We are interested in adding actuation to passive dynamic walkers to enable them to control their velocity. We control velocity by using dynamic programming to design control laws for each desired velocity. We consider three cases: a simulated planar compass gait walker, a simulated 3D compass gait walker with roll dynamics, and a simulated planar compass gait walker with a torso. Each of the walkers have massless legs. The actions include foot placement, ankle torque, and desired torso orientation. We use Poincar´e sections to define the state of the model, and thus choose a new action once per footstep. The optimization criterion is based on the effort of swinging the limbs, applying torques, and maintaining the desired velocity. By genera...
In this abstract we introduce velocity control for our 2D dynamic walking robot Dribbel [1] (figure ...
Walking behavior is modulated by controlling joint torques in most existing passivity-based bipeds. ...
Summary. A real-time joint trajectory generation strategy for the dynamic walk-ing biped ”Lucy ” [1,...
Abstract—We are interested in adding actuation to passive dynamic walkers to enable them to control ...
This dissertation is made up of several chapters, each of which is a stand-alone document. Together,...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...
Within the biomechanist community, there is a rhetorical hypothesis that both movement trajectory an...
For a walking robot to negotiate rough terrain it must adjust its step length to hit suitable footho...
Even though bipedal walking robots have been studied for decades, they still suffer from poor ener...
Walking is a core task for humanoid robots. Most existing walking controllers fall into one of two c...
Dynamic walking on bipedal robots has evolved from an idea in science fiction to a practical reality...
This work explores regulation of forward speed, step length, and slope walking for the passive-dynam...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
This paper concerns the simultaneous synthesis and control of walking gaits for biped robots. The go...
In this abstract we introduce velocity control for our 2D dynamic walking robot Dribbel [1] (figure ...
Walking behavior is modulated by controlling joint torques in most existing passivity-based bipeds. ...
Summary. A real-time joint trajectory generation strategy for the dynamic walk-ing biped ”Lucy ” [1,...
Abstract—We are interested in adding actuation to passive dynamic walkers to enable them to control ...
This dissertation is made up of several chapters, each of which is a stand-alone document. Together,...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...
Within the biomechanist community, there is a rhetorical hypothesis that both movement trajectory an...
For a walking robot to negotiate rough terrain it must adjust its step length to hit suitable footho...
Even though bipedal walking robots have been studied for decades, they still suffer from poor ener...
Walking is a core task for humanoid robots. Most existing walking controllers fall into one of two c...
Dynamic walking on bipedal robots has evolved from an idea in science fiction to a practical reality...
This work explores regulation of forward speed, step length, and slope walking for the passive-dynam...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
This paper concerns the simultaneous synthesis and control of walking gaits for biped robots. The go...
In this abstract we introduce velocity control for our 2D dynamic walking robot Dribbel [1] (figure ...
Walking behavior is modulated by controlling joint torques in most existing passivity-based bipeds. ...
Summary. A real-time joint trajectory generation strategy for the dynamic walk-ing biped ”Lucy ” [1,...