Add to ORKGAbstract—Biped robots have better mobility than conventional wheeled robots, but they tend to tip over easily. To be able to walk stably in various environments, such as on rough terrain, up and down slopes, or in regions containing obstacles, it is necessary for the robot to adapt to the ground conditions with a foot motion, and maintain its stability with a torso motion. When the ground con-ditions and stability constraint are satisfied, it is desirable to select a walking pattern that requires small torque and velocity of the joint actuators. In this paper, we first formulate the constraints of the foot motion parameters. By varying the values of the constraint parameters, we can produce different types of foot motion to adapt to ground ...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
The paper presents a simplified mathematical model of the bipedal walking robot with four degrees of...
With respect to mobility the legged systems are excellent ones. Now a days biped robot is evolved to...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
This research shows how the robotics theories are applied to model the bipedal walking robot. Utiliz...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
In this paper, we present an approach for passivity-based bipedal robots to achieve stable dynamic w...
Abstract—In this paper, we propose a control system that changes the compliance based on the walking...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Abstract. This paper presents a method for planning three-dimensional walking patterns for biped rob...
[[abstract]]Traditional planning of biped robot walking patterns solves optimal trajectory for minim...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
The paper presents a simplified mathematical model of the bipedal walking robot with four degrees of...
With respect to mobility the legged systems are excellent ones. Now a days biped robot is evolved to...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
This research shows how the robotics theories are applied to model the bipedal walking robot. Utiliz...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
In this paper, we present an approach for passivity-based bipedal robots to achieve stable dynamic w...
Abstract—In this paper, we propose a control system that changes the compliance based on the walking...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Abstract. This paper presents a method for planning three-dimensional walking patterns for biped rob...
[[abstract]]Traditional planning of biped robot walking patterns solves optimal trajectory for minim...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
The paper presents a simplified mathematical model of the bipedal walking robot with four degrees of...