KR20090062018A - Method for providing a translation service and mobile communication system for the same - Google Patents

Abstract

A translation service providing method for preparing a translated sentence in a language corresponding to a country in which the mobile radio communications network is included and a mobile communication system thereof are provided to improve the convenience of the translation service. A GLR(Gateway Location Register)(140) performs a function of an HLR(Home Location Register) from a second mobile communication network to a first mobile communication network. A translation service providing server(160) supplies the translation service to an inbound roamer or an outbound roamer. The translation service providing server is the translation service provided to an inbound roamer or an outbound roamer. An SMSC(Short Message Service Center) provides a short message service. An MMSC(Multimedia Message Service Center) provides the multimedia message service.

Description

Method for providing a translation service and a mobile communication system therefor {Method for providing a translation service and mobile communication system for the same}

The present invention relates to a translation service, and more particularly, to a translation service providing technology based on a mobile communication system.

The ultimate purpose of the mobile communication service is to provide a mobile communication subscriber with a convenient communication anytime, anywhere. However, there are limitations in providing mobile communication services in all regions in which mobile subscribers move because the service providers are divided by regions and the systems are diverse.

Roaming service is one of the methods for solving the regional limitations of the mobile communication service. In particular, the demand for international roaming services is increasing by mobile subscribers traveling between countries. Accordingly, the demand for additional services of international roaming services is also increasing.

Accordingly, there is a demand for a technology capable of providing more efficient additional services to subscribers using international roaming services.

An object of the present invention is to provide a translation service based on a mobile communication system.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a translation service providing method according to an embodiment of the present invention includes the steps of receiving an SMS signal output by the terminal, and transmitting a translation of the short message included in the SMS signal to the terminal The translated text is written in a language corresponding to the country to which the mobile communication network roamed by the terminal belongs.

In order to achieve the above object, a mobile communication system according to an embodiment of the present invention provides a short message service center for receiving an SMS signal sent by an outbound roaming terminal, and a translation for providing a translation of the short message included in the SMS signal. And a service providing server, wherein the translated text is written in a language corresponding to a country to which the mobile communication network roamed by the terminal belongs.

In order to achieve the above object, a mobile communication system according to an embodiment of the present invention provides a translation location service for providing a translation of the short message contained in the gateway location register for receiving the SMS signal sent by the inbound roaming terminal, and the SMS signal It includes a server, the translation is written in a language corresponding to the country to which the mobile communication network roamed by the terminal belongs.

Specific details of other embodiments are included in the detailed description and the drawings.

According to the method of providing a translation service of the present invention as described above and the mobile communication system therefor, the translation service can be easily provided under the mobile communication system.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a mobile communication system 100 according to an embodiment of the present invention. The mobile communication system 100 includes a first mobile communication network 10 and a second mobile communication network 20. According to an embodiment of the present invention, the first mobile communication network 10 may be a domestic network and the second mobile communication network 20 may be an overseas network. The first mobile communication network 10 and the second mobile communication network 20 may be based on Code Division Multiple Access (CDMA), Wideband CDMA (WCDMA), or Global System for Mobile Telecommunication (GSM). However, the present invention is not limited thereto, and the first mobile communication network 10 and the second mobile communication network 20 may be based on other types of mobile communication schemes.

In the present embodiment and the following embodiments, the translation service will be described based on the first mobile communication network 10. Accordingly, the subscriber of the first mobile communication network 10 roaming into the second mobile communication network 20 will be described as an outbound roamer, and the second mobile communication network 20 roaming into the first mobile communication network 10. Subscribers will be described as inbound roamers. In FIG. 1, the terminal 30 is an inbound roaming terminal used by an inbound roamer, and the terminal 40 is an outbound roaming terminal used by the outbound roaming. The terminals 30 and 40 are mobile communication devices such as mobile phones and personal digital assistants (PDAs).

The first mobile communication network 10 includes a base station 110, a radio network controller (RNC) 120, a mobile switching center (MSC) 130, and a gateway location register (GLR) 140. Home location register (HLR) 150, translation service providing server 160, short message service center (SMSC) 170, multimedia message service center (MSC, 180). In FIG. 1, each of the devices 110 to 180 constituting the first mobile communication network 10 is illustrated one by one. However, the present invention is limited thereto because it only schematically illustrates a basic configuration of the first mobile communication network 10. It doesn't happen. Accordingly, the first mobile communication network 10 may include a plurality of devices 110 to 180, or may include other devices not shown.

