We evolve, using AIMGP machine code genetic programming, Discipulus, an approximation of the inverse kinematics of a real robotics arm with many degrees of freedom. Elvis is a bipedal robot with human-like geometry and motion capabilities --- a humanoid, primarily controlled by evolutionary adaptive methods. The GP system produces a useful inverse kinematic mapping, from target 3-D points (via pairs of stereo video images) to a vector of arm controller actuator set points
The aim of this work is to implement a system for automatic evolutionary design of virtual robot con...
Abstract. We present the system SIGEL that combines the simulation and visualization of robots with ...
Abstract trigonometry produces a simple transform that produces While biological motion control syst...
We present an approach to articulated figure motion in which motion tasks are defined in terms of go...
Research activity into developing bipedal humanoid robots has recently been on the increase. Humanoi...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
In this paper we present the autonomous, walking humanoid robot ELVINA and the first experiments in ...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
This paper describes the staged evolution of a complex motor pattern generator (CPG) for the control...
Artificial neural networks learned by evolutionary algorithms are commonly used to control the robot...
We have evaluated the use of Genetic Programming to directly control a miniature robot. The goal of ...
The works reported in this thesis focus upon synthesising neural controllers for anthropomorphic rob...
The work presented in this thesis aims at investigating the potential of a proposed methodology to c...
In this research paper we have presented control architecture for robotic arm movement and trajector...
Robotics researchers at NASA's Johnson Space Center (JSC) and Rice University have made substantial ...
The aim of this work is to implement a system for automatic evolutionary design of virtual robot con...
Abstract. We present the system SIGEL that combines the simulation and visualization of robots with ...
Abstract trigonometry produces a simple transform that produces While biological motion control syst...
We present an approach to articulated figure motion in which motion tasks are defined in terms of go...
Research activity into developing bipedal humanoid robots has recently been on the increase. Humanoi...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
In this paper we present the autonomous, walking humanoid robot ELVINA and the first experiments in ...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
This paper describes the staged evolution of a complex motor pattern generator (CPG) for the control...
Artificial neural networks learned by evolutionary algorithms are commonly used to control the robot...
We have evaluated the use of Genetic Programming to directly control a miniature robot. The goal of ...
The works reported in this thesis focus upon synthesising neural controllers for anthropomorphic rob...
The work presented in this thesis aims at investigating the potential of a proposed methodology to c...
In this research paper we have presented control architecture for robotic arm movement and trajector...
Robotics researchers at NASA's Johnson Space Center (JSC) and Rice University have made substantial ...
The aim of this work is to implement a system for automatic evolutionary design of virtual robot con...
Abstract. We present the system SIGEL that combines the simulation and visualization of robots with ...
Abstract trigonometry produces a simple transform that produces While biological motion control syst...