Study of Structure Identification Method Using Sensitivity Analysis
スポンサーリンク
概要
- 論文の詳細を見る
A method for modifying characteristic matrices (such as stiffness and mass matrices) derived from FEM analysis by engenpairs and the frequency response measured through experiments is studied from two points of view using an FEM beam model. One is reducing the number of design variables and the other is selecting the natural mode sensitivity analysis method which provides the most effective modification. The former can be accomplished qualitatively. As for the later, the simultaneous inverse sensitivity method developed by the first author is found to be most effective when the Gauss-Seidel Method is used for calculating the triangular decomposition of the changed structure using that of the present structure. We attempt to identify design variables with frequency response using the simultaneous inverse sensitivity method. We demonstrate that the residual compliance matrix can be acquired through experiments, although this had been very difficult to accomplish previously.
- 一般社団法人日本機械学会の論文
- 1989-06-15
著者
-
Hagiwara Ichiro
Nissan Motor Co. Ltd.
-
Arai Akira
Nissan Motor Co. Ltd.
-
NAGABUCHI Kazuo
NISSAN MOTOR Co., Ltd.,
-
Nagabuchi Kazuo
Nissan Motor Co. Ltd.
関連論文
- Dynamic System Identification by Neural Network : A New Fast Learning Method Based on Error Back Propagation
- Dynamic Analysis of Thin-Walled Box Columns Subjected to Axial Crushing Using the Finite-Element Method
- Technical Development of Radiated Noise Reduction Using Sensitivity Analysis : Series C : Vibration, Control Engineering, Engineering for Industry
- Development of New Mode-Superposition Technique for Truncating Lower- and/or Higher-Frequency Modes : Application of Eigenmode Sensitivity Analysis for Systems with Repeated Eigenvalues
- A Substructure Method Incorporating Homogenization for Finding Optimum Vehicle Body Panel Topologies
- Development of Eigenmode and Frequency Response Sensitivity Analysis Methods for Coupled Acoustic-Structural Systems
- Study of Structure Identification Method Using Sensitivity Analysis
- Optimum Analysis for Structural Vibration Character : First Report Proposition of a New Eigen Mode Sensitive Analysis and Comparison between Some Different Methods : Series C : Vibration, Control Engineering, Engineering for Industry
- Development of New Mode-Superposition Technique for Truncating Lower- and/or Higher-Frequency Modes : Application to Eigenmode Sensitivity Analysis
- Eigenfrequency Maximization of Plates by Optimization of Topology Using Homogenization and Mathematical Programming
- Sensitivity Calculation Methods for Conducting Modal Frequency Response Analysis of Coupled Acoustic-Structural Systems