The base station 110 is a primary access point of the terminal 30, and may transmit and receive various signals and data with the terminal 30. That is, the base station 110 may perform a wireless modem function consisting of an antenna and a transmission / reception modem. The communication channel from the terminal 30 toward the base station 110 is called an uplink channel, and the communication channel from the base station 110 toward the terminal 30 is called a downlink channel.

The radio network controller 120 may control the base station 110 and manage radio resources. More specifically, the radio network controller 120 may instruct the base station 110 to allocate a communication channel to the terminal 30 and control the transmission output of the base station 110. In addition, the radio network controller 120 may support handover for a terminal moving between base stations.

The mobile exchange 130 may be connected to one or more wireless network controllers to relay communication between the terminal 30 and another terminal (not shown). In addition, the mobile exchange 130 may perform a communication relay operation with the second mobile communication network 20. Of course, the signal transmitted and received by the mobile switch 130 to the second mobile communication network 20 may be an international line processing server (not shown) which relays communication between the first mobile communication network 10 and the second mobile communication network 20. The first mobile communication network 10 may be via a separate switch (not shown) dedicated to communication with the external mobile communication network. However, for convenience of description, descriptions of the international circuit processing server, the separate switch, and other types of devices that perform these functions will be omitted in the present embodiment and the following embodiments.

The GLR 140 may perform a function as an HLR for the terminal 30 roaming from the second mobile communication network 20 to the first mobile communication network 10. In addition, the GLR 160 may perform a function of a terminal location register (VLR) of the terminal 30 with respect to the second mobile communication network 20 which is the home network of the terminal 30.

The HLR 150 may manage subscriber information. The subscriber information may include location information of the subscriber (eg, VLR address, MSC address, etc. where the terminal is currently located), additional service information of the subscriber, information of a terminal used by the subscriber, and the like. HLR 150 may include an Authentication Center (AuC). AuC may support authentication for mobile network subscribers and encryption function for wireless call interval. Of course, embodiments in which AuC exists as a device independent from HLR 150 are also possible.

The translation service providing server 160 may provide a translation service requested by an inbound roamer or an outbound rover. Specific functions of the translation service providing server 160 may be understood in more detail through the following embodiments.

The SMSC 170 may provide a short message service, and the MMSC 180 may provide a multimedia message service. Since basic functions of the SMSC 170 and the MMSC 180 are well known, a detailed description thereof will be omitted.

Meanwhile, although omitted in FIG. 1, the second mobile communication network 20 may also include devices corresponding to the devices 110 to 180 constituting the first mobile communication network 10.

Hereinafter, a process of providing a translation service under the mobile communication system 100 of FIG. 1 will be described.

2 is a flowchart illustrating a process of providing a translation service according to an embodiment of the present invention. This embodiment corresponds to a case where a translation service is provided to the outbound roaming terminal 40. In the present embodiment, the MSC 21 is a component of the second mobile communication network 20, and the terminal 40 performs communication in the second mobile communication network 20.

An outbound roamer who wants to use a translation service may use his terminal 40 to compose a short message with a desired content. Thereafter, when the outbound roamer inputs the communication number assigned for the translation service as the called number to instruct the transmission of the short message, the terminal 40 sends a short message service (SMS) including the short message written by the outbound roamer. ) May be transmitted to the MSC 21 (S210). The SMS signal is a signal used to transmit a short message. Here, the calling number of the SMS signal may be set to the communication number of the terminal 40, and the called number may be set to the communication number of the translation service providing server 160.

The MSC 21 may transmit the SMS signal to the SMSC 170 of the first mobile communication network 10 using the called number of the SMS signal transmitted from the terminal 40 (S215). Of course, the SMS signal may be via other devices between the MSC 21 of the second mobile communication network 20 and the SMSC 170 of the first mobile communication network 10, but this process is omitted for convenience of description. .

