KR20120069997A - Stolen countermeasure apparatus of automatic teller machine - Google Patents

Abstract

PURPOSE: A theft countermeasuring apparatus of an automatic teller machine is provided to periodically transmit the position information of an automatic teller machine to a central control server using a GPS antenna installed outside the automatic teller machine. CONSTITUTION: An automatic teller machine(100) supports financial business of financial facilities, including account transfer, balance check, deposit withdrawal and passbook arrangement etc. A theft countermeasuring apparatus is installed inside or outside the automatic teller machine and includes a GPS(Global Positioning System) antenna(111) installed on the exterior of the automatic teller machine. The GPS antenna periodically transmits positioning information to a central control server(120) at a first cycle for a first period. The central control server displays the positioning information on a map and transfers the poisoning information to a security company(130).

Description

Theft countermeasures of financial automation equipment {STOLEN COUNTERMEASURE APPARATUS OF AUTOMATIC TELLER MACHINE}

One embodiment of the present invention relates to a countermeasure against theft of an automated teller machine.

With respect to the traditional financial transactions performed by financial institutions in direct contact with the clerks, the emergence of the Automatic Teller Machine (ATM) has led to innovative developments in several ways. For example, the user can perform a financial transaction through the automated teller machine rather than through a bank clerk, so that the waiting time for the financial transaction is significantly reduced, and the financial transaction can be performed even after the work of the financial institution is terminated.

Such automatic teller machines basically perform many financial tasks performed by financial institutions such as banks and village safes, such as account transfer, balance inquiry, deposit withdrawal, and bankbook arrangement. Due to these advantages of the financial automation equipment, the number of customers, the installation number and the installation place of the financial automation equipment are rapidly increasing, and nowadays, it becomes easy to find the financial automation equipment anywhere.

However, there is a disadvantage that it is difficult to manage the automated teller machine because the installation place is extensive and the number of installations is large. Taking advantage of such loopholes in management, misconduct using financial automated devices is increasing. As a type of cheating, a skimming device is attached to the automated teller machine, and when the user inserts the card to use the automated teller machine, it reads the card information by reading the magnetic stripe film of the card. There is a way to make illegal copies. Therefore, various countermeasures have recently been developed to prevent card information from being read using a skimming device.

However, other fraudulent actions have also been brought to the public with financial automation equipment installed in rare places. In this case, at present, there is no way for the automated teller machine to come back if it is out of the original place. Therefore, there is an urgent need for measures to counter theft of financial automated devices.

One embodiment of the present invention is equipped with a GPS antenna protruding to the outside of the automated teller machine, and when the current position of the automated teller machine is changed using the mounted GPS antenna, the position information is periodically used by using auxiliary power. The present invention provides an anti-theft device for an automated teller machine that allows the stolen financial teller to be recovered by transmitting to the central control server.

According to an embodiment of the present invention, a time for identifying location information and a period for transmitting location information to a central control server are determined based on the amount of auxiliary power of the stolen financial teller machine, and a long time since the automated teller machine is stolen. By transmitting the location of the automated teller machine to the central control server, it provides an anti-theft device for the automated teller machine that can increase the success rate of recovering the stolen financial teller machine.

An anti-theft device for an automated teller machine according to an embodiment of the present invention includes a shock detector for detecting whether an impact is applied to the teller machine, a power controller for controlling an auxiliary power according to the detection result, and the auxiliary power. It includes a GPS antenna for identifying the location information by using, and transmitting the identified location information to the central control server.

The GPS antenna may be mounted in a form protruding to the outside of the automated teller machine.

The power controller may operate auxiliary power when an impact is applied to the automatic teller machine as a result of the sensing.

The GPS antenna transmits the location information to the central control server at a first period during a first period after the auxiliary power is activated, and after the first period has elapsed, during the second period longer than the first period. The location information may be transmitted to the central control server at a second period longer than a first period.

The GPS antenna may determine at least one of the first period, the first period, the second period, and the second period based on the amount of power of the auxiliary power.

The power controller may further control the auxiliary power by referring to a schedule list, so that the power is not supplied to the GPS antenna regardless of the detection result when the applied shock occurs in the allowed time range according to the schedule list. Can be controlled.

