Gathering in 1-Interval Connected Graphs
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We examine the problem of gathering k ≥ 2 agents (or multi-agent rendezvous) in dynamic graphs which may change in every synchronous round but remain always connected (1-interval connectivity) [KLO10]. The agents are identical and without explicit communication capabilities, and are initially positioned at different nodes of the graph. The problem is for the agents to gather at the same node, not fixed in advance. We first show that the problem becomes impossible to solve if the graph has a cycle. In light of this, we study a relaxed version of this problem, called weak gathering. We show that only in unicyclic graphs weak gathering is solvable, and we provide a deterministic algorithm for this problem that runs in polynomial number of rounds.
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