KR20170002242A - Virtual office operating system and method for a mobile communication system for a toll road toll payment - Google Patents

Abstract

The present invention relates to a virtual toll operating system using a mobile communication method to pay a toll for a toll road and a method thereof, replacing an office for payment of a toll with a virtual toll, automatically determining whether a vehicle passes the virtual toll by using a terminal using a mobile communication method (e.g., a smartphone), which a driver carries, so when the vehicle passes the virtual toll and is interlinked with a high pass system using an electronic card (an applet) embedded in a subscriber identity module (SIM) card, the toll is automatically paid. The virtual toll operation system using a mobile communication method to pay a toll for a toll road comprises a high pass system and a toll payment terminal. The high pass system complies with current high pass payment procedure standards based on a dedicated short-range communication (DSRC) method in the virtual toll and performs payment of a toll. The toll payment terminal determines the virtual toll based on pre-registered virtual toll position information and current position information, accesses the high pass system when passing the virtual toll to perform authentication based on information on the SIM card, communicates with the high pass system using the DSRC communication method through the electronic card (the applet) operated in the embedded SIM card to pay a toll.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a virtual office operating system and a method thereof for paying a toll toll on a toll road,

The present invention relates to a virtual business office operating system and method for a mobile communication system for paying a toll on a roadway, and more particularly, to a virtual business office operating system for a toll road payment system, (Smart phone) of the mobile communication system possessed by the mobile terminal, and determines whether or not the vehicle passes through the virtual toll booth by using the electronic card (applet) To a toll road toll payment system, and a method thereof.

Generally, the road toll collecting system of the road toll collecting system is a main cause of the road traffic because the vehicle stops for payment (payment). In order to solve such a problem, a high pass But it is stagnating to enter high pass lane.

The roadway toll collection system is divided into DSRC (Dedicated Short-Range Communication) method, WAVE (Wireless Access in Vehicular Environments) method, and mobile communication method according to the communication method. The current high-pass system is operated by the DSRC method, and the WAVE method is being tested and operated for smart tolling of the next-generation smart highway, and the mobile communication method is still in the research stage.

Here, the high pass method requires that a high-pass terminal (OBU: On Board Unit) having an electronic card built in the vehicle is installed and installed and a roadside equipment (RSE: Road Side Equipment) is installed in the tollgate. At this time, the high-pass terminal and the roadside base station apparatus exchange information by means of DSRC (Dedicated Short Range Communication) method, whereby the amount of the electronic card is paid while passing through the toll gate without stopping the vehicle.

Various toll collection systems have been proposed to solve the traffic congestion caused by road toll collecting on the road tollgate, and conventional toll collection systems have been disclosed in the following Patent Documents 1 to 2.

The prior art disclosed in Patent Document 1 includes an integrated operating system for transmitting virtual toll location information and processing a toll through a user terminal and a network; And a user terminal configured to set up a virtual toll board based on the current location information and the virtual toll board location information transmitted from the integrated operation system, and to connect with the integrated operation system to process a toll charge when passing through the virtual toll board, By setting up a virtual toll booth using the location information and automatically paying the toll during the process of passing through the virtual toll booth, it is not necessary to stop or slow down the vehicle in order to pay tolls, thereby eliminating the vehicle congestion near the toll booth.

The prior art disclosed in Patent Document 2 includes a toll payment server connected to a mobile communication system including a base station and a short message service center to provide a toll payment service to the mobile communication terminal, The server includes: a location information receiver for receiving information on entry and exit of the highway on the user vehicle of the mobile communication terminal from the base station; A toll calculation unit for calculating a toll according to location information of a base station that has transmitted the entry and exit information of the vehicle; A message transmission unit for generating a settlement request short message including the calculated toll information and transmitting the generated short message to the mobile communication terminal through a short message service center of the mobile communication system; And a payment processor for receiving a payment request signal from the connected mobile communication terminal through the confirmation of the received message to settle the corresponding toll.

