Add to ORKGAbstract: This paper handles ZMP based control that is inspired by neural networks for humanoid robot walking on varying sloped surfaces. Humanoid robots are currently one of the most exciting research topics in the field of robotics, and maintaining stability while they are standing, walking or moving is a key concern. To ensure a steady and smooth walking gait of such robots, a feedforward type of neural network architecture, trained by the back propagation algorithm is employed. The inputs and outputs of the neural network architecture are the ZMPx and ZMPy errors of the robot, and the x, y positions of the robot, respectively. The neural network developed allows the controller to generate the desired balance of the robot positions, resu...
The main objective of this paper is to use a recurrent neural network (RNN) to determine the trunk m...
This paper contributes to the literature on energy efficient gaits on unknown terrains for humanoid ...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...
The use of a proposed recurrent neural network control system to control a four-legged walking robot...
The use of a proposed recurrent hybrid neural network to control of walking robot with four legs is ...
Stable and robust dynamic locomotion has been gaining increasing attention in humanoid research. Thi...
This paper presents neural network (NN) control of planar four-legged walking robot. The control sys...
This paper is focused on developing a platform that helps researchers to create verify and implement...
Abstract — In this paper we present a framework to learn a model-free feedback controller for locomo...
Producing locomotion controllers for general bodies has multiple applications, foremost in robotics....
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
In the future, robots shall be used in many areas to simplify human lives. Human-like robots, which ...
Developing a correct model for a biped robot locomotion is extremely challenging due to its inherent...
The article presents selected results of research on the modeling of humanoid robots, including the ...
We propose an efficient and powerful alternative for adaptation of human motions to humanoid robots ...
The main objective of this paper is to use a recurrent neural network (RNN) to determine the trunk m...
This paper contributes to the literature on energy efficient gaits on unknown terrains for humanoid ...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...
The use of a proposed recurrent neural network control system to control a four-legged walking robot...
The use of a proposed recurrent hybrid neural network to control of walking robot with four legs is ...
Stable and robust dynamic locomotion has been gaining increasing attention in humanoid research. Thi...
This paper presents neural network (NN) control of planar four-legged walking robot. The control sys...
This paper is focused on developing a platform that helps researchers to create verify and implement...
Abstract — In this paper we present a framework to learn a model-free feedback controller for locomo...
Producing locomotion controllers for general bodies has multiple applications, foremost in robotics....
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
In the future, robots shall be used in many areas to simplify human lives. Human-like robots, which ...
Developing a correct model for a biped robot locomotion is extremely challenging due to its inherent...
The article presents selected results of research on the modeling of humanoid robots, including the ...
We propose an efficient and powerful alternative for adaptation of human motions to humanoid robots ...
The main objective of this paper is to use a recurrent neural network (RNN) to determine the trunk m...
This paper contributes to the literature on energy efficient gaits on unknown terrains for humanoid ...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...