Past three decades witnessed a growing interest in biped walking robots because of their advantageous use in the human environment. However, their control is challenging because of their many DOFs and nonlinearities in their dynamics. Various trajectory generation and walking control approaches ranging from open loop walking to systems with many sensors and feedback loops have been reported in the literature. The tuning of the parameters of reference gait is a common complication encountered. Another important problem of the walking control is the ground force interaction of the swinging leg at landing. This paper uses position references for the upper body. Optimization techniques are employed to obtain suitable leg joint torques for the s...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
This paper describes a walking stabilization control for a biped humanoid robot with narrow feet. Mo...
Past three decades witnessed a growing interest in biped walking robots because of their advantageou...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
This paper presents a general method for generating walking primitives for anthropomorphic 3D--biped...
The under-actuated foot rotation that the heel of the stance leg lifts off the ground and the body r...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents a dynamic locomotion generation for a one-legged floating-base robot. Reference ...
Abstract — Humanoid robots have many potential applica-tions in man-made environments, including per...
Humanoid robots are used as a research tool to understand bipedal locomotion. When pushed, a humanoi...
Abstract—Most humanoid robots walk with bent knees, which particularly requires high motor torques a...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
Humanoid robotics attracted the attention of many researchers in the past 35 years. The motivation o...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
This paper describes a walking stabilization control for a biped humanoid robot with narrow feet. Mo...
Past three decades witnessed a growing interest in biped walking robots because of their advantageou...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
This paper presents a general method for generating walking primitives for anthropomorphic 3D--biped...
The under-actuated foot rotation that the heel of the stance leg lifts off the ground and the body r...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents a dynamic locomotion generation for a one-legged floating-base robot. Reference ...
Abstract — Humanoid robots have many potential applica-tions in man-made environments, including per...
Humanoid robots are used as a research tool to understand bipedal locomotion. When pushed, a humanoi...
Abstract—Most humanoid robots walk with bent knees, which particularly requires high motor torques a...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
Humanoid robotics attracted the attention of many researchers in the past 35 years. The motivation o...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
This paper describes a walking stabilization control for a biped humanoid robot with narrow feet. Mo...