According to an embodiment of the present invention, the GPS antenna is mounted on the outside of the ATM, and when the current position of the ATM is changed through the mounted GPS antenna, the auxiliary power is periodically used. By sending the information to the central control server, the stolen financial automation equipment can be retrieved.

According to an embodiment of the present invention, based on the amount of power of the auxiliary power of the stolen automatic teller machine determines the time to identify the location information and the period of transmitting the location information to the central control server, after the automated teller machine is stolen By transmitting the location of the automated teller machine to the central control server for a long time, it is possible to increase the success rate of recovering the stolen financial teller machine.

1 is a diagram illustrating a network connection relationship of an automatic countermeasure system for an automatic teller machine according to an embodiment of the present invention.
Figure 2 is a block diagram showing the configuration of the anti-theft device of the automated teller machine according to an embodiment of the present invention.
3 is a view showing an example of displaying the location information of the automated teller machine stolen from the central control server.
4 is a flowchart illustrating a procedure of a countermeasure method for the automatic teller machine according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings and accompanying drawings, but the present invention is not limited to or limited by the embodiments.

1 is a diagram illustrating a network connection relationship of an automatic countermeasure system for an automatic teller machine according to an embodiment of the present invention.

Referring to FIG. 1, an automated countermeasure system for an automatic teller machine may include an automated teller machine 100, an antitheft device 110, a central control server 120, and a security company 130.

In general, the automated teller machine 100 performs many financial operations, such as bank transfers, balance inquiries, deposit withdrawals, and bankbooks, which are performed by financial institutions such as banks and village safes. However, there is a disadvantage in that the installation of a large number of installation sites and a large number of installations make it difficult to manage the automated teller machine 100.

Using such loopholes of management, misconduct toward the automated teller machine 100 is increasing. For example, the financial automatic device 100 installed in a rare place has been brought to the body. To this end, when the automatic teller machine 100 is stolen, by identifying the location of the stolen financial teller machine 100, the financial countermeasure device 110 that can recover the stolen financial teller machine 100 again to finance It can be mounted on the automation device (100).

The anti-theft device 110 may be mounted inside or outside of the automated teller machine 100. In particular, the GPS (Global Positioning System) antenna 111 included in the anti-theft device 110 may be mounted to protrude from the outside of the automated teller machine 100. The anti-theft device 110 may detect whether an impact is applied to the automated teller machine 100. To this end, the anti-theft device 110 may use a 'shock detection sensor' for detecting an impact. For example, when a shock is detected in the automated teller machine 100, the anti-theft device 110 may determine that the automated teller machine 100 has been stolen.

The anti-theft device 110 controls the auxiliary power in accordance with the detection result. The anti-theft device 110 may operate the auxiliary power when an impact is applied to the automated teller machine 100 as a result of the detection. For example, the anti-theft device 110 may include an external battery that is an auxiliary power different from the main power supplied to the automated teller machine 100. That is, the anti-theft device 110 may operate the external battery to control the external battery to operate with auxiliary power.

The GPS antenna 111 of the anti-theft device 110 identifies the location information by using the auxiliary power, and transmits the identified location information to the central control server 120. For example, the GPS antenna 111 may transmit the location information to the central control server 120 at a first period for a first period after the auxiliary power is activated. Subsequently, after the first period has passed, the GPS antenna 111 may transmit the location information to the central control server 120 at a second period longer than the first period for a second period longer than the first period. have.

In this case, the second period may be longer than the first period, and the second period may be longer than the first period. For example, the GPS antenna 111 may determine at least one of the first period, the first period, the second period, and the second period based on the amount of power of the auxiliary power.

The central control server 120 may receive the location information and display the received location information on a map to provide the administrator. In addition, the central control server 120 may transmit the received location information to the security company 130.

The security company 130 dispatches the A / S vehicle 140 to a place corresponding to the location information, so that the stolen financial automatic device 100 can be recovered.

Figure 2 is a block diagram showing the configuration of the anti-theft device of the automated teller machine according to an embodiment of the present invention.

Referring to FIG. 2, the anti-theft device 200 (hereinafter, referred to as an “anti-theft device”) of the automated teller machine may include a shock detector 210, a power controller 220, and a GPS antenna 230. have.

