Abstract — The passive dynamic walker described in this paper is a robot with a minimal number of degrees of freedom which is still capable of stable 3D dynamic walking. First, we present the reduced-order dynamic models used to tune the characteristics of the robot’s passive gait. Our sagittal plane model is closely related to the compass gait model, but the steady state trajectory passively converges from a much larger range of initial conditions. We then experimentally quantify the stability of the mechanical device. Finally, we present an actuated version of the robot and some preliminary active control strategies. The control problem for the actuated version of the robot is interesting because although it is theoretically challenging (...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...
The concept of “passive dynamic walking robot” refers to the robot that can walk down a shallow slop...
Passive dynamic walkers can achieve a steady gait down an inclined plane simply by the influence of ...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
The control of passive dynamic systems remains a challenging problem in the field of robotics, and i...
This paper proposes a foot shape design to enhance stability of passive dynamic walk, by constrainin...
Passive dynamic walkers are a body of robots, both simulated and real-world, that can "walk" down a ...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
A turn control strategy is proposed in order to improve environmental adaptability of a quasi-passiv...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
For decades, biologists believed that animals walk because the brain calculates motion trajectories ...
To increase reliability and decrease cost of legged robotic systems it is advantageous to limit actu...
Semi-passive biped robots have been proposed to achieve efficient and robust bipedal locomotion, bas...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...
The concept of “passive dynamic walking robot” refers to the robot that can walk down a shallow slop...
Passive dynamic walkers can achieve a steady gait down an inclined plane simply by the influence of ...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
The control of passive dynamic systems remains a challenging problem in the field of robotics, and i...
This paper proposes a foot shape design to enhance stability of passive dynamic walk, by constrainin...
Passive dynamic walkers are a body of robots, both simulated and real-world, that can "walk" down a ...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
A turn control strategy is proposed in order to improve environmental adaptability of a quasi-passiv...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
For decades, biologists believed that animals walk because the brain calculates motion trajectories ...
To increase reliability and decrease cost of legged robotic systems it is advantageous to limit actu...
Semi-passive biped robots have been proposed to achieve efficient and robust bipedal locomotion, bas...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...