Software Assistants for Randomized Patrol Planning for The LAX Airport Police and The Federal Air Marshals Service
M Jain, J Tsai, J Pita, C Kiekintveld, S Rathi, F Ordonez, M Tambe
In INFORMS Interfaces Journal, 2010.
This is the author's version of the work.
It is posted here by permission of INFORMS for personal use, not for redistribution.
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Abstract
Security at major locations of economic or political importance is a key concern around the world, particularly given the increasing threat of terrorism. Limited security resources prevent full security coverage at all times, which allows adversaries to observe and exploit patterns in patrolling or monitoring, e.g. they can plan an attack that avoids existing patrols. An important method of countering the surveillance capabilities of an adversary is to use randomized security policies that are more difficult to predict and exploit. We describe two deployed applications that assist security forces in randomizing their operations based on fast algorithms for solving large instances of Bayesian Stackelberg games. The first is the ARMOR system (Assistant for Randomized Monitoring over Routes), which has been successfully deployed since August 2007 at the Los Angeles International Airport (LAX). This system is used by airport police to randomize the placement of checkpoints on roads entering the airport, and the routes of canine unit patrols in the airport terminals. The IRIS system (Intelligent Randomization in Scheduling) is designed to randomize flight schedules for the Federal Air Marshals Service (FAMS). IRIS has been deployed in a pilot program by FAMS since October 2009 to randomize sched- ules of air marshals on international flights. These assistants share several key features: (i) they are based on Stackelberg game models to intelligently weight the randomized schedules, (ii) they use efficient mixed-integer programming formu- lations of the game models to enable fast solutions for large games, and (iii) they allow for interactive manipulation of the domain constraints and parameters by the users. This paper examines the design choices, information, and evaluation that went into building these effective applications.
