The methodology known as "shape sensing" allows the reconstruction of the displacement field of a structure starting from strain measurements, with considerable implications for structural monitoring, as well as for the control and implementation of smart structures. An approach to shape sensing is based on the inverse Finite Element Method (iFEM) that uses a variational principle enforcing a least-squares compatibility between measured and analytical strain measures. The structural response is reconstructed without the knowledge of the mechanical properties and load conditions but based only on the relationship between displacements and strains. In order to efficiently apply iFEM to the most common structural typologies of civil engineerin...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The inverse Finite Element Method (iFEM) is an algorithm able to compute the deformed shape of a str...
The inverse Finite Element Method (iFEM) has recently demonstrated to be a valuable tool, not only f...
The paper presents recent theoretical developments and numerical results obtained at NASA Langley Re...
A robust and efficient computational method for reconstructing the elastodynamic structural response...
An inverse Finite Element Method (iFEM) is presented for beam and frame structures. The method is ai...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured s...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
The reconstruction of 2D/3D deformation and stress fields using a limited number of strain sensors i...
The reconstruction of the elastic deformed shape of a structure from strain measurements is a field ...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured st...
An inverse finite element method is presented for beam and frame structures. The method is aimed at ...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The inverse Finite Element Method (iFEM) is an algorithm able to compute the deformed shape of a str...
The inverse Finite Element Method (iFEM) has recently demonstrated to be a valuable tool, not only f...
The paper presents recent theoretical developments and numerical results obtained at NASA Langley Re...
A robust and efficient computational method for reconstructing the elastodynamic structural response...
An inverse Finite Element Method (iFEM) is presented for beam and frame structures. The method is ai...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured s...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
The reconstruction of 2D/3D deformation and stress fields using a limited number of strain sensors i...
The reconstruction of the elastic deformed shape of a structure from strain measurements is a field ...
Shape sensing, i.e., reconstruction of the displacement field of a structure from surface-measured st...
An inverse finite element method is presented for beam and frame structures. The method is aimed at ...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The inverse Finite Element Method (iFEM) is an algorithm able to compute the deformed shape of a str...
The inverse Finite Element Method (iFEM) has recently demonstrated to be a valuable tool, not only f...