Add to ORKGPrevious work on locomotion strategies for lattice-based modular robots has provided several algorithms that allow modular robots move over sets of specific obstacles. Nevertheless, there was not yet a general algorithm that solved the problem of locomotion for any arbitrary set of obstacles. In this document, we introduce a general distributed algorithm of locomotion for 2D square lattice-based modular robots that solves the problem of locomotion over any given set of obstacles. The algorithm presented here is inspired in a caterpillar motion and uses the right-hand rule combined with local module information to guide the movement of a modular robot. The proof of correctness and complexity analysis are also given in this document alongside...
In this paper we develop a theory of metamodules and an associated distributed asynchronous planner ...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
Previous work on locomotion strategies for lattice-based modular robots has provided several algori...
In our work we present a collection of distributed algorithms for the locomotion of rectangular and ...
In this thesis we have solved the two-dimensional problem of locomotion of modular robots on square ...
International audienceA modular robots is composed of many independent connected modules which are a...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
We prove universal reconfiguration (i.e., reconfigura-tion between any two robotic systems with the ...
This work is on recon guration of hexagonal lattice-based modular robotic systems. The solutions ar...
International audienceNovel platforms of modular robot systems have been developed with important ap...
Stigmergy is defined as a mechanism of coordination through indirect communication among agents, whi...
A self-reconfigurable modular robot can change its own shape by rearranging the connectivity of the ...
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...
In this paper we develop a theory of metamodules and an associated distributed asynchronous planner ...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
Previous work on locomotion strategies for lattice-based modular robots has provided several algori...
In our work we present a collection of distributed algorithms for the locomotion of rectangular and ...
In this thesis we have solved the two-dimensional problem of locomotion of modular robots on square ...
International audienceA modular robots is composed of many independent connected modules which are a...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
We prove universal reconfiguration (i.e., reconfigura-tion between any two robotic systems with the ...
This work is on recon guration of hexagonal lattice-based modular robotic systems. The solutions ar...
International audienceNovel platforms of modular robot systems have been developed with important ap...
Stigmergy is defined as a mechanism of coordination through indirect communication among agents, whi...
A self-reconfigurable modular robot can change its own shape by rearranging the connectivity of the ...
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...
In this paper we develop a theory of metamodules and an associated distributed asynchronous planner ...
Abstract—We describe a novel shape formation algorithm for ensembles of 2-dimensional lattice-arraye...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
