based system identification schemes are illustrated with two benchmark problems. Teoría de la Señal y Comunicaciones
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2006-11-01 | IEEE transactions on neural networks |