Abstract
In many recent applications, data are continuously being disseminated from a source to a set of servers. In this paper, we propose a cost-based approach to construct dissemination trees to minimize the average loss of fidelity of the system. Our cost model takes into account both the processing cost and the communication cost. To adapt to inaccurate statistics, runtime fluctuations of data characteristics, server workloads, and network conditions etc., we propose a runtime adaptive scheme to incrementally transform a dissemination tree to a more cost-effective one. Given apriori statistics of the system, we propose two static algorithms to construct a dissemination tree for relatively static environments. The performance study shows that the adaptive mechanisms are effective in a dynamic context and the proposed static tree construction algorithms perform close to optimal in a static environment.
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