A self-reconfigurable modular robot can change its own shape by rearranging the connectivity of the modules of which it is composed. In this paper, we focus on a two-dimensional lattice-arrayed self-reconfigurable modular robotic system. Each module can move to a neighboring lattice under certain motion constraints, communicate with its neighbors and act upon local knowledge only. A scalable shape sculpting algorithm based on the manipulation of regularly shaped voids within the lattice (“holes”) is given. We present detailed solutions to the conflict test and settlement problem encountered when applying this algorithm, and make improvement on the efficiency of shape sculpting. We believe that the algorithm can potentially generalize to 3D ...
In this thesis we have solved the two-dimensional problem of locomotion of modular robots on square ...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T , reco...
International audienceThe self-reconfiguration of large swarms of modular robotic units from one obj...
Abstract — A self-reconfigurable modular robot can change its own shape by rearranging the connectiv...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
International audienceA modular robots is composed of many independent connected modules which are a...
This work is on recon guration of hexagonal lattice-based modular robotic systems. The solutions ar...
International audienceModular self-reconfigurable robots are composed of independent connected modul...
The field of modular self-reconfigurable robotic systems addresses the design, fabrication, motion p...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
We prove universal reconfiguration (i.e., reconfigura-tion between any two robotic systems with the ...
We present an algorithm for self-reconfiguration of admissible 3D configurations of pivoting modular...
In our work we present a collection of distributed algorithms for the locomotion of rectangular and ...
International audienceA distributed modular robot is composed of many autonomous modules, capable of...
In this thesis we have solved the two-dimensional problem of locomotion of modular robots on square ...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T , reco...
International audienceThe self-reconfiguration of large swarms of modular robotic units from one obj...
Abstract — A self-reconfigurable modular robot can change its own shape by rearranging the connectiv...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
International audienceA modular robots is composed of many independent connected modules which are a...
This work is on recon guration of hexagonal lattice-based modular robotic systems. The solutions ar...
International audienceModular self-reconfigurable robots are composed of independent connected modul...
The field of modular self-reconfigurable robotic systems addresses the design, fabrication, motion p...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
We prove universal reconfiguration (i.e., reconfigura-tion between any two robotic systems with the ...
We present an algorithm for self-reconfiguration of admissible 3D configurations of pivoting modular...
In our work we present a collection of distributed algorithms for the locomotion of rectangular and ...
International audienceA distributed modular robot is composed of many autonomous modules, capable of...
In this thesis we have solved the two-dimensional problem of locomotion of modular robots on square ...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T , reco...
International audienceThe self-reconfiguration of large swarms of modular robotic units from one obj...