![Innovative Families of Double-Layer Tensegrity Grids: Quastruts and Sixstruts | Journal of Structural Engineering | Vol 139, No 9 Innovative Families of Double-Layer Tensegrity Grids: Quastruts and Sixstruts | Journal of Structural Engineering | Vol 139, No 9](https://ascelibrary.org/cms/asset/dc824f20-5489-41aa-b83f-b583f018af90/figure12.jpg)
Innovative Families of Double-Layer Tensegrity Grids: Quastruts and Sixstruts | Journal of Structural Engineering | Vol 139, No 9
![Analytical equations for the connectivity matrices and node positions of minimal and extended tensegrity plates - Shuhui Jiang, Robert E Skelton, Edwin A Peraza Hernandez, 2020 Analytical equations for the connectivity matrices and node positions of minimal and extended tensegrity plates - Shuhui Jiang, Robert E Skelton, Edwin A Peraza Hernandez, 2020](https://journals.sagepub.com/cms/10.1177/0956059920902375/asset/images/large/10.1177_0956059920902375-fig4.jpeg)
Analytical equations for the connectivity matrices and node positions of minimal and extended tensegrity plates - Shuhui Jiang, Robert E Skelton, Edwin A Peraza Hernandez, 2020
![Design and Construction of a Tensegrity Tower. A Visual and Statistical Case Study of a Tensegrity System - GRIN Design and Construction of a Tensegrity Tower. A Visual and Statistical Case Study of a Tensegrity System - GRIN](https://cdn.openpublishing.com/thumbnail/products/374508/large.webp)
Design and Construction of a Tensegrity Tower. A Visual and Statistical Case Study of a Tensegrity System - GRIN
![Optimization of Footbridges Composed of Prismatic Tensegrity Modules | Journal of Bridge Engineering | Vol 24, No 12 Optimization of Footbridges Composed of Prismatic Tensegrity Modules | Journal of Bridge Engineering | Vol 24, No 12](https://ascelibrary.org/cms/asset/2b93daab-4ddb-4b9f-90ae-1940b43e5eb0/figure5.jpg)
Optimization of Footbridges Composed of Prismatic Tensegrity Modules | Journal of Bridge Engineering | Vol 24, No 12
![Innovative Families of Double-Layer Tensegrity Grids: Quastruts and Sixstruts | Journal of Structural Engineering | Vol 139, No 9 Innovative Families of Double-Layer Tensegrity Grids: Quastruts and Sixstruts | Journal of Structural Engineering | Vol 139, No 9](https://ascelibrary.org/cms/asset/f888c69c-6fa0-4db8-ab1b-ef90305fa442/figure24.jpg)
Innovative Families of Double-Layer Tensegrity Grids: Quastruts and Sixstruts | Journal of Structural Engineering | Vol 139, No 9
![A machine learning-based probabilistic computational framework for uncertainty quantification of actuation of clustered tensegrity structures | SpringerLink A machine learning-based probabilistic computational framework for uncertainty quantification of actuation of clustered tensegrity structures | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs00466-023-02284-0/MediaObjects/466_2023_2284_Fig3_HTML.png)
A machine learning-based probabilistic computational framework for uncertainty quantification of actuation of clustered tensegrity structures | SpringerLink
![A machine learning-based probabilistic computational framework for uncertainty quantification of actuation of clustered tensegrity structures | SpringerLink A machine learning-based probabilistic computational framework for uncertainty quantification of actuation of clustered tensegrity structures | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs00466-023-02284-0/MediaObjects/466_2023_2284_Fig5_HTML.png)