An inverse finite element method is presented for beam and frame structures. The method is aimed at the reconstruction of the complete displacement field starting from in situ measurements of surface strains. Several numerical examples are presented for statically loaded beam and frame structures which demonstrate the predictive capability and accuracy of the approach
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
A new state-of-the art methodology named as inverse Finite Element Method (iFEM) is adopted to solve...
The inverse problem of real-time reconstruction of full-field structural displacements, strains, and...
An inverse Finite Element Method (iFEM) is presented for beam and frame structures. The method is ai...
A robust and efficient computational method for reconstructing the elastodynamic structural response...
The paper presents recent theoretical developments and numerical results obtained at NASA Langley Re...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The methodology known as "shape sensing" allows the reconstruction of the displacement field of a st...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured st...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured s...
The reconstruction of the elastic deformed shape of a structure from strain measurements is a field ...
A frame deformation estimation algorithm is investigated for the purpose of real-time control and he...
AbstractA robust and efficient computational method for reconstructing the elastodynamic structural ...
This work presents a shape sensing method capable of handling some geometrical complexities commonly...
The reconstruction of 2D/3D deformation and stress fields using a limited number of strain sensors i...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
A new state-of-the art methodology named as inverse Finite Element Method (iFEM) is adopted to solve...
The inverse problem of real-time reconstruction of full-field structural displacements, strains, and...
An inverse Finite Element Method (iFEM) is presented for beam and frame structures. The method is ai...
A robust and efficient computational method for reconstructing the elastodynamic structural response...
The paper presents recent theoretical developments and numerical results obtained at NASA Langley Re...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The methodology known as "shape sensing" allows the reconstruction of the displacement field of a st...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured st...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured s...
The reconstruction of the elastic deformed shape of a structure from strain measurements is a field ...
A frame deformation estimation algorithm is investigated for the purpose of real-time control and he...
AbstractA robust and efficient computational method for reconstructing the elastodynamic structural ...
This work presents a shape sensing method capable of handling some geometrical complexities commonly...
The reconstruction of 2D/3D deformation and stress fields using a limited number of strain sensors i...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
A new state-of-the art methodology named as inverse Finite Element Method (iFEM) is adopted to solve...
The inverse problem of real-time reconstruction of full-field structural displacements, strains, and...