The SMS signal transmitted by the MSC 21 may include a short message, an outgoing number, a called number, and an originating exchange information prepared by an outbound roamer. Among these, the source exchange information may include an identifier of the MSC 21 or a country code for identifying a country to which the second mobile communication network 20 including the MSC 21 belongs.

When the called number of the transmitted SMS signal is a communication number of the translation service providing server 160, the SMSC 170 may transmit a translation service request signal to the translation service providing server 160 (S220). The translation service request signal may include the short message, the calling number, and the calling exchange information included in the SMS signal. Although not shown, if the destination number of the SMS signal is not the communication number of the translation service providing server 160, a conventional general short message transmission operation may be performed.

The translation service providing server 160 receiving the translation request signal from the SMSC 170 may notify the appropriate translator 201 of the translation work so that the short message may be translated into a language used in the country where the outbound roamer is located. It may be (S225). When the translation task is notified, a short message and information about a language to be translated may be provided to the translator 201. The translator 201 may be a human, but may be an automatic translation device.

According to an embodiment of the present invention, the translation service providing server 160 may check the country where the outbound roamer is located through the originating exchange information, and may know in which language the translation is required. Of course, the manner in which the outbound roamer is located is not limited thereto. For example, when the outbound roam roams to the second mobile communication network 20 and attempts location registration, the HLR 150 may store country information to which the outbound roaming mobile communication network belongs. In this case, the translation service providing server 160 may confirm by inquiring the HLR 150 of which country the outbound roamer using the calling number included in the translation service request signal is located in the mobile communication network.

The translator 201 may translate the short message into a language corresponding to the country where the outbound roamer is located (S230), and transmit the translated text of the translated content to the translation service providing server 160 (S235).

When the translation is received, the translation service providing server 160 may transmit an SMS signal including the translation to the SMSC 170 (S240). The SMS signal transmitted in step S240 may include a communication number of the terminal 40 as the called number.

The SMSC 170 may confirm the location information of the terminal 40 to the HLR 150 using the called number of the SMS signal. The SMSC 170 may transmit an SMS signal to the MSC 21 of the second mobile communication network 20 using the identified location information (S245), and the MSC 21 may transmit the SMS signal to the terminal 40. There is (S250).

When the SMS signal is received, the outbound roamer may check the translation of the short message transmitted through the terminal 40.

3 is a flowchart illustrating a process of providing a translation service according to an embodiment of the present invention. This embodiment also corresponds to a case where a translation service is provided to the outbound roaming terminal 40.

Processes S310 to S335 of FIG. 3 may be understood in the same manner as processes S210 to S235 of FIG. 2, and thus description thereof will be omitted.

When the translation is transmitted from the translator 201 (S335), the translation service providing server 160 may generate an image file including the translation (S340).

Thereafter, the translation service providing server 160 may transmit a multimedia message service (MMS) signal including the image file generated in step S340 to the MMSC 180 (S345). Here, the MMS signal may include a communication number of the terminal 40 as the called number.

The MMSC 180 may include a short message indicating that the multimedia message has been received, and may transmit an SMS signal including the communication number of the terminal 40 as the called number to the SMSC 170 (S350).

The SMSC 170 may confirm the location information of the terminal 40 to the HLR 150 using the called number of the SMS signal. The SMSC 170 may transmit an SMS signal to the MSC 21 of the second mobile communication network 20 using the confirmed location information (S355), and the MSC 21 may transmit the SMS signal to the terminal 40. There is (S355).

When the SMS signal is received, the terminal 40 may receive an image file including the translation from the MMSC 180 using the data call (S365). Outbound Romer will be able to use the translations contained in the image file. According to an embodiment of the present invention, processes S350 to S360 of FIG. 3 may be omitted, and a multimedia message may be automatically transmitted from the MMSC 180 to the terminal 40 in step S365.

In FIG. 2, a process of providing a translation using SMS has been described, and in FIG. 3, a process of providing a translation using MMS has been described. According to an embodiment of the present invention, when providing a translation service, one of SMS and MMS may be alternatively used according to the performance of the terminal 40. This will be described with reference to FIG. 4.