The related art thus configured provides a highway toll payment system and method using a mobile communication terminal that allows to pay an expressway toll using an SMS.

Korean Registered Patent No. 10-1509186 (Registered on March 31, 2015) Korean Registered Patent No. 10-0561668 (registered on Mar. 3, 2006)

However, the prior art disclosed in the above Patent Document 1 can not settle the toll through the mobile communication terminal in cooperation with the existing high-pass system, and the conventional art disclosed in Patent Document 2 is that the conventional art disclosed in Patent Document 1 is a mobile communication terminal, It is possible to settle the toll by using the SMS (SMS), but the toll can not be paid using the electronic card of the USIM.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method of replacing a business office paying a toll with a virtual toll, Automatically determines whether the vehicle passes through a virtual toll booth using a terminal of a mobile communication system (for example, a smart phone), automatically calculates a toll by linking with the high pass system using an electronic card (applet) And to provide a method and system for operating a virtual business office of a mobile communication system for paying a toll toll to which a user can make a payment.

It is another object of the present invention to provide a toll road toll system capable of paying a toll by interworking with a current high-pass system in which a GPS module and a USIM are installed in a mobile communication terminal and a payment standard is defined based on DSRC communication, And to provide a method and system for operating a virtual business office of a mobile communication system for payment.

In order to achieve the above object, in accordance with the present invention, a virtual business office operating system for mobile communication method for paying a toll road fee in accordance with the present invention is a virtual business office operating in accordance with the DSRC communication method based on the current high- A high-pass system for performing the operation; Determining whether a virtual sales office is located on the basis of the already registered virtual sales office location information and current location information, authenticating based on the information of the wisdom by accessing the high-pass system when passing through the virtual office, And a toll payment terminal for communicating with the high-pass system through the DSRC communication system through an applet to settle the toll.

The toll payment terminal may be a smart phone.

The toll payment terminal may include a local database (DB) storing a toll payment application; A GPS receiving module for obtaining the current position information of the vehicle based on the GPS signal transmitted from the GPS satellite; An app driver for determining a virtual business location based on the stored virtual business location information and current location information and controlling the toll charge process by accessing the high pass system when passing through the virtual business location; A USIM for interlocking with the high-pass system and processing the authentication based on the authentication information at the time of payment of the toll in cooperation with the application driving unit; And an electronic card (applet) for operating the toll and performing the toll settlement.

According to another aspect of the present invention, there is provided a method of operating a virtual business office of a mobile communication system for paying toll road fees according to the present invention, comprising the steps of: (a) (b) determining a virtual sales office based on the location information; (c) accessing the high pass system when the virtual office is near; (d) determining whether the virtual business office is passed; (e) initializing a payment transaction when passing through the virtual business office; (f) receiving a payment command from the high-pass system, making a payment request and paying a toll through the electronic card; (g) receiving and storing the toll collection information transmitted to the high-pass system after step (f); (h) terminating the payment transaction after storing the toll collection information; (i) displaying a toll payment processing result on the screen after the completion of the payment transaction.

In the step (b), after executing the toll payment application, the mobile terminal receives the coordinate information of the current location from the GPS module, compares the location information of the virtual sales office stored in the local DB with the current location information, A distance from the current location to the virtual sales office is calculated, and the virtual sales office is determined according to the distance.

In the step (c), the connection information of a specific virtual business office is connected to the high-pass system for each virtual business office based on specific address information such as an IP address or a URL.

The location of the virtual business office is set to be overlapped with the location of the actual business office that is currently constructed and operated.

In the above step (f), the application receiving the payment command message requests the balance inquiry to the electronic card (applet) before transmitting the payment processing message to the electronic card (applet), and performs a preliminary procedure such as automatic charging after confirming the balance information The payment processing message is transmitted to the electronic card (applet), or the application receiving the payment command message transmits the payment processing message to the electronic card (applet) in real time.

