We present an algorithm for self-reconfiguration of admissible 3D configurations of pivoting modular cube robots with holes of arbitrary shape and number. Cube modules move across the surface of configurations by pivoting about shared edges, enabling configurations to reshape themselves. Previous work provides a reconfiguration algorithm for admissible 3D configurations containing no non-convex holes; we improve upon this by handling arbitrary admissible 3D configurations. The key insight specifies a point in the deconstruction of layers enclosing non-convex holes at which we can pause and move inner modules out of the hole. We prove this happens early enough to maintain connectivity, but late enough to open enough room in the enclosing lay...
Abstract — A self-reconfigurable modular robot can change its own shape by rearranging the connectiv...
International audienceA modular robots is composed of many independent connected modules which are a...
In this paper, we address the issue of motion planning for a bipartite class of modular self-reconfi...
We present an algorithm for self-reconfiguration of admissible 3D configurations of pivoting modular...
In this paper, we present algorithms for self-reconfiguration of modular robots that move by pivotin...
In this paper, we present algorithms for self-reconfiguration of modular robots that move by pivotin...
We present the first universal reconfiguration algorithm for transforming a modular robot between an...
Face-connected configurations of cubes are a common model for modular robots in three dimensions. In...
We present the first universal reconfiguration algorithm for transforming a modular robot between an...
A self-reconfigurable modular robot can change its own shape by rearranging the connectivity of the ...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T, reconf...
Modular robots have been studied an classified from different perspectives, generally focusing on th...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T , reco...
AbstractIn this paper we propose a novel algorithm that, given a source robot S and a target robot T...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Abstract — A self-reconfigurable modular robot can change its own shape by rearranging the connectiv...
International audienceA modular robots is composed of many independent connected modules which are a...
In this paper, we address the issue of motion planning for a bipartite class of modular self-reconfi...
We present an algorithm for self-reconfiguration of admissible 3D configurations of pivoting modular...
In this paper, we present algorithms for self-reconfiguration of modular robots that move by pivotin...
In this paper, we present algorithms for self-reconfiguration of modular robots that move by pivotin...
We present the first universal reconfiguration algorithm for transforming a modular robot between an...
Face-connected configurations of cubes are a common model for modular robots in three dimensions. In...
We present the first universal reconfiguration algorithm for transforming a modular robot between an...
A self-reconfigurable modular robot can change its own shape by rearranging the connectivity of the ...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T, reconf...
Modular robots have been studied an classified from different perspectives, generally focusing on th...
In this paper we propose a novel algorithm that, given a source robot S and a target robot T , reco...
AbstractIn this paper we propose a novel algorithm that, given a source robot S and a target robot T...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Abstract — A self-reconfigurable modular robot can change its own shape by rearranging the connectiv...
International audienceA modular robots is composed of many independent connected modules which are a...
In this paper, we address the issue of motion planning for a bipartite class of modular self-reconfi...