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[[Category:benchmark]] | [[Category:benchmark]] | ||
[[Category:parametric]] | [[Category:parametric]] | ||
[[Category:ODE]] | |||
[[Category:linear]] | |||
[[Category:time invariant]] | |||
[[Category:SISO]] | [[Category:SISO]] | ||
[[Category:frequency data]] | |||
[[Category:data-driven]] | |||
==Description== | |||
===Motivation=== | |||
<figure id="fig:cavity">[[File:cavity.png|450px|thumb|right|<caption>Open cavity geometry.</caption>]]</figure> | |||
===Considered data=== | |||
== | The benchmark contains a set of frequency-domain reponses provided at varying frozen Reynolds parametric values. The numerical values data as inspired (but slightly modified) by the reference paper, given as Matlab data. This benchmark contains a set of frequency-domain/parametric-domain input-output data computed from a high fidelity simulator, and given as the triple | ||
:<math> | |||
\{\omega_i,p_j,H_{ij}^{n_y\times n_u}\}_{i=1,j=1}^{N,M}, | |||
</math> | |||
where <math>H_{ij}\in\mathbb C^{n_y\times n_u}</math> represents the transfer from <math>n_u=1</math> input signal (upward cavity pressure) to <math>n_y=1</math> measurement output (downward cavity pressure), evaluated at varying frequencies <math>\omega_i\in\mathbb R</math> [rad/s], for <math>i=1,\dots,N=421</math>. | |||
Specifically, the frequencies are between 0.1Hz until 42.1Hz in steps of 0.1Hz. | |||
==Origin== | ==Origin== | ||
Collaboration between [https://www.onera.fr ONERA] DTIS (dynamical systems and information departement) and DAAA (Fluid mechanics departement). The data come from a fluid simulator (coded in FreeFem++). The model is constructed by D. Sipp and post-processing was performed jointly by P. Vuillemin and C. Poussot-Vassal. | |||
==Data== | ==Data== | ||
===Description=== | |||
===Objective=== | |||
== | ==Citation== | ||
To cite this benchmark, use the following references: | |||
== | * For the benchmark itself and its data: | ||
::The MORwiki Community, '''Fluid Flow Linearized Open Cavity Model'''. MORwiki - Model Order Reduction Wiki, 2021. https://morwiki.mpi-magdeburg.mpg.de/morwiki/index.php/Fluid_Flow_Linearized_Open_Cavity_Model | |||
* For the background on the benchmark: | |||
@inproceedings{PoussotLPVS:2015, | |||
author = {C. Poussot-Vassal and D. Sipp}, | |||
title = {{Parametric reduced order dynamical model construction of a fluid flow control problem}}, | |||
booktitle = {Proceedings of the 1st IFAC Workshop on Linear Parameter Varying Systems}, | |||
address = {Grenoble, France}, | |||
month = {October}, | |||
year = {2015}, | |||
pages = {133-138}, | |||
} | |||
* For the origin of the geometry from a fluid view point | |||
@article{Barbagallo:2008, | |||
Author = {A. Barbagallo and D. Sipp and P.J. Schmid}, | |||
Journal = {Journal of Fluid Mechanics}, | |||
Pages = {1-50}, | |||
Title = {{Closed-loop control of an open cavity flow using reduced-order models}}, | |||
Volume = {641}, | |||
Year = {2008} | |||
} | |||
==References== | ==References== | ||
<references /> | |||
==Contact== | |||
'' [[User:Poussotvassal]] '' | |||
Revision as of 10:12, 4 June 2021
Note: This page has not been verified by our editors.
Description
Motivation
Considered data
The benchmark contains a set of frequency-domain reponses provided at varying frozen Reynolds parametric values. The numerical values data as inspired (but slightly modified) by the reference paper, given as Matlab data. This benchmark contains a set of frequency-domain/parametric-domain input-output data computed from a high fidelity simulator, and given as the triple
where represents the transfer from input signal (upward cavity pressure) to measurement output (downward cavity pressure), evaluated at varying frequencies [rad/s], for . Specifically, the frequencies are between 0.1Hz until 42.1Hz in steps of 0.1Hz.
Origin
Collaboration between ONERA DTIS (dynamical systems and information departement) and DAAA (Fluid mechanics departement). The data come from a fluid simulator (coded in FreeFem++). The model is constructed by D. Sipp and post-processing was performed jointly by P. Vuillemin and C. Poussot-Vassal.
Data
Description
Objective
Citation
To cite this benchmark, use the following references:
- For the benchmark itself and its data:
- The MORwiki Community, Fluid Flow Linearized Open Cavity Model. MORwiki - Model Order Reduction Wiki, 2021. https://morwiki.mpi-magdeburg.mpg.de/morwiki/index.php/Fluid_Flow_Linearized_Open_Cavity_Model
- For the background on the benchmark:
@inproceedings{PoussotLPVS:2015,
author = {C. Poussot-Vassal and D. Sipp},
title = Template:Parametric reduced order dynamical model construction of a fluid flow control problem,
booktitle = {Proceedings of the 1st IFAC Workshop on Linear Parameter Varying Systems},
address = {Grenoble, France},
month = {October},
year = {2015},
pages = {133-138},
}
- For the origin of the geometry from a fluid view point
@article{Barbagallo:2008,
Author = {A. Barbagallo and D. Sipp and P.J. Schmid}, Journal = {Journal of Fluid Mechanics}, Pages = {1-50}, Title = Template:Closed-loop control of an open cavity flow using reduced-order models, Volume = {641}, Year = {2008}
}
References