In the above step (f), the toll settlement terminal carried by the driver driving the vehicle or the passenger boarding the same vehicle may be used to settle the toll.

In step (d), precise position information on the virtual shop location transmitted from the virtual shop office of the high-pass system is received, position correction of the current position is performed using the received precise position information, And determines whether the vehicle has passed through the virtual sales office based on the current location information.

In step (e), upon receipt of INITIALIZATION.Request (BST), which is an initialization message for a payment transaction transmitted from the high-pass system, the electronic card (applet) information file is inquired at the wicket to secure holder information, (Applet) by initializing an electronic card (applet) by transmitting a payment transaction initialization (INITIALIZE IEP) message to an applet (Applet), and then transmitting an INITIALIZATION.Response (VST) message, which is a response to the INITIALIZATION.Request And then transmitted to the high-pass system.

In step (f), a balance inquiry is requested to the electronic card (applet), the balance information is confirmed, a preprocessing for payment is performed according to the payment option of the user, and a payment processing message (Purchase IEP) is transmitted to the electronic card (applet). S2) to perform payment processing in the electronic card.

According to the present invention, since the toll is automatically paid by using the terminal of the mobile communication system and the type of the electronic card built in the wake is changed, it is possible to replace the various payment methods (prepayment, deferred payment, traffic card, So that the safety and convenience of toll payment can be improved.

In addition, according to the present invention, since a toll can be paid by communicating with a current high-pass system of the DSRC communication system using a mobile communication terminal, there is no additional cost when operating a virtual business office, There are also advantages.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic configuration diagram of a virtual business office operating system of a mobile communication system for paying toll road fees according to a preferred embodiment of the present invention;
2 is a flowchart illustrating a method of operating a virtual business office of a mobile communication system for paying a toll road fee according to a preferred embodiment of the present invention;
FIG. 3 is a flowchart of a stepwise specific embodiment of FIG. 2. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a system and method for operating a virtual office of a mobile communication system for paying tolls according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a virtual business office operating system of a mobile communication system for paying a toll road fee according to a preferred embodiment of the present invention.

The virtual business office operating system of the mobile communication system for paying the toll road fee according to the present invention includes the high pass system 10 and the toll payment terminal 20.

Here, it is assumed that the high-pass system 10 is located at a virtual office, and the toll payment terminal 20 is regarded as a smartphone.

The virtual business office is a virtual toll hall made up of at least one tolling zone, and the toll zone is represented by GPS coordinates. For example, the toll zone may be set to four GPS coordinates, or even more GPS coordinates. Even if the up and down sales offices are classified according to the geographical characteristics of the virtual sales office, the virtual sales office constitutes one virtual sales office without any distinction between ascending and descending. This provides information on the ascending and descending directions based on the entrance and exit information in the road construction system, so that it becomes unnecessary to distinguish ascending and descending from each other.

Here, the virtual sales office is roughly divided into a closed virtual sales office having an entrance and an exit, and an open virtual sales office paying a toll upon passage of the gate. Since both closed and open virtual franchises are operated in the same manner, the franchises do not separately identify them and include closed or open virtual franchises.

The high-pass system 10 plays a role of performing settlement of tolls while observing the current high-pass payment procedure standard based on the DSRC communication method at a virtual sales office. This high-pass system 10 includes a database (DB) 11, an operation server 12, and a PSAM 13 for confirming charging collection security.

The toll payment terminal 20 determines a virtual business location based on the previously registered virtual business location information and the current location information and accesses the high pass system 10 when passing through the virtual business location to authenticate And communicates with the high-pass system 10 through a DSRC communication system through an electronic card (applet) operating in a built-in mode to pay for the toll.

