English

General Bounds for Incremental Maximization

Discrete Mathematics 2018-04-18 v3 Optimization and Control

Abstract

We propose a theoretical framework to capture incremental solutions to cardinality constrained maximization problems. The defining characteristic of our framework is that the cardinality/support of the solution is bounded by a value kNk\in\mathbb{N} that grows over time, and we allow the solution to be extended one element at a time. We investigate the best-possible competitive ratio of such an incremental solution, i.e., the worst ratio over all kk between the incremental solution after kk steps and an optimum solution of cardinality kk. We define a large class of problems that contains many important cardinality constrained maximization problems like maximum matching, knapsack, and packing/covering problems. We provide a general 2.6182.618-competitive incremental algorithm for this class of problems, and show that no algorithm can have competitive ratio below 2.182.18 in general. In the second part of the paper, we focus on the inherently incremental greedy algorithm that increases the objective value as much as possible in each step. This algorithm is known to be 1.581.58-competitive for submodular objective functions, but it has unbounded competitive ratio for the class of incremental problems mentioned above. We define a relaxed submodularity condition for the objective function, capturing problems like maximum (weighted) (bb-)matching and a variant of the maximum flow problem. We show that the greedy algorithm has competitive ratio (exactly) 2.3132.313 for the class of problems that satisfy this relaxed submodularity condition. Note that our upper bounds on the competitive ratios translate to approximation ratios for the underlying cardinality constrained problems.

Keywords

Cite

@article{arxiv.1705.10253,
  title  = {General Bounds for Incremental Maximization},
  author = {Aaron Bernstein and Yann Disser and Martin Groß},
  journal= {arXiv preprint arXiv:1705.10253},
  year   = {2018}
}

Comments

fixed typos

R2 v1 2026-06-22T20:02:24.188Z