Optimizing periodic patrols against short attacks on the line and other networks

Alpern, Steve; Lidbetter, Thomas; Papadaki, Katerina

doi:10.1016/j.ejor.2018.08.050

Cited by 15 publications

(10 citation statements)

References 20 publications

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“…Earlier work on patrolling a channel/border with different paradigms, includes Washburn (1982Washburn ( , 2010, Szechtman et al (2008), Zoroa N, Fernández-Sáez andZoroa P (2012), andCollins et al (2013). The case of a Patroller restricted to periodic walks has been studied by Alpern, Lidbetter and Papadaki (2019). The related problem of ambush is studied by Kikuta (2004, 2009).…”

Section: Introductionmentioning

confidence: 99%

Adversarial Patrolling in a Uniform

Alpern

Chleboun

Katsikas

et al. 2022

Operations Research

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Many of us will have seen uniformed guards patrolling in museums, airports, and other places where thefts or attacks are possible. In other similar places, we may have been unaware of undercover agents carrying out similar patrols. The latter type of patrollers has been modeled in recent literature. However, when the patroller is visible (wears a uniform), the potential thief or terrorist may be able to spot him when he is nearby and to time his theft appropriately. For example, the thief may wait a specified time after the uniformed patroller leaves his area. In “The Uniformed Patroller Game,” Steve Alpern, Paul Chleboun, Stamatios Katsikas, and Kyle Y. Lin study the effect on the patrolling game of having a visible (uniformed) patroller. It turns out that putting a uniform on the patroller greatly reduces his effectiveness in intercepting thefts or attacks. Of course, the visibility of a uniform may act as a deterrent to having the theft take place at all.

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Section: Introductionmentioning

confidence: 99%

Adversarial Patrolling in a Uniform

Alpern

Chleboun

Katsikas

et al. 2022

Operations Research

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“…Lin et al (2013) extends the work to allow random attack times, and Lin et al (2014) further accounts for the possibility of overlook. Papadaki et al (2016) and Alpern et al (2019) study a similar formulation but focus on the border patrol, while McGrath and Lin (2017) consider how to coordinate multiple patrollers. In these works, the attacker cannot see the patroller.…”

Section: Introductionmentioning

confidence: 99%

Technical Note—Optimal Patrol of a Perimeter

Lin

2022

Operations Research

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A defender dispatches patrollers to circumambulate a perimeter to guard against potential attacks. The defender decides on the time points to dispatch patrollers and each patroller’s direction and speed, as long as the long-run rate at which patrollers are dispatched is capped at some constant. An attack at any point on the perimeter requires the same amount of time, during which it will be detected by each passing patroller independently with the same probability. The defender wants to maximize the probability of detecting an attack before it completes, while the attacker wants to minimize it. We study two scenarios, depending on whether the patrollers are undercover or wear a uniform. Conventional wisdom would suggest that the attacker gains advantage if he can see the patrollers going by so as to time his attack, but we show that the defender can achieve the same optimal detection probability by carefully spreading out the patrollers probabilistically against a learning attacker.

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“…Earlier work on patrolling a channel/border with different paradigms, includes Washburn (1982Washburn ( , 2010, Szechtman et al (2008), Zoroa N, Fernández-Sáez andZoroa P (2012), andCollins et al (2013). The case where the Patroller is restricted to periodic walks has recently been studied by Alpern, Lidbetter and Papadaki (2019). The related problem of ambush is studied by Kikuta (2004, 2009), while an artificial intelligence approach to patrolling is given by Basilico, Gatti and Amigoni (2012).…”

Section: Introductionmentioning

confidence: 99%

The Uniformed Patroller Game

Alpern¹,

Chleboun²,

Katsikas³

2019

Preprint

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Patrolling Games were introduced by Alpern, Morton and Papadaki (2011) to model the adversarial problem where a mobile Patroller can only thwart an attack at some location by visiting it during the attack period, which has a prescribed integer duration m. In the present note we modify the problem by allowing the Attacker to go to his planned attack location early and observe the presence or absence of the Patroller (who wears a uniform), there. The Attacker can then choose to delay attacking for some number of periods d after the Patroller leaves. This extra information for the Attacker can reduce thwarted attacks by as much as a factor of 4 in specific models.

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Optimizing periodic patrols against short attacks on the line and other networks

Cited by 15 publications

References 20 publications

Adversarial Patrolling in a Uniform

Adversarial Patrolling in a Uniform

Technical Note—Optimal Patrol of a Perimeter

The Uniformed Patroller Game

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