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STOC
2012
ACM
2012
ACM
The cell probe complexity of dynamic range counting
In this paper we develop a new technique for proving lower bounds on the update time and query time of dynamic data structures in the cell probe model. With this technique, we prove the highest lower bound to date for any explicit problem, namely a lower bound of tq = Ω((lg n/ lg(wtu))2 ). Here n is the number of update operations, w the cell size, tq the query time and tu the update time. In the most natural setting of cell size w = Θ(lg n), this gives a lower bound of tq = Ω((lg n/ lg lg n)2 ) for any polylogarithmic update time. This bound is almost a quadratic improvement over the highest previous lower bound of Ω(lg n), due to Pˇatra¸scu and Demaine [SICOMP’06]. We prove the lower bound for the fundamental problem of weighted orthogonal range counting. In this problem, we are to support insertions of two-dimensional points, each assigned a Θ(lg n)-bit integer weight. A query to this problem is specified by a point q = (x, y), and the goal is to report the sum of the ...
Real-time TrafficAlgorithms | Cell Probe Model | Danish National Research Foundation | Dynamic Data Structures | STOC 2012 |
| Added | 28 Sep 2012 |
| Updated | 28 Sep 2012 |
| Type | Journal |
| Year | 2012 |
| Where | STOC |
| Authors | Kasper Green Larsen |
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