Abstract
The modelling of first and second order direction-dependent systems using bilinear models is considered, for perturbation using periodic signals. Equivalence between the two systems can be obtained for first order systems under binary perturbation. In most other cases, a close match can be obtained. The relationship between the parameters of a direction-dependent system and those of a bilinear system is investigated.
Original language | English |
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Pages | 1-6 |
Number of pages | 7 |
DOIs | |
Publication status | Published - 2007 |
Event | IEEE Instrumentation & Measurement Technology Conference 2007 - Warsaw, Poland Duration: 1 May 2007 → 3 May 2007 |
Conference
Conference | IEEE Instrumentation & Measurement Technology Conference 2007 |
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Abbreviated title | IMTC |
Country/Territory | Poland |
City | Warsaw |
Period | 1/05/07 → 3/05/07 |
Keywords
- bilinear systems
- mean square error methods
- modelling
- perturbation techniques
- bilinear models
- binary perturbation
- direction dependent systems
- first order systems
- nonlinear systems
- periodic signals
- second order systems
- system identification
- Electrohydraulics
- Frequency
- Friction
- Mathematical model
- Multimedia systems
- Neural networks
- Nonlinear systems
- Signal processing
- Switches
- Yttrium
- Bilinear systems
- Direction-dependent systems
- Modelling
- Perturbation signals
- System identification