This paper presents a method for optimal sensor placement for flexible shell structures. The optimization objectives are the number of sensors, as a surrogate for implementation cost, and an observability measure. The latter is derived from the observability gramian and considers observation energy of the least observable state. The methodology is tested on a flexible thin-shell structure that is modeled using Finite Element methods. The equations of motion are transformed into modal space and model reduction methods are applied. The resulting model is used for the optimization of the sensor locations. The optimization is performed by the Multi-objective Simulated Annealing algorithm that uses a dominance-based energy formulation for the comparison of different optimal solution candidates. 2011 IEEE.
%0 Conference Paper
%1 weickgenannt_optimal_2011
%A Weickgenannt, Martin
%A Neuhäuser, Stefan
%A Henke, Benjamin
%A Sobek, Werner
%A Sawodny, Oliver
%B 2011 International Conference on Fluid Power and Mechatronics (FPM), August 17-20, 2011, Beijing, China
%D 2011
%K (structures), actuators, analysis, annealing damping, element equations, finite flexible mathematical model, observability, optimization, placement, sensor shells simulated sobek strain, structures,
%P 374--380
%R 10.1109/FPM.2011.6045791
%T Optimal sensor placement for state estimation of flexible shell structures
%X This paper presents a method for optimal sensor placement for flexible shell structures. The optimization objectives are the number of sensors, as a surrogate for implementation cost, and an observability measure. The latter is derived from the observability gramian and considers observation energy of the least observable state. The methodology is tested on a flexible thin-shell structure that is modeled using Finite Element methods. The equations of motion are transformed into modal space and model reduction methods are applied. The resulting model is used for the optimization of the sensor locations. The optimization is performed by the Multi-objective Simulated Annealing algorithm that uses a dominance-based energy formulation for the comparison of different optimal solution candidates. 2011 IEEE.
@inproceedings{weickgenannt_optimal_2011,
abstract = {This paper presents a method for optimal sensor placement for flexible shell structures. The optimization objectives are the number of sensors, as a surrogate for implementation cost, and an observability measure. The latter is derived from the observability gramian and considers observation energy of the least observable state. The methodology is tested on a flexible thin-shell structure that is modeled using Finite Element methods. The equations of motion are transformed into modal space and model reduction methods are applied. The resulting model is used for the optimization of the sensor locations. The optimization is performed by the Multi-objective Simulated Annealing algorithm that uses a dominance-based energy formulation for the comparison of different optimal solution candidates. 2011 IEEE.},
added-at = {2023-11-27T15:10:57.000+0100},
author = {Weickgenannt, Martin and Neuhäuser, Stefan and Henke, Benjamin and Sobek, Werner and Sawodny, Oliver},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/22f2c5dcacbc04960332a916f8c403af4/jmueller},
booktitle = {2011 {International} {Conference} on {Fluid} {Power} and {Mechatronics} ({FPM}), {August} 17-20, 2011, {Beijing}, {China}},
doi = {10.1109/FPM.2011.6045791},
interhash = {22dc8d6520be48dbc1e24df7a3376f73},
intrahash = {2f2c5dcacbc04960332a916f8c403af4},
keywords = {(structures), actuators, analysis, annealing damping, element equations, finite flexible mathematical model, observability, optimization, placement, sensor shells simulated sobek strain, structures,},
pages = {374--380},
timestamp = {2023-11-27T15:10:57.000+0100},
title = {Optimal sensor placement for state estimation of flexible shell structures},
year = 2011
}