Abstract—Metamorphic modular robots are versatile systems composed of a set of independent modules. These modules are able to deliberately change their overall topology in order to adapt to new circumstances, perform new tasks, or recover from damage. The modules considered in this paper are cubic shapes, and we assume that each of them has a separate computational resources and it is equipped with specialized sensors to perceive the environment. In this paper, we demonstrate the ability of these robots to evolve the topology of the whole structure in order to achieve, surround and transport target objects dispersed in the environment. While performing its task, the robot may be split up in order to cope with environmental variations. Our w...
Although recent work has demonstrated that modularity can increase evolvability in non-embodied syst...
International audienceNovel platforms of modular robot systems have been developed with important ap...
Meng Y, Zhang Y, Jin Y. Autonomous Self-Reconfiguration of Modular Robots by Evolving a Hierarchical...
Metamorphic modular robots are versatile systems composed of a set of independent modules. These mod...
Metamorphic robots are robots that can change their shape by reorganizing the connectivity of their ...
Meng Y, Jin Y. Morphogenetic Self-Reconfiguration of Modular Robots. In: Meng Y, Jin Y, eds. Bio-Ins...
AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-rec...
Abstract. A metamorphic robotic system is an aggregate of homogeneous robot units which can individu...
In nature, cells combine into different structures to perform required tasks and can break and rejoi...
In this paper, we present a morphogenetic approach to self-reconfiguration of a lattice-based simula...
In this paper, we present a morphogenetic approach to self-reconfiguration of a lattice-based simula...
Abstract — This paper discusses a fully decentralized al-gorithm able to control the morphology of a...
Modular robots have been studied an classified from different perspectives, generally focusing on th...
In this study, we physically built hardware modules which enable us to freely construct robots with ...
Abstract. As a contribution to the efforts towards robotic systems of higher flexibility we present ...
Although recent work has demonstrated that modularity can increase evolvability in non-embodied syst...
International audienceNovel platforms of modular robot systems have been developed with important ap...
Meng Y, Zhang Y, Jin Y. Autonomous Self-Reconfiguration of Modular Robots by Evolving a Hierarchical...
Metamorphic modular robots are versatile systems composed of a set of independent modules. These mod...
Metamorphic robots are robots that can change their shape by reorganizing the connectivity of their ...
Meng Y, Jin Y. Morphogenetic Self-Reconfiguration of Modular Robots. In: Meng Y, Jin Y, eds. Bio-Ins...
AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-rec...
Abstract. A metamorphic robotic system is an aggregate of homogeneous robot units which can individu...
In nature, cells combine into different structures to perform required tasks and can break and rejoi...
In this paper, we present a morphogenetic approach to self-reconfiguration of a lattice-based simula...
In this paper, we present a morphogenetic approach to self-reconfiguration of a lattice-based simula...
Abstract — This paper discusses a fully decentralized al-gorithm able to control the morphology of a...
Modular robots have been studied an classified from different perspectives, generally focusing on th...
In this study, we physically built hardware modules which enable us to freely construct robots with ...
Abstract. As a contribution to the efforts towards robotic systems of higher flexibility we present ...
Although recent work has demonstrated that modularity can increase evolvability in non-embodied syst...
International audienceNovel platforms of modular robot systems have been developed with important ap...
Meng Y, Zhang Y, Jin Y. Autonomous Self-Reconfiguration of Modular Robots by Evolving a Hierarchical...