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We study the time complexity for deterministic broadcasting algorithms in mobile radio networks. The broadcast operation consists of a source node successfully communicating its message to every other node. In multi-hop radio networks such as MANETs, the message may traverse multiple other nodes. Nodes have no prior knowledge besides the number n of nodes in the network and its diameter D. The problem we address has been extensively studied for static networks. Our work quantifies the impact of mobility. We consider three families of graphs: undirected graphs of constant contention degree, undirected graphs of non-constant contention degree and directed graphs of non-constant contention degree. We prove the lower bounds of Omega(n log n) time slots for the first family, Omega(n(2)/D-2 log D + D) time slots for the second and Omega(n(2)/D-2 log D + n log D) for the third. At the time of writing, the corresponding tightest lower bounds derived in the static case are, respectively, Omega(D log n), Omega(n log n log n/D) and Omega(n log D).
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