Add to ORKGThe subject of this paper is the design, control, and evaluation of a biped–climbing robot featuring a new hybrid hip joint. The hybrid hip provides both prismatic and revolute motion, discretely, to the robot, using a single actuator. This is intended to improve its adaptability in confined environments and its capability to maneuver over and around obstacles. Optimization of the hybrid hip joint relative to robot size, weight, and actuation limits is considered while maximizing range of motion. The mechanical structure of the robot is discussed, as well as forward and inverse kinematics for motion planning. Reachable robot workspace in both revolute and prismatic phases of the hybrid hip joint is analyzed. Different robot locomotion strid...
This paper presents a human-oriented approach to design the mechanical architecture and the joint co...
The paper presents a simplified mathematical model of the two-legs walking robot with four degrees o...
In this paper, a rotational leg-type miniature robot with an actuated middle joint and tail, called ...
Theoretically the birth of the humanoid robot arises from the study of human characteristics of move...
This report covers the development of a new joint mechanism and a robotic simulator. These are inten...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
This paper presents a legged-wheeled hybrid robotic vehicle that uses a combination of rigid and non...
In this paper, a rotational leg-type miniature robot with a bioinspired actuated middle joint and a ...
Abstract — A joint driving mechanism with antagonistic pairs of muscles is supposed to be essential ...
Abstract—Biped robots have better mobility than conventional wheeled robots, but they tend to tip ov...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
Biped robots hold promise as terrestrial explorers because they require a single discrete foothold t...
The article deals with the design of a robot with an unconventional kinematic structure, which is ab...
The design of humanoid robots has been a tricky challenge for several years. Due to the kinematic co...
This paper presents a human-oriented approach to design the mechanical architecture and the joint co...
The paper presents a simplified mathematical model of the two-legs walking robot with four degrees o...
In this paper, a rotational leg-type miniature robot with an actuated middle joint and tail, called ...
Theoretically the birth of the humanoid robot arises from the study of human characteristics of move...
This report covers the development of a new joint mechanism and a robotic simulator. These are inten...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
This paper presents a legged-wheeled hybrid robotic vehicle that uses a combination of rigid and non...
In this paper, a rotational leg-type miniature robot with a bioinspired actuated middle joint and a ...
Abstract — A joint driving mechanism with antagonistic pairs of muscles is supposed to be essential ...
Abstract—Biped robots have better mobility than conventional wheeled robots, but they tend to tip ov...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
Biped robots hold promise as terrestrial explorers because they require a single discrete foothold t...
The article deals with the design of a robot with an unconventional kinematic structure, which is ab...
The design of humanoid robots has been a tricky challenge for several years. Due to the kinematic co...
This paper presents a human-oriented approach to design the mechanical architecture and the joint co...
The paper presents a simplified mathematical model of the two-legs walking robot with four degrees o...
In this paper, a rotational leg-type miniature robot with an actuated middle joint and tail, called ...