The toll payment terminal 20 includes a local database (DB) 21 storing a toll payment application; A GPS receiving module (22) for obtaining the current position information of the vehicle based on the GPS signal transmitted from the GPS satellite; An app driver (not shown) that determines a virtual dealer based on the stored virtual dealer location information and current location information based on the toll settlement application, and controls the toll processing by accessing the high pass system 10 when passing through the virtual dealer site 23); (USIM) 24 for interlocking with the high-pass system 10 and processing the authentication based on the authentication information upon payment of the toll in cooperation with the application driving unit 23; And an electronic card (applet) 25 operated by the wicket 24 to perform a toll settlement.

Herein, the key center 24 accesses the high-pass system 10 based on the authentication information previously registered in the mobile communication company, registers the authentication information, stores the authentication information, and performs authentication based on the authentication information stored at the time of payment of the toll It plays a role.

The authentication information includes a smart phone unique ID and user information registered in a mobile communication company. The user information may include at least one of a user telephone number, a name, a resident registration number, and address information.

The electronic card 25 is to pay the toll using the payment means, and can pay the toll in a manner of either prepayment, deferred payment or traffic card.

The toll payment application receives all of the virtual business location information, determines whether the virtual business location is entered, transmits information required for payment such as card information, terminal information, and entrance / exit information in the high pass card module to the high- Is an application for receiving the toll from the high-pass system and paying the toll by using the electronic card in the invisible heart.

FIG. 2 is a flowchart illustrating a method of operating a virtual business office of a mobile communication method for paying a toll road fee according to the present invention, including the steps of: (a) executing a toll payment application in an application driver; (b) determining a virtual sales office based on the location information (S20); (c) connecting to the high-pass system in the vicinity of the virtual sales office (S30); (d) determining whether the virtual sales office passes the step (S40); (e) initializing a payment transaction when passing through the virtual business office (S50); (f) a step (S60 to S70) of making a payment request when the payment command is received from the high-pass system 10 and paying a toll through the electronic card; (g) receiving and storing the toll collection information transmitted to the high-pass system 10 after step (f) (S80); (h) terminating the payment transaction after storing the toll collection information (S90); (i) displaying the toll payment processing result on the screen after the payment transaction is completed (S100).

A system for operating a virtual office of a mobile communication system for paying a toll road fee according to the present invention and a method thereof according to the present invention will now be described in detail with reference to FIGS. 1 to 3.

First, the user connects to the road construction system using an input device (not shown in the figure) of the toll settlement terminal 20, downloads the toll payment application for toll settlement, and stores it in the local database 21. At this time, a process of registering the toll payment terminal 20 as a payment terminal is required.

In order to register the toll payment terminal 20 as a payment terminal, authentication information is required. In the present invention, information registered in the toll card 24, which is basically installed in the toll settlement terminal 20, . Here, the toll settlement terminal 20 is regarded as a smartphone, and the smartphone 24 is built in the smartphone.

Authentication information for use in generating the authentication code is stored in the wicket 24. For example, the authentication information includes a unique number (ID) assigned to each smart phone at the time of manufacturing the smartphone, and user information such as a phone number, a name, an address, and a resident registration number used for user registration. Generates the authentication code by combining any one of the smartphone unique number and the user information, transmits the generated authentication code, and authenticates and registers the toll payment terminal 20. The high-pass system (or the road construction system) that receives the authentication code verifies the authentication code in association with the mobile communication company and registers the toll settlement terminal 20 as a terminal capable of paying the toll if the authentication code is correct.

Here, since the authentication code is based on information for use in actual registration and authentication in a mobile communication company, the inconvenience of using a public key certificate for authenticating a separate authentication code can be solved. Thus, the user simply registers with the toll settlement terminal 20 using the currently used smart phone.

In a state where the toll payment terminal 20 is registered, the user executes the toll payment application to settle the toll using the smartphone (S10). Here, it is preferable to set the payment option at the time of the first execution of the toll payment application.

