This paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal walking robot and specifically discusses on the physical development of the robot's sagittal balancing mechanism and its control in a single support phase. The proposed mechanism combines a novel method for stability sensing and balancing of the robot during the strides. The sensing mechanism utilizes an additional flexible ankle joint which is able to provide responsive and accurate measurement of the sagittal instability of the bipedal robot. The use of double balancing mass and the developed control algorithm are responsible to maintain the sideway stability of the robot during single support phase. The proposed method enables the walking control...
Acquiring adequate sensory information and using it to provide motor control are important issues in...
As a contribution toward the objective of developing useful walking machines, this dissertation cons...
One key problem to achieve a dynamically stable walking motion with biped robots is to measure and c...
AbstractThis paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal...
The paper presents a simplified mathematical model of the bipedal walking robot with four degrees of...
The paper presents a simplified mathematical model of the two-legs walking robot with four degrees o...
This paper presents a novel design of minimalist bipedal walking robot with flexible ankle and split...
The paper presents a simplified mathematical model of a two-leg walking robot with four degrees of f...
In this paper, a bipedal walking with push recovery balance control is proposed which involves postu...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Walking stability of a walking machine is the main focus in this work. A new designed leg mechanism ...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...
AbstractIt is a challenge to maintain a steady and stable locomotion when a biped robot navigates an...
Abstract:- This paper describes the control of a biped robot, that uses an inverted pendulum for its...
The objective of this thesis is to study the walking control of biped robots including imbalance wal...
Acquiring adequate sensory information and using it to provide motor control are important issues in...
As a contribution toward the objective of developing useful walking machines, this dissertation cons...
One key problem to achieve a dynamically stable walking motion with biped robots is to measure and c...
AbstractThis paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal...
The paper presents a simplified mathematical model of the bipedal walking robot with four degrees of...
The paper presents a simplified mathematical model of the two-legs walking robot with four degrees o...
This paper presents a novel design of minimalist bipedal walking robot with flexible ankle and split...
The paper presents a simplified mathematical model of a two-leg walking robot with four degrees of f...
In this paper, a bipedal walking with push recovery balance control is proposed which involves postu...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Walking stability of a walking machine is the main focus in this work. A new designed leg mechanism ...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...
AbstractIt is a challenge to maintain a steady and stable locomotion when a biped robot navigates an...
Abstract:- This paper describes the control of a biped robot, that uses an inverted pendulum for its...
The objective of this thesis is to study the walking control of biped robots including imbalance wal...
Acquiring adequate sensory information and using it to provide motor control are important issues in...
As a contribution toward the objective of developing useful walking machines, this dissertation cons...
One key problem to achieve a dynamically stable walking motion with biped robots is to measure and c...