Abstract:
This article studies unknown input observer design for linear parameter-varying systems in a bounded error context. By presenting a novel unknown input observer structure...Show MoreMetadata
Abstract:
This article studies unknown input observer design for linear parameter-varying systems in a bounded error context. By presenting a novel unknown input observer structure, the output equation of linear parameter-varying systems is not restricted to be in a linear form. Moreover, by integrating decoupling technique and set-membership approach, a compromise is achieved between the restrictiveness and the conservativeness of estimation. Based on P-radius criteria, sufficient design conditions are derived in terms of linear matrix inequalities. Finally, numerical simulations of a vehicle lateral dynamics system are conducted to demonstrate the validity of the presented method.
Published in: IEEE Transactions on Automatic Control ( Volume: 66, Issue: 9, September 2021)
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- IEEE Keywords
- Index Terms
- Linear System ,
- Unknown Input ,
- Linear Parameter Varying ,
- Unknown Input Observer ,
- Linear Parameter-varying Systems ,
- Parameter-varying Systems ,
- Unknown Input Observer Design ,
- Sufficient Conditions ,
- Linear Form ,
- Linear Matrix Inequalities ,
- Output Equation ,
- Design Parameters ,
- Class Of Systems ,
- Minkowski Sum
- Author Keywords
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Linear System ,
- Unknown Input ,
- Linear Parameter Varying ,
- Unknown Input Observer ,
- Linear Parameter-varying Systems ,
- Parameter-varying Systems ,
- Unknown Input Observer Design ,
- Sufficient Conditions ,
- Linear Form ,
- Linear Matrix Inequalities ,
- Output Equation ,
- Design Parameters ,
- Class Of Systems ,
- Minkowski Sum
- Author Keywords