When the toll payment application is executed, the application driver 23 receives location information on all virtual sales offices from the road construction system and stores the information in the local database 21.

Thereafter, in step S20, the current location information of the vehicle received through the GPS module 22 is compared with all the virtual shop location information stored in the local database 21, and the nearest (adjacent) Determine the virtual sales office. Then, the distance from the current position to the searched virtual sales office is calculated. Here, the distance calculation can be easily performed by using the position information and the map data using the GPS information.

When the distance to the target virtual sales office is more than 1 km, the distance to the target virtual sales office is continuously compared with the virtual sales office change distance (for example, 1 km) Check whether there is a sales office. If it is determined that there is a virtual sales office closer to the target virtual sales office, the nearby virtual sales office is set as a new target virtual sales office, and the user is informed that the target virtual sales office has been changed. In this case, when the route of the vehicle is changed at a branch point or the like, the target virtual business office is changed to the virtual business office located on the changed route. In addition, there may be a case where a virtual business office is changed due to a branch point or the like.

On the other hand, if the distance from the current position to the target virtual sales office is less than 1 km, the currently set target virtual sales office is determined as the final target virtual sales office, and no other virtual sales office is searched.

From 1 km remaining, check whether the vehicle has entered the toll zone (virtual toll booth). For example, it is determined whether the GPS coordinates of the current user are within the Tolling Zone of the virtual sales office having four GPS coordinates, and it is determined whether or not the virtual sales office is entered. Whether or not to enter the virtual sales office can be determined simply by comparing the current location coordinates and the location coordinates of the virtual sales office. In this case, if there are a plurality of tolling zones, it is judged that they have entered the virtual sales office even if they enter only one area.

If it is determined that the vehicle has entered the virtual sales office, the DSRC communication method is established with the high pass system 10 of the virtual sales office in step S30. When the proximity distance between the vehicle and the virtual sales office is within a predetermined distance, a connection request signal is sent to the high pass system 10 to connect to the high pass system 10. When accessing the high-pass system 10, access is made from the adjacent virtual business location information selected in the virtual business location determination step S20 (S20) to the designated access information of the virtual business location. Here, the access information is based on specific address information such as an IP address or a URL. It is preferable that the toll payment terminal 20 accesses the high pass system 10 with one single access system and transmits the unique ID information of the virtual business office selected by the toll payment terminal 20 to the access system , It is more preferable to distinguish the virtual sales office. Here, it is desirable that the virtual business office is set up and operated so as to be overlapped with the actual business office that is constructed and operated on the actual road.

Next, in step S40, the app drive unit 23 determines whether or not it has passed the virtual sales office. That is, when the high-pass system 10 is connected to the corresponding hypothetical business office 12, the operation server 12 transmits the precise location information, which is the hypothetic business location information, to the toll payment terminal 20. The application driving unit 23 corrects the position information of the current position using the received precise position information. This position information correction is for correcting the GPS error. The precise location information may be obtained by directly using DGPS (Differential GPS) or SBAS information in the toll payment terminal 20 in addition to the high-pass system 10. And determines whether the vehicle has passed the virtual sales office on the basis of the corrected current location information. If it is determined that the mobile communication terminal has passed, the mobile communication terminal information (unique information of the terminal, etc.) is transmitted to the high-pass system 10 for payment of the toll.

Next, in step S50, the payment transaction is initialized to settle the toll. For example, INITIALIZATION.Request (BST), which is an initialization message for a payment transaction, from the high-pass system 10. The application driver 23 of the toll settlement terminal 20 inquires the information file of the electronic card (applet) 25 via the wicket 24 and acquires the holder information. Thereafter, the application driver 23 sends an INITIALIZE IEP message to the electronic card (applet) 25, initializes the electronic card (applet) 25 that received the initialization IEP message, (S1). Next, the application driving unit 23 generates an INITIALIZATION.Response (VST) message, which is a response to the INITIALIZATION.Request (BST) message received from the high-pass system 10, and transmits it to the high-pass system 10.

