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Delay and Cooperation in Nonstochastic Bandits
We study networks of communicating learning agents that cooperate to solve a
common nonstochastic bandit problem. Agents use an underlying communication
network to get messages about actions selected by other agents, and drop
messages that took more than hops to arrive, where is a delay
parameter. We introduce \textsc{Exp3-Coop}, a cooperative version of the {\sc
Exp3} algorithm and prove that with actions and agents the average
per-agent regret after rounds is at most of order , where is the
independence number of the -th power of the connected communication graph
. We then show that for any connected graph, for the regret
bound is , strictly better than the minimax regret
for noncooperating agents. More informed choices of lead to bounds which
are arbitrarily close to the full information minimax regret
when is dense. When has sparse components, we show that a variant of
\textsc{Exp3-Coop}, allowing agents to choose their parameters according to
their centrality in , strictly improves the regret. Finally, as a by-product
of our analysis, we provide the first characterization of the minimax regret
for bandit learning with delay.Comment: 30 page
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