This paper continues the proposed idea of stability training for legged robots with any number of legs and any size on a motion platform and introduces the concept of a learning-based controller, the global self-stabilizer, to obtain a self-stabilization capability in robots. The overall structure of the global self-stabilizer is divided into three modules: action selection, adjustment calculation and joint motion mapping, with corresponding learning algorithms proposed for each module. Taking the human-sized biped robot, GoRoBoT-II, as an example, simulations and experiments in three kinds of motions were performed to validate the feasibility of the proposed idea. A well-designed training platform was used to perform composite random ampli...
Service robots have the potential to be of great value in households, health care and other labor in...
The Delft Biorobotics Laboratory develops bipedal humanoid robots. One of these robots, called LEO, ...
The Ph.D. thesis is focused on using the reinforcement learning for four legged robot control. The m...
A significant goal of the yearly progression of RoboCup robotics is the improvement of bipedal locom...
In this work, we introduced a novel hybrid reinforcement learning scheme to balance a biped robot (N...
AbstractIn this paper a revised reinforcement learning method is presented for stability control pro...
Abstract: Learning controllers that reproduce legged locomotion in nature have been a long-time goa...
A novel behavior based locomotion controller (BBLC) capable of adapting to unknown disturbances is p...
Legged robots have been researched for more than half a century. However, commercially only a handfu...
Abstract—This paper investigates the learning of a controller for a flat-footed bipedal robot using ...
In this work, we proposed a new approach for learning legged locomotion for any legged robot, in the...
In this paper, we proposed a novel Hybrid Reinforcement Learning framework to maintain the stability...
In this paper the problem of free gait generation and adaptability with reinforcement learning are a...
This thesis addresses both control and design aspects of legged robots. Regarding control, I propose...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Service robots have the potential to be of great value in households, health care and other labor in...
The Delft Biorobotics Laboratory develops bipedal humanoid robots. One of these robots, called LEO, ...
The Ph.D. thesis is focused on using the reinforcement learning for four legged robot control. The m...
A significant goal of the yearly progression of RoboCup robotics is the improvement of bipedal locom...
In this work, we introduced a novel hybrid reinforcement learning scheme to balance a biped robot (N...
AbstractIn this paper a revised reinforcement learning method is presented for stability control pro...
Abstract: Learning controllers that reproduce legged locomotion in nature have been a long-time goa...
A novel behavior based locomotion controller (BBLC) capable of adapting to unknown disturbances is p...
Legged robots have been researched for more than half a century. However, commercially only a handfu...
Abstract—This paper investigates the learning of a controller for a flat-footed bipedal robot using ...
In this work, we proposed a new approach for learning legged locomotion for any legged robot, in the...
In this paper, we proposed a novel Hybrid Reinforcement Learning framework to maintain the stability...
In this paper the problem of free gait generation and adaptability with reinforcement learning are a...
This thesis addresses both control and design aspects of legged robots. Regarding control, I propose...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Service robots have the potential to be of great value in households, health care and other labor in...
The Delft Biorobotics Laboratory develops bipedal humanoid robots. One of these robots, called LEO, ...
The Ph.D. thesis is focused on using the reinforcement learning for four legged robot control. The m...