When the initialization for the payment transaction is completed through this process, the high-pass system 10 transmits the payment command to the toll payment terminal 20 in step S60, and the toll payment terminal 20 receives the payment command. Here, as a payment command, GET. Request messages such as Request and response messages such as GET.Response are used. The high-pass system 10 determines payment information such as toll calculation and transmits a payment command message DEBIT-ACTION.Request (S2) to the toll payment terminal 20. [

The toll payment terminal 20 receiving the payment command message processes the payment request in step S70 and processes the toll payment. That is, when receiving the payment instruction message transmitted from the high-pass system 10, the application driver 23 requests balance inquiry to the electronic card (applet) 25 to check balance information, To perform the preprocessing for the payment of. This prepayment procedure may be carried out at the preparatory stage depending on the way the virtual business office operates. The application driving unit 23 transmits a payment processing message (Purchase IEP.S2) to the electronic card (applet) 25 and the electronic card 25 sends a response S3 to the payment processing message after payment processing to the application driver 23). The application driving unit 23 transmits DEBIT-ACTION.Response (S3), which is a response message to the DEBIT-ACTION.Request (S2) message of the payment command step, to the high-pass system 10. Here, after receiving the payment command message, the application driving unit 23 can directly transmit the payment processing message without requesting the inquiry of the balance to the electronic card (applet) 25.

Then, in step S80, the application driver 23 receives and stores the toll collection details, and processes the toll collection details. For example, the high-pass system 10, which has received the DEBIT-ACTION.Response (S3) message from the application driving unit 23, transmits to the toll payment terminal 20, And transmits a response to the reception to the high-pass system 10. The application driving unit 23 transmits a Complete Purchase message, which is a message to terminate the payment transaction, to the electronic card (applet) 25, and receives a response from the electronic card (applet) 25. [ Thereafter, the electronic card (applet) 25 transmits a message for storing the toll collection received from the high-pass system 10, and the electronic card (applet) 25 transmits a response thereto. Then, the application driving unit 23 stores the toll collection history in the local DB 21 installed in the mobile communication terminal, thereby completing all payment transaction procedures. Here, the toll payment terminal 20, which is a smartphone carried by the driver, is used for the toll payment. However, the present invention is not limited to this, and the toll payment terminal 20 may be provided in the same vehicle as the driver It is also possible to replace the smartphone of the passenger with the toll, and to settle the toll.

When the processing for the fee collection history is completed, the payment transaction is ended in step S90. Here, the end of the payment transaction informs the high-pass system 10 of the connection termination message by transmitting a connection termination message, and terminates the connection with the high-path system 10 when a response is received. After the transaction is confirmed, the balance is confirmed and all payment processing procedures are terminated.

After completing the payment processing procedure, the payment processing result is displayed on the display unit 26 in step S100. After the payment transaction with the high-pass system 10 is completed, the application driver 23 delivers the payment processing result to the user. Here, the method of delivering the payment processing result can be delivered by voice or by a method of displaying through the display device (display unit) of the terminal. At this time, the payment processing result preferably includes the toll paid, the balance information after the transaction, and the like.

Here, the present invention is described as an example in which a toll payment terminal and a high-pass system as a smartphone settle a toll. However, the present invention is not limited thereto, and the toll collection system other than the high- It is also possible to pay the toll through the toll payment procedure.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

The present invention is applied to a technique of paying a toll by communicating with a toll collection system such as a high pass system using a smart phone.

