AbstractIn this paper a revised reinforcement learning method is presented for stability control problems with real-value inputs and outputs. The revised eXtended Classifier System for Real-input and Real-output (XCSRR) controller is designed, which is capable of working at fully real-value environment such as stability control of robots. XCSRR is a novel approach to enhance the performance of classifier systems for more practical problems than systems with merely binary behaviour. As a case study, we use XCSRR to control the stability of a biped robot, which is subjected to unknown external forces that would disturb the robot equilibrium. The external forces and the dynamics of the upper body of the biped robot are modelled in MATLAB softw...
The objective of this paper is to apply a Deep Reinforcement Learning(DRL) algorithm, the Deep Deter...
A novel behavior based locomotion controller (BBLC) capable of adapting to unknown disturbances is p...
The Delft Biorobotics Laboratory develops bipedal humanoid robots. One of these robots, called LEO, ...
To date there has only been one implementation of Holland's Learning Classifier System (LCS) on real...
This paper continues the proposed idea of stability training for legged robots with any number of le...
To date there have been few implementation of Holland’s Learning Classifier System (LCS) on real rob...
Although most learning classifier system (LCS) research uses the accuracy-based XCS, it had never be...
In this work, we introduced a novel hybrid reinforcement learning scheme to balance a biped robot (N...
A significant goal of the yearly progression of RoboCup robotics is the improvement of bipedal locom...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
Service robots have the potential to be of great value in households, health care and other labor in...
In this paper, a control approach based on reinforcement learning is present for a robot to complete...
In this paper, we proposed a novel Hybrid Reinforcement Learning framework to maintain the stability...
While operational space control is of essential importance for robotics and well-understood from an ...
This paper investigates the efficacy of the implementation of the conventional Proportional-Derivati...
The objective of this paper is to apply a Deep Reinforcement Learning(DRL) algorithm, the Deep Deter...
A novel behavior based locomotion controller (BBLC) capable of adapting to unknown disturbances is p...
The Delft Biorobotics Laboratory develops bipedal humanoid robots. One of these robots, called LEO, ...
To date there has only been one implementation of Holland's Learning Classifier System (LCS) on real...
This paper continues the proposed idea of stability training for legged robots with any number of le...
To date there have been few implementation of Holland’s Learning Classifier System (LCS) on real rob...
Although most learning classifier system (LCS) research uses the accuracy-based XCS, it had never be...
In this work, we introduced a novel hybrid reinforcement learning scheme to balance a biped robot (N...
A significant goal of the yearly progression of RoboCup robotics is the improvement of bipedal locom...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
Service robots have the potential to be of great value in households, health care and other labor in...
In this paper, a control approach based on reinforcement learning is present for a robot to complete...
In this paper, we proposed a novel Hybrid Reinforcement Learning framework to maintain the stability...
While operational space control is of essential importance for robotics and well-understood from an ...
This paper investigates the efficacy of the implementation of the conventional Proportional-Derivati...
The objective of this paper is to apply a Deep Reinforcement Learning(DRL) algorithm, the Deep Deter...
A novel behavior based locomotion controller (BBLC) capable of adapting to unknown disturbances is p...
The Delft Biorobotics Laboratory develops bipedal humanoid robots. One of these robots, called LEO, ...