International audienceIn the robotic soccer domain, many factors, such as the speed of individual robots, the effectiveness of kicks, and the choice of the appropriate attacking strategy, determine the success of a team. Consequently , soccer robots, and in particular legged ones, require fine tuning of the parameters not only for the vision processes, but also in the implementation of behaviors and basic control actions and in the strategic decisional processes. In recent years, machine learning techniques have been used to find optimal parameter sets for different behaviors. In particular, layered learning has been proposed to improve learning rate in robot learning tasks. In this paper we consider a layered learning approach for learning...
Layered learning allows decomposition of the stages of learning in a problem domain. We apply this t...
In this paper an evolutionary algorithm is developed to learn a fuzzy knowledge base for the control...
Inspired by animals’ ability to learn and adapt to changes in their environment during life, hybrid ...
International audienceIn the robotic soccer domain, many factors, such as the speed of individual ro...
In real-world robotic applications, many factors, both at low level (e.g., vision, motion control an...
In humanoid robotic soccer, many factors, both at low-level (e.g., vision and motion control) and at...
"Robot soccer provides a fertile environment for the development of artificial intelligence techniqu...
International audienceIn real-world robotic applications, many factors, both at low-level (e.g., vis...
Layered learning is a hierarchical machine learning paradigm that enables learning of complex behavi...
In robotics soccer, decision-making is critical to the performance of a team’s SoftwareSystem. The U...
This paper is a very brief introduction to our work and the reader is referred to the references pro...
Our long-term goal is to build teams of agents where the decision making is based completely on Rei...
The acquisition and improvement of motor skills and control policies for robotics from trial and err...
For robotic systems to continue to move towards ubiquity, robots need to be more autonomous. More au...
In the present work we study and implmement means to evolve players of robotic soccer. We implement ...
Layered learning allows decomposition of the stages of learning in a problem domain. We apply this t...
In this paper an evolutionary algorithm is developed to learn a fuzzy knowledge base for the control...
Inspired by animals’ ability to learn and adapt to changes in their environment during life, hybrid ...
International audienceIn the robotic soccer domain, many factors, such as the speed of individual ro...
In real-world robotic applications, many factors, both at low level (e.g., vision, motion control an...
In humanoid robotic soccer, many factors, both at low-level (e.g., vision and motion control) and at...
"Robot soccer provides a fertile environment for the development of artificial intelligence techniqu...
International audienceIn real-world robotic applications, many factors, both at low-level (e.g., vis...
Layered learning is a hierarchical machine learning paradigm that enables learning of complex behavi...
In robotics soccer, decision-making is critical to the performance of a team’s SoftwareSystem. The U...
This paper is a very brief introduction to our work and the reader is referred to the references pro...
Our long-term goal is to build teams of agents where the decision making is based completely on Rei...
The acquisition and improvement of motor skills and control policies for robotics from trial and err...
For robotic systems to continue to move towards ubiquity, robots need to be more autonomous. More au...
In the present work we study and implmement means to evolve players of robotic soccer. We implement ...
Layered learning allows decomposition of the stages of learning in a problem domain. We apply this t...
In this paper an evolutionary algorithm is developed to learn a fuzzy knowledge base for the control...
Inspired by animals’ ability to learn and adapt to changes in their environment during life, hybrid ...