10: High-pass system
11: Database
12: Operational server
13: PSAM
20: toll payment terminal
21: Local database
22: GPS module
23:
24: Remain
25: Electronic card (applet)
26:

Claims (12)

A system for operating a virtual business office of a mobile communication system for toll road toll payment,
A high-pass system that performs settlement of tolls while complying with the current high-pass payment procedure standard based on the DSRC communication method at a virtual sales office; And
Determining whether a virtual sales office is located on the basis of the already registered virtual sales office location information and current location information, authenticating based on the information of the wisdom by accessing the high-pass system when passing through the virtual office, And a toll payment terminal for communicating with the high-pass system through a DSRC communication system through an applet for accounting for tolls tolls.
The system of claim 1, wherein the toll payment terminal is a smartphone.
The method of claim 1, wherein the toll payment terminal comprises: a local database (DB) storing a toll payment application; A GPS receiving module for obtaining the current position information of the vehicle based on the GPS signal transmitted from the GPS satellite; An app driver for determining a virtual business location based on the stored virtual business location information and current location information and controlling the toll charge process by accessing the high pass system when passing through the virtual business location; A USIM for interlocking with the high-pass system and processing the authentication based on the authentication information at the time of payment of the toll in cooperation with the application driving unit; And an electronic card (applet) for operating the toll and performing the toll settlement.
A method of operating a virtual office of a mobile communication system for paying a toll road fee,
(a) executing a toll payment application in an application driver;
(b) determining a virtual sales office based on the location information;
(c) accessing the high pass system when the virtual office is near;
(d) determining whether the virtual business office is passed;
(e) initializing a payment transaction when passing through the virtual business office;
(f) receiving a payment command from the high-pass system, making a payment request and paying a toll through the electronic card;
(g) receiving and storing the toll collection information transmitted to the high-pass system after step (f);
(h) terminating the payment transaction after storing the toll collection information; And
(i) displaying a toll payment processing result on the screen after the completion of the payment transaction.
The method of claim 4, wherein the step (b) comprises: receiving coordinate information on a current location from the GPS module after executing the toll payment application, comparing the location information of the virtual sales office stored in the local DB with current location information, Calculating a distance from a current location to a virtual sales office after selecting an adjacent virtual sales office, and determining a virtual sales office based on the distance from the current location to the virtual sales office.
The method as claimed in claim 4, wherein the step (c) comprises connecting the access information of a specific virtual business office with a high-pass system for each virtual office based on specific address information such as an IP address or a URL. Method of operating a virtual business office.
The method as claimed in claim 5, wherein the location information of the virtual business location is set to be duplicated with the location information of the actual business location currently being operated and operated.
The method of claim 4, wherein the step (f) comprises the steps of: requesting a balance inquiry to an electronic card (applet) before the payment processing message is delivered to the electronic card (applet) (Applet), or an application receiving the payment command message transmits a payment processing message to an electronic card (applet) in real time after the payment processing procedure is performed. A method of operating a virtual business office by mobile communication method for road toll payment.
The method of claim 4 or claim 8, wherein the step (f) is to settle the toll by using a toll payment terminal carried by a driver driving the vehicle or a mobile communication terminal of a passenger boarded in the same vehicle. A method of operating a virtual business office of a mobile communication system for.
The method of claim 4, wherein the step (d) includes receiving accurate position information of a virtual shop location transmitted from a virtual shop operation server of the high-pass system, and performing position correction of the current position using the received precise position information And determining whether the vehicle has passed through the virtual sales office on the basis of the corrected current location information.
The method of claim 4, wherein, in the step (e), upon receiving the INITIALIZATION.Request (BST) which is an initialization message for a payment transaction transmitted from the high-pass system, the electronic card (applet) (INITIALIZATION.Response (VST)), which is a response to the INITIALIZATION.Request (BST) message of the high-pass system, after initializing the electronic card (applet) by transmitting an INITIALIZE IEP message to the electronic card Wherein the message is transmitted to the high-pass system.
The method as claimed in claim 4, wherein the step (f) requests balance inquiry to an electronic card (applet), confirms the balance information, performs a preprocessing for payment according to the payment option of the user, Purchase IEP.S2) is transmitted to the electronic card to perform payment processing in the electronic card.

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