The paper presents a simplified mathematical model of a two-leg walking robot with four degrees of freedom. It presents a novel method of sensing and balancing for the bipedal robot with the minimum possible number of degrees of freedom for the walk. The proposed method involves the design of a semi-rigid ankle to facilitate fast and accurate measurements of the sideways (sagittal) instability of the walking robot. The use of a new hip-mass carrying strategy in the forward direction and a system of two counter-masses for the sideways body balancing enables us to decouple the forward walking algorithms from the robot stability issues. The system of two different masses helps to improve the response time and efficiency of the balancing system...
Bipedal robotics is a relatively new research area which is concerned with creating walking robots w...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...
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 the conceptual design of a new four degree-of-freedom minimalist bipedal walking...
AbstractThis paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
Gait stability of the walking robot has great influence on the many functional features related to w...
This paper presents a novel design of minimalist bipedal walking robot with flexible ankle and split...
Abstract:- This paper describes the control of a biped robot, that uses an inverted pendulum for its...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
The focus of this paper is the problem of modelling and control of a biped robot by combining Cartes...
In this survey, trajectory control of lower limb joints of a 2D walking robot is introduced by using...
This research shows how the robotics theories are applied to model the bipedal walking robot. Utiliz...
Bipedal robotics is a relatively new research area which is concerned with creating walking robots w...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...
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 the conceptual design of a new four degree-of-freedom minimalist bipedal walking...
AbstractThis paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal...
This paper presents joint space trajectory planning strategy for the legs of 4-DOF parallelogram bip...
Gait stability of the walking robot has great influence on the many functional features related to w...
This paper presents a novel design of minimalist bipedal walking robot with flexible ankle and split...
Abstract:- This paper describes the control of a biped robot, that uses an inverted pendulum for its...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
The focus of this paper is the problem of modelling and control of a biped robot by combining Cartes...
In this survey, trajectory control of lower limb joints of a 2D walking robot is introduced by using...
This research shows how the robotics theories are applied to model the bipedal walking robot. Utiliz...
Bipedal robotics is a relatively new research area which is concerned with creating walking robots w...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...