When the translation service request signal is transmitted from the SMSC 170, the translation service providing server 160 supports the language corresponding to the country where the outbound roamer is located (that is, the language used to prepare the translation) by the terminal 40. It may be determined whether or not (S410). When subscribing to a mobile communication service of the first mobile communication network 10, subscriber information of the subscriber may be managed by the HLR 150 or a separate server, not shown, and the subscriber information may include information on the type of the terminal used by the subscriber. It may include. Performance information for each type of terminal produced for each terminal manufacturer may be collected / managed by a specific device of the first mobile communication network 10. In the present specification, since the outbound roamer is a subscriber of the first mobile communication network 10, the translation service providing server 160 may check the performance information of the terminal 40 used by the outbound roamer in the above-described environment. Do.

As a result of the determination in step S410, if the terminal 40 supports the language used in the translation, the translation service providing server 160 may provide the translation to the terminal 40 using SMS as in the embodiment of FIG. 2 ( S420).

However, as a result of the determination of step S410, if the terminal 40 does not support the language used in the translation, since the terminal 40 will not properly display the translation to the user when using the SMS, the translation service providing server 160 As in the embodiment 3, the translation may be provided to the terminal 40 using the MMS (S430).

 5 is a flowchart illustrating a process of providing a translation service according to an embodiment of the present invention. This embodiment corresponds to a case where a translation service is provided to the inbound roaming terminal 40. In the present embodiment, the terminal 30 performs communication in the first mobile communication network 10.

When the terminal 30 roams to the first mobile communication network 10 and finishes registration of the location (S510), the GLR 140 may transmit an SMS signal including a short message introducing the translation service to the SMSC 170. There is (S515). The SMS signal may include the communication number of the terminal 30 as the called number.

The SMSC 170 may transmit an SMS signal to the MSC 130 (S520), and the MSC 130 may transmit an SMS signal to the terminal 30 (S525). When the terminal 30 receives the SMS signal, it can be seen that the inbound roamer can use the translation service in the first mobile communication network 10.

In order to use the translation service, the inbound Romer may use his terminal 30 to write a content that needs to be translated into a short message. In this case, the language input by the inbound roaming device to the terminal 30 is the native language of the inbound roaming (ie, the language corresponding to the country to which the second mobile communication network 20 to which the inbound roaming belongs) belongs.

Thereafter, when the inbound roamer inputs the communication number assigned for the translation service as the called number and instructs transmission of the short message, the terminal 30 sends an SMS signal including the short message written by the inbound roaming MSC 130. It may be transmitted to (S530).

If the first mobile communication network 10 is designed to send the SMS signal transmitted by the inbound roaming terminal 30 via the GLR 140, the MSC 130 may transmit the SMS signal to the GLR 140 (S535). .

Since the called number of the transmitted SMS signal is a communication number of the translation service providing server 160, the GLR 140 may transmit a translation service request signal to the translation service providing server 160 (S540). The translation service request signal may include a short message and a calling number included in the SMS signal. Although not shown, when the calling number of the SMS signal transmitted in step S535 is not the communication number of the translation service providing server 160, the GLR 140 transmits the SMS signal according to the calling number of the first mobile communication network 10. It may be transmitted to the SMSC 170 or forwarded to the second mobile communication network 20.

The translation service providing server 160 may know the country to which the second mobile communication network 20 subscribed by the inbound roamer through the calling number of the SMS signal, and through this, the short message included in the translation request signal may be written in any language. You can see if For example, the International Mobile Station Identity (IMSI) assigned as a communication number when subscribing to a Global System for Mobile communications (GSM) service includes a Mobile Country Code (MCC) that can identify a country to which a mobile communication network belongs. In this case, the translation service providing server 160 may recognize that the short message included in the translation request signal is written in a language corresponding to the country identified by the MCC.

Therefore, the translation service providing server 160 may notify the appropriate translator 501 of the translation work so that the short message included in the translation request signal can be translated into the language of the country to which the first mobile communication network 10 belongs ( S545).

The translator 501 may translate the short message into a language corresponding to the country to which the first mobile communication network 10 belongs (S550), and transmit the translated text of the translated content to the translation service providing server 160 (S555).

When the translation is received, the translation service providing server 160 may generate an image file including the translation (S560).

