105 research outputs found

    Robots with Lights: Overcoming Obstructed Visibility Without Colliding

    Full text link
    Robots with lights is a model of autonomous mobile computational entities operating in the plane in Look-Compute-Move cycles: each agent has an externally visible light which can assume colors from a fixed set; the lights are persistent (i.e., the color is not erased at the end of a cycle), but otherwise the agents are oblivious. The investigation of computability in this model, initially suggested by Peleg, is under way, and several results have been recently established. In these investigations, however, an agent is assumed to be capable to see through another agent. In this paper we start the study of computing when visibility is obstructable, and investigate the most basic problem for this setting, Complete Visibility: The agents must reach within finite time a configuration where they can all see each other and terminate. We do not make any assumption on a-priori knowledge of the number of agents, on rigidity of movements nor on chirality. The local coordinate system of an agent may change at each activation. Also, by definition of lights, an agent can communicate and remember only a constant number of bits in each cycle. In spite of these weak conditions, we prove that Complete Visibility is always solvable, even in the asynchronous setting, without collisions and using a small constant number of colors. The proof is constructive. We also show how to extend our protocol for Complete Visibility so that, with the same number of colors, the agents solve the (non-uniform) Circle Formation problem with obstructed visibility

    Morphology of Quasi-Two-Dimensional ElectrodepositsA Generalized Wagner Number

    No full text

    Interactions between charges and metallic surfaces

    No full text

    Chemical and Physical Aspects of Macroemulsions Stabilized by Interfacial Colloids

    No full text

    Reduction of Silver Ions to a Colloid by Eriochrome Black T

    No full text

    Surface Behavior and Buckling of Silver Interfacial Colloid Films

    No full text
    corecore