The impact detector 210 detects whether an impact is applied to the automatic teller machine 100. For example, the shock detector 210 may be a 'shock sensor'. When the shock detector 210 detects that the shock is applied to the automatic teller machine 100, it may be determined that the automatic teller machine 100 has been stolen.

The power controller 220 controls the auxiliary power according to the detection result. For example, the power controller 220 may operate the auxiliary power when an impact is applied to the automatic teller machine 100 as a result of the sensing. In an embodiment, the power control unit 220 may include an 'external battery' which is an auxiliary power different from the main power supplied to the automatic teller machine 100. The main power is generally supplied to the automatic teller machine 100 through the 'outlet'. When the automatic teller machine 100 is released from the place where it was originally installed, it is separated from the outlet. It may not be supplied. That is, the power controller 220 may operate the external battery to control the external battery to operate with auxiliary power.

In another embodiment, the power controller 220 controls the 'external battery', which is an auxiliary power, by further referring to a schedule list, and when the applied shock occurs in the allowed time range according to the schedule list, Regardless, it may be controlled so that power is not supplied to the GPS antenna 230 described later.

That is, the power controller 220 determines whether the detected shock is a shock due to a normal movement according to a schedule through a preset schedule list. If the shock occurs within a specific time range determined in the schedule list, the power controller 220 normally moves the shock. As determined, the power supply to the GPS antenna 230 may be blocked.

For example, the shop movement of the automated teller machine is registered in the schedule list from 23:00 to 24:00 on December 31, 2010, and the shock is detected by the impact detector 210 at 23:30 on December 31, 2010. In this case, the power control unit 220 blocks the control of the auxiliary power according to the detection, that is, the power supply to the GPS antenna 230.

The GPS antenna 230 identifies the location information by using the auxiliary power. The GPS antenna 230 may accurately calculate position information according to a triangulation method using three different distances by measuring accurate time and distance from at least three satellites. The GPS antenna 230 may be mounted in a form protruding to the outside of the automatic teller machine 100. In addition, the GPS antenna 230 transmits the identified location information to the central control server 120.

In an embodiment, the GPS antenna 230 may transmit the location information to the central control server 120 at a first period for a first period after the auxiliary power is activated. For example, the first period may be set to '1 hour' after the auxiliary power is activated, and the first period may be '10 minutes'. That is, the GPS antenna 230 may transmit the location information to the central control server 120 every 10 minutes for 1 hour.

Subsequently, after the first period has elapsed, the GPS antenna 230 may transmit the location information to the central control server 120 at a second period longer than the first period for a second period longer than the first period. have. For example, the second period may be set to one of '1 hour', '2 hours', or' 3 hours' after the first time has elapsed, and the second period may be '30 minutes'. have. That is, the second period may be longer than the first period, and the second period may be longer than the first period. For example, the GPS antenna 230 may transmit the location information to the central control server 120 every 30 minutes for 3 hours.

In order for the GPS antenna 230 to identify the location information or transmit the location information, use of auxiliary power is essential. Therefore, the GPS antenna 230 may determine at least one of the first period, the first period, the second period, and the second period based on the amount of power of the auxiliary power.

In addition, the GPS antenna 230 may transmit the location information to the central control server 120 in a third period longer than the second period for a third period longer than the second period after the second period elapses. . For example, the third period may be set to greater than or equal to three hours and less than three hours after the second time elapses, and the third period may be one hour. That is, the third period may be longer than the second period, and the third period may be longer than the second period. Even in this case, the GPS antenna 230 may determine the third period or the third period based on the amount of power of the auxiliary power.

In addition, after the third period has elapsed, the GPS antenna 230 has a fourth period (every two hours) longer than the third period for a fourth period (more than six hours and less than twelve hours) longer than the third period. The location information may be transmitted to the central control server 120. Alternatively, after the fourth period has elapsed, the GPS antenna 230 may have a fifth period (every four hours) longer than the fourth period for a fifth period longer than the fourth period (12 hours or more and less than 24 hours). The location information may be transmitted to the central control server 120. Alternatively, the GPS antenna 230 may have a sixth period (every 6 hours) longer than the fifth period for a sixth period (more than two days and less than three days) longer than the fifth period after the fifth period has elapsed. The location information may be transmitted to the central control server 120.

