This research considers the task of evolving the physical structure of a robot to enhance its performance in various environments, which is a significant problem in the field of Evolutionary Robotics. Inspired by the fields of evolutionary art and sculpture, we evolve only targeted parts of a robot, which simplifies the optimisation problem compared to traditional approaches that must simultaneously evolve both (actuated) body and brain. Exploration fidelity is emphasised in areas of the robot most likely to benefit from shape optimisation, whilst exploiting existing robot structure and control. Our approach uses a Genetic Algorithm to optimise collections of Bezier splines that together define the shape of a legged robot's tibia, and leg p...
Robots are used in increasingly complex environments and need to be able to adapt to changes and une...
One of the recent trends of robot design involves the evolution of morphology and controller of robo...
Co-evolution of morphology and control is a powerful approach in robotics to study performance on a ...
This research considers the task of evolving the physical structure of a robot to enhance its perfor...
Evolutionary algorithms have previously been applied to the design of morphology and control of robo...
Evolutionary algorithms have previously been applied to the design of morphology and control of robo...
For humans, walking and adapting in various terrains and environments is a natural task. However, st...
Evolutionary robotics is a method of auto-design for robot system. This approach imitates the mechan...
In recent years a number of robotic platforms have been developed, that are capable of robust locomo...
When designing a legged robot a small change in one variable can have a significant effect on a numb...
To improve a robot’s performance at a given task, or to respond to changing requirements, shape adap...
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they d...
For robots to handle the numerous factors that can afect them in the real world, they must adapt to ...
Inspired by animals’ ability to learn and adapt to changes in their environment during life, hybrid ...
This paper introduces a Genetic Programming approach to creating patterns of movements for legs of w...
Robots are used in increasingly complex environments and need to be able to adapt to changes and une...
One of the recent trends of robot design involves the evolution of morphology and controller of robo...
Co-evolution of morphology and control is a powerful approach in robotics to study performance on a ...
This research considers the task of evolving the physical structure of a robot to enhance its perfor...
Evolutionary algorithms have previously been applied to the design of morphology and control of robo...
Evolutionary algorithms have previously been applied to the design of morphology and control of robo...
For humans, walking and adapting in various terrains and environments is a natural task. However, st...
Evolutionary robotics is a method of auto-design for robot system. This approach imitates the mechan...
In recent years a number of robotic platforms have been developed, that are capable of robust locomo...
When designing a legged robot a small change in one variable can have a significant effect on a numb...
To improve a robot’s performance at a given task, or to respond to changing requirements, shape adap...
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they d...
For robots to handle the numerous factors that can afect them in the real world, they must adapt to ...
Inspired by animals’ ability to learn and adapt to changes in their environment during life, hybrid ...
This paper introduces a Genetic Programming approach to creating patterns of movements for legs of w...
Robots are used in increasingly complex environments and need to be able to adapt to changes and une...
One of the recent trends of robot design involves the evolution of morphology and controller of robo...
Co-evolution of morphology and control is a powerful approach in robotics to study performance on a ...