Top-k pairs and top-k objects queries have
received significant attention by the research community. In this paper, we
present the first approach to answer a broad class of top-k pairs and top-k
objects queries over sliding windows. Our framework handles multiple top-k
queries and each query is allowed to use a different scoring function, a different
value of k and a different size of the sliding window. Furthermore, the
framework allows the users to define arbitrarily complex scoring functions and
supports out-of-order data streams. For all the queries that use the same
scoring function, we need to maintain only one K-sky band. We present efficient
techniques for the K-sky band maintenance and query answering. We conduct a
detailed complexity analysis and show that the expected cost of our approach is
reasonably close to the lower bound cost. For top-k pair’s queries, we
demonstrate the efficiency of our approach by comparing it with a specially
designed supreme algorithm that assumes the existence of an oracle and meets
the lower bound cost. For top-k objects queries, our experimental results demonstrate
the superiority of our algorithm over the state-of-the-art algorithm.
No comments:
Post a Comment