Online Covering with Sum of $\ell_q$-Norm Objectives

May 05, 2017 Β· Declared Dead Β· πŸ› International Colloquium on Automata, Languages and Programming

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Authors Viswanath Nagarajan, Xiangkun Shen arXiv ID 1705.02194 Category cs.DS: Data Structures & Algorithms Citations 4 Venue International Colloquium on Automata, Languages and Programming Last Checked 4 months ago
Abstract
We consider fractional online covering problems with $\ell_q$-norm objectives. The problem of interest is of the form $\min\{ f(x) \,:\, Ax\ge 1, x\ge 0\}$ where $f(x)=\sum_{e} c_e \|x(S_e)\|_{q_e} $ is the weighted sum of $\ell_q$-norms and $A$ is a non-negative matrix. The rows of $A$ (i.e. covering constraints) arrive online over time. We provide an online $O(\log d+\log ρ)$-competitive algorithm where $ρ= \frac{\max a_{ij}}{\min a_{ij}}$ and $d$ is the maximum of the row sparsity of $A$ and $\max |S_e|$. This is based on the online primal-dual framework where we use the dual of the above convex program. Our result expands the class of convex objectives that admit good online algorithms: prior results required a monotonicity condition on the objective $f$ which is not satisfied here. This result is nearly tight even for the linear special case. As direct applications we obtain (i) improved online algorithms for non-uniform buy-at-bulk network design and (ii) the first online algorithm for throughput maximization under $\ell_p$-norm edge capacities.
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