Greedy Switching Functions on Time Scales

EngRN: Operations Research (Topic) Pub Date : 2021-10-15 DOI:10.2139/ssrn.3943667

Alexander S. Estes

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Abstract

Submodular functions are an important class of real-valued functions whose domains are the power set of some finite collection of items. An existing result states that, given an monotonic submodular objective function, a greedy algorithm achieves an approximation ratio of at worst 1-1/e. More recently, a similar result was shown for functions whose domain is a class of objects called continuous sequences. We generalize both of existing works by defining a class of objects called switching functions. Suppose that there is a system with a finite number of possible configurations and a set of times at which the configuration may be altered; this set of times may be discrete or continuous. A switching function represents a policy that chooses a configuration at each point in time, and that switches the configuration a finite number of times. We show that, given some regularity conditions reminiscent of submodularity, a greedy algorithm for constructing switching function provides an approximation ratio. This generalizes existing results concerning submodular functions and sequence submodular functions. This provides a unified approach to greedy algorithms with qualities analogous to submodularity in discrete and continuous settings.

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时间尺度上的贪婪切换函数

子模函数是一类重要的实值函数，其定义域是有限项集合的幂集。已有的结果表明，给定一个单调次模目标函数，贪心算法最坏的近似比为1-1/e。最近，对于定义域是一类称为连续序列的对象的函数，也显示了类似的结果。我们通过定义一类称为切换函数的对象来推广现有的两种工作。假设存在一个系统，它具有有限数量的可能配置和一组配置可以改变的时间;这组时间可以是离散的，也可以是连续的。交换函数表示在每个时间点选择一种配置的策略，并且在有限的时间点切换配置。我们证明，在给定一些类似于子模块化的正则性条件下，构造开关函数的贪心算法提供了一个近似比。推广了关于子模函数和序列子模函数的已有结果。这为贪婪算法提供了一种统一的方法，其性质类似于离散和连续设置中的子模块化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EngRN: Operations Research (Topic)

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