Convection Reaction

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Description

This benchmark models a chemical reaction by a convection-reaction partial differential equation. More details can be found in ^[1], ^[2], ^[3] and ^[4], ^[5].

Origin

This benchmark is part of the SLICOT Benchmark Examples for Model Reduction^[5].

Data

The system matrices $A$ , $B$ , $C$ are available from the SLICOT benchmarks page: pde.zip and are stored as MATLAB .mat file.

Dimensions

System structure:

\begin{array}{rcl} \dot{x} (t) & = & A x (t) + B u (t) \\ y (t) & = & C x (t) \end{array}

System dimensions:

$A \in ℝ^{84 \times 84}$ , $B \in ℝ^{84 \times 1}$ , $C \in ℝ^{1 \times 84}$ .

Citation

To cite this benchmark, use the following references:

For the benchmark itself and its data:

Niconet e.V., SLICOT - Subroutine Library in Systems and Control Theory, http://www.slicot.org

@MANUAL{slicot_pde,
 title =        {{SLICOT} - Subroutine Library in Systems and Control Theory},
 organization = {Niconet e.V.},
 address =      {\url{http://www.slicot.org}},
 key =          {SLICOT}
}

For the background on the benchmark:

@ARTICLE{Saa88,
 author =       {Y. Saad},
 title =        {Projection and deflation method for partial pole assignment in linear state feedback},
 journal =      {IEEE Transactions on Automatic Control},
 volume =       {33},
 number =       {3},
 pages =        {290--297},
 year =         {1988},
 doi =          {10.1109/9.406}
}

References

↑ P. Raschman, M. Kuhicek, M. Maros. Waves in distributed chemical systems: Experiments and computations. In: New Approaches to Nonlinear Problems in Dynamics - Proceedings of the Asilomar Conference Ground: 271--288, SIAM, 1980.
↑ Y. Saad. Projection and deflation method for partial pole assignment in linear state feedback, IEEE Transactions on Automatic Control, 33(3): 290--297, 1988.
↑ E.J. Grimme. Krylov Projection Methods for Model Reduction. PhD Thesis, University of Illinois at Urbana-Champaign, 1998.
↑ Y. Chahlaoui, P. Van Dooren, A collection of Benchmark examples for model reduction of linear time invariant dynamical systems, Working Note 2002-2: 2002.
↑ ^5.0 ^5.1 Y. Chahlaoui, P. Van Dooren, Benchmark Examples for Model Reduction of Linear Time-Invariant Dynamical Systems, Dimension Reduction of Large-Scale Systems, Lecture Notes in Computational Science and Engineering, vol 45: 379--392, 2005.

[raschman80-1] P. Raschman, M. Kuhicek, M. Maros. Waves in distributed chemical systems: Experiments and computations. In: New Approaches to Nonlinear Problems in Dynamics - Proceedings of the Asilomar Conference Ground: 271--288, SIAM, 1980.

[saad88-2] Y. Saad. Projection and deflation method for partial pole assignment in linear state feedback, IEEE Transactions on Automatic Control, 33(3): 290--297, 1988.

[grimme97-3] E.J. Grimme. Krylov Projection Methods for Model Reduction. PhD Thesis, University of Illinois at Urbana-Champaign, 1998.

[chahlaoui02-4] Y. Chahlaoui, P. Van Dooren, A collection of Benchmark examples for model reduction of linear time invariant dynamical systems, Working Note 2002-2: 2002.

[chahlaoui05-5] 5.0 ^5.1 Y. Chahlaoui, P. Van Dooren, Benchmark Examples for Model Reduction of Linear Time-Invariant Dynamical Systems, Dimension Reduction of Large-Scale Systems, Lecture Notes in Computational Science and Engineering, vol 45: 379--392, 2005.

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