• română
    • English
    • français
    • Deutsch
    • español
    • italiano
  • română 
    • română
    • English
    • français
    • Deutsch
    • español
    • italiano
  • Logare
Vezi articolul 
  •   Pagina principală
  • Scientific papers - Annals of "Dunarea de Jos" University of Galati - Analele științifice ale Universității "Dunărea de Jos" din Galați
  • Annals of the University "Dunarea de Jos" of Galati. Fascicle III: Electrotechnics, Electronics, Automation Control and Informatics
  • Vezi articolul
  •   Pagina principală
  • Scientific papers - Annals of "Dunarea de Jos" University of Galati - Analele științifice ale Universității "Dunărea de Jos" din Galați
  • Annals of the University "Dunarea de Jos" of Galati. Fascicle III: Electrotechnics, Electronics, Automation Control and Informatics
  • Vezi articolul
JavaScript is disabled for your browser. Some features of this site may not work without it.

Modeling Complex Stump -Prosthesis with Graphical User Interface

Thumbnail
View/Open
ugal_f3_nr1_Ilea_2017.pdf (3.984Mb)
Dată
2017
Autor
Ilea, Mihai
Turnea, Marius
Arotăriței, Dragoș
Rotariu, Mariana
Metadata
Arată înregistrarea completă a articolului
Abstract
The Graphical User Interface applied in biomechanical processes modeling can be found at the interface of two fields: biology and mathematics. The stumpprosthesis is the interface between the human and technology. Discomfort at the level of the prosthetic sockets continues to be a critical challenge for both prosthesis designers and amputees. The quality and comfort of the prosthetic socket determines the daily usage time of artificial limbs. Graphical user interface analysis of the complex prosthetic socket system will likely continue in the future. In this article, we propose a solution for modelling the stump-prosthesis system, which may improve the design of the prosthesis socket, resulting in a better quality of life for the patients. The first objective of this study was to design a graphical user interface (GUI) of the stumpprosthesis system, using MATLAB. Interface was entirely developed using MATLAB 7.3.0 .The proposed (GUI) contains all the screen menus, symbols, work areas and application windows, as well as graphic devices used in the interaction with a computer, icons, buttons and dialogue boxes. The user interface was designed to allow an intuitive interactive display. Finally, the data is exported to COSMOS Works suite for the actual design of the prosthesis. The objective of this paper is, to discuss the limitations of (GUI) investigations, and to speculate on work made possible through advances in domain of stump-prosthesis and computer software. These results are important and can provide a direction for future research.
URI
http://10.11.10.50/xmlui/handle/123456789/5028
Colecții
  • Annals of the University "Dunarea de Jos" of Galati. Fascicle III: Electrotechnics, Electronics, Automation Control and Informatics [230]

DSpace 6.0 | Copyright © Arthra Institutional Repository
Contactați-ne | Trimite feedback
Theme by 
Atmire NV
 

 

Răsfoiește

În tot DSpaceComunități; ColecțiiDupă data publicăriiAutoriTitluriSubiecteAceastă colecțieDupă data publicăriiAutoriTitluriSubiecte

Contul meu

Conectare

DSpace 6.0 | Copyright © Arthra Institutional Repository
Contactați-ne | Trimite feedback
Theme by 
Atmire NV