This article addresses the problem of how modular robotics systems, i.e. Systems composed of multiple modules that can be configured into different robotic structures, can learn to locomote. In particular, we tackle the problems of online learning, that is, learning while moving, and the problem of dealing with unknown arbitrary robotic structures. We propose a framework for learning locomotion controllers based on two components: a central pattern generator (cpg) and a gradient-free optimization algorithm referred to as powell's method. The cpg is implemented as a system of coupled nonlinear oscillators in our yamor modular robotic system, with one oscillator per module. The nonlinear oscillators are coupled together across modules using b...
Legged robots are often used in a large variety of tasks, in different environments. Nevertheless, d...
Abstract—A modular robot has a distributed mechanical composition which can make various configurati...
How can real robots with many degrees of freedom - without previous knowledge of themselves or their...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
Abstract. In this paper we study distributed online learning of locomo-tion gaits for modular robots...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
Abstract. This paper addresses a principal problem of in vivo evolu-tion of modular multi-cellular r...
The design of efficient locomotion controllers for arbitrary structures of reconfigurable modular ro...
Abstract – Locomotion, one of the most basic robotic functions, has been widely studied for several ...
In this paper, we introduce a framework for learning biped locomotion using dynamical movement primi...
This study is motivated by evolutionary robot systems where robot bodies and brains evolve simultane...
We study the problem of adaptive locomotion learning for modular self-reconfigurable robots (MSRs). ...
The design of efficient locomotion gaits for robots with many degrees of freedom is challenging and ...
Designing distributed controllers for self-reconfiguring modular ro-bots has been consistently chall...
This paper discusses a comprehensive framework for modular motor control based on a recently develop...
Legged robots are often used in a large variety of tasks, in different environments. Nevertheless, d...
Abstract—A modular robot has a distributed mechanical composition which can make various configurati...
How can real robots with many degrees of freedom - without previous knowledge of themselves or their...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
Abstract. In this paper we study distributed online learning of locomo-tion gaits for modular robots...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
Abstract. This paper addresses a principal problem of in vivo evolu-tion of modular multi-cellular r...
The design of efficient locomotion controllers for arbitrary structures of reconfigurable modular ro...
Abstract – Locomotion, one of the most basic robotic functions, has been widely studied for several ...
In this paper, we introduce a framework for learning biped locomotion using dynamical movement primi...
This study is motivated by evolutionary robot systems where robot bodies and brains evolve simultane...
We study the problem of adaptive locomotion learning for modular self-reconfigurable robots (MSRs). ...
The design of efficient locomotion gaits for robots with many degrees of freedom is challenging and ...
Designing distributed controllers for self-reconfiguring modular ro-bots has been consistently chall...
This paper discusses a comprehensive framework for modular motor control based on a recently develop...
Legged robots are often used in a large variety of tasks, in different environments. Nevertheless, d...
Abstract—A modular robot has a distributed mechanical composition which can make various configurati...
How can real robots with many degrees of freedom - without previous knowledge of themselves or their...