This paper proposes a trajectory generation method for a biped robot to walk on an inclined surface. In order to generate the walking trajectory, the robot is modeled as one particle and the momentum equation with respect to its zero moment point is used. A few additional assumptions are used to generate the walking trajectory. First, the center of mass moves in parallel with the slope of the surface. Second, the zero moment point of the simplified model should be fixed at the supporting foot during a single support phase and moves from the previous supporting foot to the next supporting foot during a double support phase. When the slop of the surface changes while the robot walks, walking conditions of the robot are also changed, and two p...
Abstract: Designing and manufacturing mechanisms that are able to move on a slope according to the g...
Abstract—Biped robots have better mobility than conventional wheeled robots, but they tend to tip ov...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
In this paper, the trajectory generation method to make the biped robot walk in every direction on t...
This paper proposes the method for a biped robot to walk on uneven terrain. In order to generate the...
Passive dynamic walking is an essential development for the biped robots. So the focus of our work i...
Building trajectories for biped robot walking is a complex task considering all degrees of freedom (...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
This paper proposes a variable walking trajectory generation method for biped robots based on redund...
A not trivial problem in bipedal robot walking is the instability produced by the violent transition...
Trajectory generation is important because it determines the walking stability, continuity, and perf...
This research shows how the robotics theories are applied to model the bipedal walking robot. Utiliz...
The paper analyzes the mechanics of bipedal movement of a mobile robot and introduces the inverse ma...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
Abstract—This paper describes a generation method for spatially natural biped walking. By limiting t...
Abstract: Designing and manufacturing mechanisms that are able to move on a slope according to the g...
Abstract—Biped robots have better mobility than conventional wheeled robots, but they tend to tip ov...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
In this paper, the trajectory generation method to make the biped robot walk in every direction on t...
This paper proposes the method for a biped robot to walk on uneven terrain. In order to generate the...
Passive dynamic walking is an essential development for the biped robots. So the focus of our work i...
Building trajectories for biped robot walking is a complex task considering all degrees of freedom (...
This correspondence proposes a control method for biped robots walking on a geometrically uneven sur...
This paper proposes a variable walking trajectory generation method for biped robots based on redund...
A not trivial problem in bipedal robot walking is the instability produced by the violent transition...
Trajectory generation is important because it determines the walking stability, continuity, and perf...
This research shows how the robotics theories are applied to model the bipedal walking robot. Utiliz...
The paper analyzes the mechanics of bipedal movement of a mobile robot and introduces the inverse ma...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
Abstract—This paper describes a generation method for spatially natural biped walking. By limiting t...
Abstract: Designing and manufacturing mechanisms that are able to move on a slope according to the g...
Abstract—Biped robots have better mobility than conventional wheeled robots, but they tend to tip ov...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...