73
10. DICKIN, Peter. Reverse Engineering regains popularity. IEE Review. Vol. 42,
Issue: 5, pp. 213 –S1-S4. Setembro 1996.
11. DONG-FAN, Chen; MING-LUN, Fan. Reconstruction Technique in Reverse
Engineering. Proceedings of The IEEE International Conference on Industrial
Technology. pp. 37-41. 1996.
12. FAUSTINI, M.C., NEPTUNE, R.R., CRAWFORD, R.H., ROGERS, W.E. and BOSKER,
G., An experimental and theoretical framework for manufacturing prosthetic sockets for
transtibial amputees, IEEE-Neural Syst Rehab Eng, vol. 14(3), pp304-310, 2006.
13. GORNI. www.gorni.hpg.ig.com.br/protrap.htm. Acesso em 19 de setembro de
2003.
14. JIA, X., ZHANG , M. and LEE, W.C., Load transfer mechanics between transtibial
prosthetic socket and residual limb--dynamic effects, J. Biomech, vol. 37(9), pp1371-
1377, 2004.
15. KROUSKOP TA, MUILENBERG AL, Doughtery DR, Winningham DJ . Computer-aided
design of a prosthetic socket for an above-knee amputee . J Rehabil Res Dev 1987.
16. LEE, Kwan H.; WOO, H. Use of Reverse Engineering Method for Rapid Product
(1998).
17. LIMA, Cristiane Brasil, Engenharia Reversa – Estudo de Casos, Campinas: Faculdade
de Engenharia Mecânica, Universidade Estadual de Campinas, 2003. 98 p. Disserta-
ção (Mestrado).
18. LIN, C.C., CHANG C.H., WU, C.L., CHUNG, K.C. and LIAO, I.C., Effects of liner stiff-
ness for transtibial prosthesis: a finite element contact model, J. Med Eng Phys, vol.
26(1), pp01-09, 2004.
19. LUO, Ren C.; TZOU, J.H. CHANG, Y.C. The integration of 3D Digitizing and LCDPanel
Display Based Rapid Prototyping System for Manufacturing Automotion. IECON 2000.
26th Annual Conference of the IEEE. Vol. 2. pp. 1255-1260. Outubro 2000.
20. M. BARBARA SILVAR – Thorn, PhD and Dudley S. Childress, PhD Marquette Univer-
sity Department of Biomedical Engineering, Milwaukee, WI 53201 – 1881; Northwest-
ern University, Prosthetics Research Laboratory, Chicago, IL 60611 -4496, pages 171
– 186, April 1997.