International audienceIn this paper we present a dynamic self reconfiguration protocol for MEMS micro robots. The protocol presented in this paper is without map of the target shape which makes it efficient and scalable. In other words, nodes do not store the positions that build the target shape. Consequently, memory usage for each node is reduced to a constant complexity. An algorithm of self-reconfiguration is deeply studied showing how to manage the dynamicity (wake up and sleep of micro robots)of the network to save energy. Our algorithm is implemented in Meld, a declarative language, and executed in a real environment simulator called DPRSim
International audienceThe programmable material is one of the most challenging problems in micro-rob...
This paper presents a distributed, energy-Aware algorithm for an autonomous deployment of battery-po...
Mechanical energy storage has been studied to enable a self-destructing mote and a jumping microrobo...
International audienceMEMS microrobots are miniaturized electro-mechanical elements, made using the ...
International audienceIn this paper we propose a distributed and efficient parallel self-recon...
International audienceSelf-reconfiguration for moving MEMS microrobots currently needs a positioning...
International audienceSelf-reconfiguration for mobile microrobots currently needs a positioning syst...
International audienceIn this paper, we propose an improvement of the logical topology by using a se...
International audienceMicrorobots are low-power and low-capacity memory devices that can sense and a...
International audienceModular robots represent a major technological challenges in the last decades ...
International audienceIn this paper we propose a distributed and robustparallel redeployment...
This book describes how the principle of self-sufficiency can be applied to a reconfigurable modular...
Self-reconfigurable robotic systems composed ofmultiple modules have been investigated inten-sively ...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
Les microrobots MEMS sont des éléments miniaturisés qui peuvent capter et agir sur l'environnement. ...
International audienceThe programmable material is one of the most challenging problems in micro-rob...
This paper presents a distributed, energy-Aware algorithm for an autonomous deployment of battery-po...
Mechanical energy storage has been studied to enable a self-destructing mote and a jumping microrobo...
International audienceMEMS microrobots are miniaturized electro-mechanical elements, made using the ...
International audienceIn this paper we propose a distributed and efficient parallel self-recon...
International audienceSelf-reconfiguration for moving MEMS microrobots currently needs a positioning...
International audienceSelf-reconfiguration for mobile microrobots currently needs a positioning syst...
International audienceIn this paper, we propose an improvement of the logical topology by using a se...
International audienceMicrorobots are low-power and low-capacity memory devices that can sense and a...
International audienceModular robots represent a major technological challenges in the last decades ...
International audienceIn this paper we propose a distributed and robustparallel redeployment...
This book describes how the principle of self-sufficiency can be applied to a reconfigurable modular...
Self-reconfigurable robotic systems composed ofmultiple modules have been investigated inten-sively ...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
Les microrobots MEMS sont des éléments miniaturisés qui peuvent capter et agir sur l'environnement. ...
International audienceThe programmable material is one of the most challenging problems in micro-rob...
This paper presents a distributed, energy-Aware algorithm for an autonomous deployment of battery-po...
Mechanical energy storage has been studied to enable a self-destructing mote and a jumping microrobo...