Control Method of Biped Locomotion Giving Asymptotic Stability of Trajectory

“…The use of a central pattern generator or CPG to drive the legs through sensory feedback is found in (Katoh and Mori 1984;Lewis et al 1994;Kimura and Fukuoka 2000;Kuo 2002;Lewis 2002;Lewis and Bekey 2002;and Lewis et al 2005). Neural networks have also been used to control legged robots (Hu et al 1998;and Manoonpong 2007).…”

“…Trajectory-based methods appear more often in the literature, and various notable methods include: using reference trajectory prescriptions (Katoh 1984;Kajita and Tani 1996;Hirai et al 1998;Raibert et al 1993;Chevallereau et al 1997;Saranli et al 1998;Nakanishi et al 2000;, using ZMP dynamics models described by ordinary differential equations (Hurmuzlu and Marghitu 1994;Isidori 1995;Spong 1995;Berkemeier and Fearing 1999;Ito 2000;and Rosas-Flores 2000), using hybrid systems of differential equations to model the single support and swing phases and a discrete leg impact map that linearize the robot motion along a periodic orbit (Grizzle et al 2001;Plestan et al 2003;Westervelt et al 2004;and Poulakakis 2009), regulating total energy (Goswami et al 1996), using time-based ZMP trajectories (Hasegawa et al 2000) or system state-based (i.e., non-time based) methods (Ono et al 2000), and using virtual constraints (Fukuda et al 2006). Note that trajectory tracking and balance stabilization of motorcycles was accomplished using Lagrange's equations (Sharp 1971), and riderbased multi-body dynamics models have been demonstrated (Cossalter and Lot 2002;and Kessler 2004).…”

The Single-Track Three Legged Mobile Robot

“…The use of a central pattern generator or CPG to drive the legs through sensory feedback is found in (Katoh and Mori 1984;Lewis et al 1994;Kimura and Fukuoka 2000;Kuo 2002;Lewis 2002;Lewis and Bekey 2002;and Lewis et al 2005). Neural networks have also been used to control legged robots (Hu et al 1998;and Manoonpong 2007).…”

“…Trajectory-based methods appear more often in the literature, and various notable methods include: using reference trajectory prescriptions (Katoh 1984;Kajita and Tani 1996;Hirai et al 1998;Raibert et al 1993;Chevallereau et al 1997;Saranli et al 1998;Nakanishi et al 2000;, using ZMP dynamics models described by ordinary differential equations (Hurmuzlu and Marghitu 1994;Isidori 1995;Spong 1995;Berkemeier and Fearing 1999;Ito 2000;and Rosas-Flores 2000), using hybrid systems of differential equations to model the single support and swing phases and a discrete leg impact map that linearize the robot motion along a periodic orbit (Grizzle et al 2001;Plestan et al 2003;Westervelt et al 2004;and Poulakakis 2009), regulating total energy (Goswami et al 1996), using time-based ZMP trajectories (Hasegawa et al 2000) or system state-based (i.e., non-time based) methods (Ono et al 2000), and using virtual constraints (Fukuda et al 2006). Note that trajectory tracking and balance stabilization of motorcycles was accomplished using Lagrange's equations (Sharp 1971), and riderbased multi-body dynamics models have been demonstrated (Cossalter and Lot 2002;and Kessler 2004).…”

The Single-Track Three Legged Mobile Robot

“…With a biological support that the central pattern generators (CPGs) [1] exist in the spinal cord, various nonlinear oscillators such as coupled van der Pol oscillator [2], Matsuoka oscillator [3] and Kuramoto oscillator [4] have been investigated to build autonomous biped robot controllers [5], [6], [7], [8], [9], [10], [11], [12], [13]. In those studies, the controller first makes an internal body oscillation and results repetitive collisions between the extremities and the environment.…”

Consistent biped step control with COM-ZMP oscillation based on successive phase estimation in dynamics morphing

“…Other approaches are based on the definition, ahead of time, of the reference trajectories. For instance, in [5] the authors generate the trajectories via a van der Pol oscillator.…”

Control of a Planar Underactuated Biped on a Complete Walking Cycle