Thereafter, the translation service providing server 160 may transmit an MMS signal including the image file generated in step S560 to the MMSC 23 of the second mobile communication network 20 (S565). Here, the MMS signal may include a communication number of the terminal 30 as the called number. Of course, the translation service providing server 160 does not have to directly transmit the MMS signal to the MMSC 23, and the MMS signal may be transmitted from the translation service providing server 160 to the MMSC 23 via other devices. .

The MMSC 23 may transmit an SMS signal including a short message indicating that the multimedia message has been received to the GLR 140 of the first mobile communication network 10 (S570). The SMS signal transmitted in step S570 may include a communication number of the terminal 30 as the called number. In order to transmit the SMS signal, the MMSC 23 may inquire the HLR 22 of the location information of the terminal 30 and use it.

Thereafter, the SMS signal may be transmitted to the terminal 30 via the SMSC 170 and the MSC 130 (S575, S580, S585). When the SMS signal is received, the terminal 30 may receive an image file including a translation from the MMSC 180 using the data call (S590). The inbound Romer will be able to use the translations contained in the image file.

According to an embodiment of the present invention, processes S570 to S585 of FIG. 5 may be omitted, and a multimedia message may be automatically transmitted from the MMSC 23 to the terminal 30 in step S590. Of course, even in this case, the multimedia message may pass through other devices between the MMSC 23 and the terminal 30.

In addition, according to an embodiment of the present invention, an embodiment in which a translation service is provided to the inbound roaming terminal 30 using SMS is also possible. In this case, the translation service providing server 160 may transmit an SMS signal including the translation number and the called number to the SMSC 170 including the communication number of the terminal 30, and the SMS signal is transmitted to the terminal 30 via the MSC 130. ) May be sent.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. You will understand that. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

1 is a diagram illustrating a mobile communication system 100 according to an embodiment of the present invention.

2 is a flowchart illustrating a process of providing a translation service according to an embodiment of the present invention.

3 is a flowchart illustrating a process of providing a translation service according to another embodiment of the present invention.

4 is a flowchart illustrating a process of determining a translation service providing method according to an embodiment of the present invention.

5 is a flowchart illustrating a process of providing a translation service according to another embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

110: base station 120: wireless network controller

130: mobile switch 140: gateway location register

150: home location register 160: translation service provider server

170: Short Message Service Center

180: multimedia message service center

Claims (13)

Receiving an SMS signal output by the terminal; And Transmitting the translated text of the short message included in the SMS signal to the terminal; And the translated text is written in a language corresponding to a country to which the mobile communication network roamed by the terminal belongs. The method of claim 1, The transmitting may include transmitting the translation using at least one of a short message service and a multimedia message service. The method of claim 2, The transmitting may include transmitting the translated text using the short message service when the terminal supports the language, and transmitting the translated text using the multimedia message service when the terminal does not support the language. A mobile communication system based translation service providing method comprising the step. The method of claim 1, The terminal is an outbound roaming terminal, a mobile communication system based translation service providing method. The method of claim 4, wherein And identifying the country to which the mobile communication network roamed by the terminal belongs using the source exchange information included in the SMS signal. The method of claim 1, The terminal is an inbound roaming terminal, a mobile communication system based translation service providing method. The method of claim 6, And confirming a language corresponding to a country to which a home network of the terminal belongs, using the communication number of the terminal included in the SMS signal. A short message service center for receiving a signal sent by the outbound roaming terminal; And Translation service providing server for providing a translation of the short message included in the SMS signal, And the translated text is written in a language corresponding to the country to which the mobile communication network roamed by the terminal belongs. The method of claim 8, And the short message service center transmits an SMS signal including the translated text provided by the translation service providing server to the terminal. The method of claim 8, And a multimedia message service center for transmitting the image file including the translation to the terminal. A gateway location register that receives an SMS signal sent by an inbound roaming terminal; And Translation service providing server for providing a translation of the short message included in the SMS signal, And the translated text is written in a language corresponding to the country to which the mobile communication network roamed by the terminal belongs. The method of claim 11, And a short message service center for transmitting an SMS signal including a translation provided by the translation service providing server to the terminal. The method of claim 11, And the translation service providing server transmits an MMS signal including the translation and destined for the terminal to a multimedia message service center of a home network of the terminal.

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