Affiliations: Mechatronics Research, Universidad Politécnica de Pachuca, Zempoala Hidalgo, México, CP 43830 | Mechatronics Division, Electrical Engineering Department, CINVESTAV-IPN, Av. IPN 2508, México DF, México
Note: [] Corresponding Author: L.-I. Lugo-Villeda, Mechatronics Research, Universidad Politécnica de Pachuca, Pachuca-Cd. Sahagún Km 20, Zempoala Hidalgo, México, CP 43830 Email: [email protected]
Abstract: Biped walking is a quite complex process that has been mastered only by human beings. Transferring this skill to a robot requires implementing advanced techniques in every aspect. To this end, a computational mechatronics platform was integrated to run the scheme for the analysis, synthesis and design to achieve planar biped walking. The result is an advanced computational tool that integrates advanced modeling and control as well as path planning techniques along with hardware-in-the-loop for perhaps the simplest biped robot. An experimental underactuated three-degree-of-freedom (two active and one passive) active biped robot yields encouraging results; that is, achieving biped walking with this simple device requires adding a telescopic support leg. Considering a more complete dynamic model to take into account frictional and contact forces.
