%0 Journal Article
%T Advanced method for fine
%A Adrien Quaglia
%A Christian Reiser
%A Jean-Fran£żois Blassel
%A Matteo Dini
%A Rapha£żl Royer-De-Vericourt
%J International Journal of Space Structures
%@ 2059-8033
%D 2018
%R 10.1177/0266351118767373
%X In this article, a multi-objective optimization is presented to find optimal cable adjustment for statically indeterminate cable structures. Combining a constrained least-square method and the non-dominated sorting genetic algorithm II, a trade-off curve of potential solutions is generated from which a final set of cable adjustments can be chosen by the designer. Optimal solutions are measured against solutions found by a trial-and-error method on the George C. King Bridge case study. Results show that the proposed strategy can successfully find adjustments that significantly reduce overall tension errors, with fewer cables involved
%K cable adjustment
%K case study
%K George C. King Bridge
%K hyperstatic cable systems
%K multi-objective genetic algorithm
%K network-arch bridge
%K optimization
%K statically indeterminate cable systems
%K tension-adjustment
%U https://journals.sagepub.com/doi/full/10.1177/0266351118767373