AbstractWe develop a new formulation for the form-finding of tensegrity structures in which the primary variables are the Cartesian components of element lengths. Both an analytical and a numerical implementation of the formulation are described; each require a description of the connectivity of the tensegrity, with the iterative numerical method also requiring a random starting vector of member force densities. The analytical and numerical form-finding of tensegrity structures is demonstrated through six examples, and the results obtained are compared and contrasted with those available in the literature to verify the accuracy and viability of the suggested methods
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
AbstractThis paper presents a novel form-finding algorithm for tensegrity structures that is based o...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
We develop a new formulation for the form-finding of tensegrity structures in which the primary vari...
AbstractA novel and versatile numerical form-finding procedure that requires only a minimal knowledg...
This study proposes a general computational framework for the form-finding of tensegrity structures....
AbstractA numerical method is presented for form-finding of tensegrity structures. Eigenvalue analys...
A novel and versatile numerical technique to solve a self-stress equilibrium state is adopted herein...
Tensegrity structures are composed by pre-stressed pin-jointed compression (struts) and tensión (cab...
Tensegrity structures are composed by pre-stressed pin-jointed compression (struts) and tensión (cab...
We give an algorithm for solving the form-finding problem, that is, for finding stable placements of...
This paper presents a unifying framework for the form-finding and topology-finding of tensegrity str...
The analysis of statically indeterminate structures requires the calculation of an initial equilibri...
A general approach is presented to analyze tensegrity structures by examining their equilibrium. It ...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
AbstractThis paper presents a novel form-finding algorithm for tensegrity structures that is based o...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
We develop a new formulation for the form-finding of tensegrity structures in which the primary vari...
AbstractA novel and versatile numerical form-finding procedure that requires only a minimal knowledg...
This study proposes a general computational framework for the form-finding of tensegrity structures....
AbstractA numerical method is presented for form-finding of tensegrity structures. Eigenvalue analys...
A novel and versatile numerical technique to solve a self-stress equilibrium state is adopted herein...
Tensegrity structures are composed by pre-stressed pin-jointed compression (struts) and tensión (cab...
Tensegrity structures are composed by pre-stressed pin-jointed compression (struts) and tensión (cab...
We give an algorithm for solving the form-finding problem, that is, for finding stable placements of...
This paper presents a unifying framework for the form-finding and topology-finding of tensegrity str...
The analysis of statically indeterminate structures requires the calculation of an initial equilibri...
A general approach is presented to analyze tensegrity structures by examining their equilibrium. It ...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...
AbstractThis paper presents a novel form-finding algorithm for tensegrity structures that is based o...
Symmetry can simplify the form-finding process for tensegrity structures; and this paper will descri...