Sliding window order statistics in sublinear space


الملخص بالإنكليزية

We extend the multi-pass streaming model to sliding window problems, and address the problem of computing order statistics on fixed-size sliding windows, in the multi-pass streaming model as well as the closely related communication complexity model. In the $2$-pass streaming model, we show that on input of length $N$ with values in range $[0,R]$ and a window of length $K$, sliding window minimums can be computed in $widetilde{O}(sqrt{N})$. We show that this is nearly optimal (for any constant number of passes) when $R geq K$, but can be improved when $R = o(K)$ to $widetilde{O}(sqrt{NR/K})$. Furthermore, we show that there is an $(l+1)$-pass streaming algorithm which computes $l^text{th}$-smallest elements in $widetilde{O}(l^{3/2} sqrt{N})$ space. In the communication complexity model, we describe a simple $widetilde{O}(pN^{1/p})$ algorithm to compute minimums in $p$ rounds of communication for odd $p$, and a more involved algorithm which computes the $l^text{th}$-smallest elements in $widetilde{O}(pl^2 N^{1/(p-2l-1)})$ space. Finally, we prove that the majority statistic on boolean streams cannot be computed in sublinear space, implying that $l^text{th}$-smallest elements cannot be computed in space both sublinear in $N$ and independent of $l$.

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