As described above, the GPS antenna 230 may determine at least one of the fourth to sixth periods or the fourth to sixth periods based on the amount of power of the auxiliary power.

The central control server 120 may receive the location information and display the received location information on a map to provide the administrator.

3 is a view showing an example of displaying the location information of the automated teller machine stolen from the central control server.

Referring to FIG. 3, the central control server 120 may display location information transmitted in a first period during a first period on a map. For example, the central control server 120 may display the first received first location information 310 on the map and display the second received second location information 320 on the map 10 minutes later. The administrator can easily check the current position of the automated teller machine 100 by checking the location information displayed on the map.

In addition, the central control server 120 may transmit the received location information to the security company 130. The security company 130 dispatches the A / S vehicle 140 to a place corresponding to the location information, so that the stolen financial automatic device 100 can be recovered.

4 is a flowchart illustrating a procedure of a countermeasure method for the automatic teller machine according to an embodiment of the present invention.

Referring to FIG. 4, in step 410, the anti-theft device 200 detects whether an impact is applied to the automated teller machine 100. For example, the anti-theft device 200 may detect whether an impact is applied to the automated teller machine 100 using the 'shock sensor'. When theft countermeasure device 200 detects that the automatic teller machine 100 is impacted, it may determine that the automated teller machine 100 has been stolen.

If it is sensed that an impact is applied to the automated teller machine 100, in step 420, the anti-theft device 200 operates the auxiliary power. Theft countermeasure device 200 may include an 'external battery', which is an auxiliary power different from the main power supplied to the automated teller machine 100. Accordingly, the anti-theft device 200 may operate the external battery to control the external battery to operate with auxiliary power.

In step 430, the anti-theft device 200 identifies the location information by using the auxiliary power. In this case, the anti-theft device 200 may identify the location information by using the GPS antenna 230, the GPS antenna 230 may be mounted in a protruding form on the outside of the automated teller machine 100.

In step 440, the anti-theft device 200 transmits the identified location information to the central control server 120. For example, the anti-theft device 200 may transmit the location information to the central control server 120 in a first period (every 10 minutes) for a first time (1 hour) after the auxiliary power is activated. . In addition, the anti-theft device 200 is a second period (every 30 minutes) shorter than the first period for a second period (more than 1 hour and less than 3 hours) longer than the first period after the first period has elapsed. The location information may be transmitted to the central control server 120.

In general, the use of auxiliary power is essential for the GPS antenna 230 to identify the location information or to transmit the location information. Accordingly, the anti-theft device 200 may determine at least one of the first period, the first period, the second period, and the second period based on the amount of power of the auxiliary power.

The methods according to embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

200: anti-theft device for automated teller machines
210: shock detection unit
220: power control unit
230: GPS antenna

Claims (6)

A shock detector for detecting whether a shock is applied to the automatic teller machine;
A power control unit controlling auxiliary power according to the detection result; And
GPS antenna for identifying the location information using the auxiliary power, and transmitting the identified location information to the central control server
Including, theft countermeasure device of the automatic teller machine. The method of claim 1,
The GPS antenna,
The anti-theft device of the automated teller machine is mounted in a form protruding to the outside of the automated teller machine. The method of claim 1,
The power control unit,
And the auxiliary power is activated when an impact is applied to the automated teller machine as a result of the detection. The method of claim 1,
The GPS antenna,
The location information is transmitted to the central control server in a first period for a first period after the auxiliary power is activated, and after the first period has elapsed, the second period is longer than the first period for a second period longer than the first period. Theft countermeasure device of the automated teller machine which transmits the location information to the central control server at a long second cycle. The method of claim 4, wherein
The GPS antenna,
And determine at least one of the first period, the first period, the second period, and the second period based on the amount of power of the auxiliary power. The method of claim 1,
The power control unit,
The auxiliary power is controlled by referring to a schedule list further, and when the applied shock occurs in the allowed time range according to the schedule list, the power is controlled so that power is not supplied to the GPS antenna regardless of the detection result. Anti-theft device for automated equipment.

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