Virtual reality aided embodiment design : application to riveted joints in aeronautics. Gao, Y. Technical Report 2013. ![Virtual reality aided embodiment design : application to riveted joints in aeronautics [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper abstract bibtex This study focused on the application of virtual reality in the embodiment design phase of product design. Decisions during this phase should be justified by physical proof and two main parts are involved in this phase: the design department and the calculation department. A lot of time is wasted during the transmission of information between these two departments. Moreover, in most cases, the embodiment design is multi-objective and depends on a lot of expert knowledge which is very hard to formalize. A method was brought out to solve this problem by integrating virtual reality as a user interface into the process of embodiment design. This method was applied to the design of riveted joints in aeronautics and was implemented in the tactile table and the CAVE system. The results were compared with the results from the optimization and decision support methodology used in the doctoral thesis of Arnaud Colligan[1] and led to the conclusion that this method can reduce the design time dramatically and in some cases, even better design solution can be obtained by this method. Finally, the combination of these two methods was proposed and evaluated.
@techreport{gao_virtual_2013,
type = {personnalcommunication},
title = {Virtual reality aided embodiment design : application to riveted joints in aeronautics},
shorttitle = {Virtual reality aided embodiment design},
url = {http://scd.ensam.eu/flora/servlet/ViewManager?menu=menu_view&record=default:UNIMARC:139422&setCache=default.UNIMARC},
abstract = {This study focused on the application of virtual reality in the embodiment design phase of product design. Decisions during this phase should be justified by physical proof and two main parts are involved in this phase: the design department and the calculation department. A lot of time is wasted during the transmission of information between these two departments. Moreover, in most cases, the embodiment design is multi-objective and depends on a lot of expert knowledge which is very hard to formalize. A method was brought out to solve this problem by integrating virtual reality as a user interface into the process of embodiment design. This method was applied to the design of riveted joints in aeronautics and was implemented in the tactile table and the CAVE system. The results were compared with the results from the optimization and decision support methodology used in the doctoral thesis of Arnaud Colligan[1] and led to the conclusion that this method can reduce the design time dramatically and in some cases, even better design solution can be obtained by this method. Finally, the combination of these two methods was proposed and evaluated.},
urldate = {2014-02-01},
author = {Gao, Yuan},
year = {2013}
}
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