Research on the Passenger Screening Cost of the Dual Device System of Airport Security Screening
Civil aviation security check is an important part of air defense security,and it is the last line of defense to prevent passengers and their carry-on luggage from carrying prohibited items into the aircraft.The International Air Transport Association(IATA)proposed"future security checkpoint",through a series of security inspection equipment alone or in combination,combined with the passenger information for risk assess-ment,and allocated differentiated security channel for passengers with different risk levels.At present,most airports in the United States have begun to use the double equipment combination of walk-through metal detector and millimeter wave human body imaging equipment,where walk-through metal detector is the first stage of inspection,and millimeter wave human body imaging equipment is the second stage of inspection.This paper intends to study this double equipment system.In the process of passenger personal inspection,two types of errors will occur when the security inspection equipment is running:false alarm and false clear.The false clear leads to passengers carrying contraband into the aircraft,and the false alarm takes up the security inspection resources.The two types of errors affect the security of the system and cause waste of security costs.Because the two types of errors generated by the security inspection system can't be eliminated,it is of great significance to optimize the security cost within the accepta-ble range of the two types of errors in the system.This paper studies a dual-device system based on walk-through metal detector and millimeter wave body imaging device,and optimizes the security cost on the premise of ensu-ring system security.Personal security equipment produces the two types of errors:false alarm and false release when checking passengers.The response of the security equipment is simulated by normal distribution,and the probability of the two types of errors is controlled by the equipment alarm threshold.After all passengers pass through the first-stage walk through metal door,the second-stage millimeter wave body imaging device is checked according to the alarm of the walk-through metal detector.The combined alarm of the two devices determines the system alarm and system clear.Security rule 1:all the first-stage and second-stage equipment alarms lead to the security system alarm;the security system release refers to the situation where the first-stage equipment does not raise the alarm,or the first-stage equipment sounds the alarm but the second-stage equipment does not sound the alarm.Security rule 2:the first-stage equipment raises the alarm,or the first-stage equipment does not raise the alarm but the second-stage equipment sounds the alarm;the security system clear refers to the situation where the first-stage and second-stage equipment do not raise the alarm.The security of the two security rules is analyzed within the acceptable range of the two types of errors,and the best security rules for strict and common security channels are determined.Aiming at the two kinds of security rules,the nonlinear programming models of security cost are established respectively with the two kinds of system errors as the constraints,and finally solved by Monte Carlo simulation method.Compared with the existing research,the innovation in this paper is mainly reflected in the following:this paper simulates the response of security equipment as a normal distribution,and considers the variability of the two kinds of error probabilities of the equipment with the threshold;it analyzes the security and applicability of the two kinds of security rules.By comparing their respective advantages,the best security rules are assigned to the common and strict security channels.The results show that security rule 1 is suitable for the common security channel,and security rule 2 is suitable for the strict security channel.The minimum security cost of the two rules is similar,and the per capita security cost of security rule 1 is lower than that of security rule 2.
passenger security costtwo types of errorstwo security rulesMonte Carlo simulation
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