最大化加权期望命中时间的防御者-攻击者模型与算法及其在保护规划中的应用

A defender-attacker model and algorithm for maximizing weighted expected hitting time with application to conservation planning

IISE Transactions · 2017
被引 18
ABS 3

中文导读

研究防御者与攻击者在吸收马尔可夫链系统中的博弈,防御者保护部分状态以最大化攻击者最小化加权期望命中时间的目标,提出混合整数规划算法,并用保护案例验证。

Abstract

This article studies an interdiction problem in which two agents with opposed interests, a defender and an attacker, interact in a system governed by an absorbing discrete-time Markov chain. The defender protects a subset of transient states, whereas the attacker targets a subset of the unprotected states. By changing some of the transition probabilities related to the attacked states, the attacker seeks to minimize the Weighted Expected Hitting Time (WEHT). The defender seeks to maximize the attacker’s minimum possible objective, mitigating the worst-case WEHT. Many applications can be represented by this problem; this article focuses on conservation planning. We present a defender–attacker model and algorithm for maximizing the minimum WEHT. As WEHT is not generally a convex function of the attacker’s decisions, we examine large-scale integer programming formulations and first-order approximation methods for its solution. We also develop an algorithm for solving the defender’s problem via mixed-integer programming methods augmented by supervalid inequalities. The efficacy of the proposed solution methods is then evaluated using data from a conservation case study, along with an array of randomly generated instances.

保护规划数学优化马尔可夫链整数规划博弈论