Add to ORKGThe inverse problem of real-time reconstruction of full-field structural displacements, strains, and stresses is addressed using an inverse finite element method based on shear deformable shell finite element technology. Utilizing surface strain measurements from strain sensors mounted on load-carrying structural components, the methodology enables accurate computations of the three-dimensional displacement field for a general built-up shell structure undergoing multi-axial deformations. The strain and stress computations are then carried out at the element level using strain-displacement and constitutive relations. This high fidelity computational technology is essential for providing feedback to the actuation and control systems of the ne...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
An inverse finite element method is presented for beam and frame structures. The method is aimed at ...
Dynamically tracking three-dimensional displacements and stresses of a structure by using discrete o...
The inverse problem of real-time reconstruction of full-field structural displacements is addressed ...
The paper presents recent theoretical developments and numerical results obtained at NASA Langley R...
The inverse Finite Element Method (iFEM) is applied to reconstruct the displacement field of a shell...
An important and challenging technology aimed at the next generation of aerospace vehicles is that o...
A new state-of-the art methodology named as inverse Finite Element Method (iFEM) is adopted to solve...
The structural health monitoring (SHM) plays an essential role in system health management applicati...
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 s...
Real-time reconstruction of the deformed structural shape using in situ strain measurements is an in...
A robust and efficient computational method for reconstructing the elastodynamic structural response...
A frame deformation estimation algorithm is investigated for the purpose of real-time control and he...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
An inverse finite element method is presented for beam and frame structures. The method is aimed at ...
Dynamically tracking three-dimensional displacements and stresses of a structure by using discrete o...
The inverse problem of real-time reconstruction of full-field structural displacements is addressed ...
The paper presents recent theoretical developments and numerical results obtained at NASA Langley R...
The inverse Finite Element Method (iFEM) is applied to reconstruct the displacement field of a shell...
An important and challenging technology aimed at the next generation of aerospace vehicles is that o...
A new state-of-the art methodology named as inverse Finite Element Method (iFEM) is adopted to solve...
The structural health monitoring (SHM) plays an essential role in system health management applicati...
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 s...
Real-time reconstruction of the deformed structural shape using in situ strain measurements is an in...
A robust and efficient computational method for reconstructing the elastodynamic structural response...
A frame deformation estimation algorithm is investigated for the purpose of real-time control and he...
A robust and efficient computational method for reconstructing the three-dimensional displacement fi...
The inverse Finite Element Method (iFEM) is receiving more attention for shape sensing due to its in...
An inverse finite element method is presented for beam and frame structures. The method is aimed at ...
Dynamically tracking three-dimensional displacements and stresses of a structure by using discrete o...