You are here

shengnan

Primary tabs

N
S. Lu, Zlatanov, D., Ding, X., Molfino, R. M., and Zoppi, M., Novel deployable mechanisms with decoupled degrees-of-freedom, JOURNAL OF MECHANISMS AND ROBOTICS, vol. 8, pp. 021008-1–021008-9, 2016.
R
Z. Ahmad, Lu, S., Zoppi, M., Zlatanov, D., and Molfino, R. M., Reconfigurability and Flexibility in a Robotic Fixture for Automotive Assembly Welding, in Advances in Reconfigurable Mechanisms and Robots II, X. Ding, Kong, X., and Dai, J. S. Cham: Springer International Publishing, 2016, pp. 1073–1081.
S. Lu, Zlatanov, D., Ding, X., Zoppi, M., and Guest, S. D., Reconfigurable chains of bifurcating type III Bricard linkages, in Mechanism and Machine Science, vol. 36, Springer, 2016, pp. 3–14.
A
S. Lu, Zlatanov, D., Ding, X., Molfino, R. M., and Zoppi, M., Approximation and Control of Curvilinear Shapes via Deployable Mechanisms with Two Degrees of Freedom, in Proceedings of the ASME 2013 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, 2014, pp. 1–8.
C
Z. Ahmad, Lu, S., Zoppi, M., and Molfino, R. M., Conceptual Design of Flexible and Reconfigurable Gripper for Automotive Subassemblies, in International Conference on Industrial Design Engineering, Amsterdam, Netherland, 2013, pp. 212-217.
N
S. Lu, Zlatanov, D., Ding, X., Molfino, R. M., and Zoppi, M., A novel deployable mechanism with two decoupled degrees of freedom, Proceedings of the ASME IDETC/CIE, p. 13187, 2013.
S. Lu, Zlatanov, D., Ding, X., and Molfino, R. M., A novel prism deployable mechanism based on straight-line mechanism, International Journal of Mechanisms and Robotic Systems, vol. 1, pp. 185-201, 2013.