KR20090047655A - Mobile communication device coupled with internt access apparatus and packet data service method in the mobile communication device - Google Patents

Abstract

The present invention relates to a mobile communication terminal which performs packet data service by interworking with an internet access device having an internet access function through a wired communication interface or a wireless communication interface. The mobile communication terminal uses a storage unit for storing an interlocking service program, and a key for establishing a socket link with the Internet access device using the interlocking service program stored in the storage unit when there is a key input indicating an interlocking service access mode. And a control unit configured to establish a socket link with the Internet access device by transmitting and receiving, and to control the performance of a packet data service through the Internet access device using the set socket link. According to the present invention, a connection to an external Internet access device such as a PC capable of internet service is established through socket link setting, and various methods for the socket service used in an internet access device such as a PC in a mobile communication terminal are generated. By transmitting to the same Internet access device, a packet data service can be used at low cost through the Internet network.

Handheld Terminal, Mobile Phone, Internet, Interworking, TCP / IP, Socket Communication

Description

MOBILE COMMUNICATION DEVICE COUPLED WITH INTERNT ACCESS APPARATUS AND PACKET DATA SERVICE METHOD IN THE MOBILE COMMUNICATION DEVICE}

The present invention relates to a mobile communication terminal, and more particularly, to a mobile communication terminal and a packet data service method of a mobile communication terminal which performs various packet data services by connecting to an internet network in connection with an external internet access device capable of internet service. It is about.

A mobile communication terminal is a portable device capable of making a voice call with a counterpart located at a remote location while moving. In the beginning, only a voice communication was possible, but a mobile communication terminal is gradually evolving into a data communication method using text and symbols and a multimedia communication method including a video signal. .

In addition, as the wireless Internet access function is implemented in the mobile communication terminal, various portal services, video call services, navigation services, and community services using wireless Internet services are actively provided.

In the case of wireless Internet services, the amount of packet data sent and received is significantly higher than that of voice calls.

Therefore, the wireless Internet service performed in the mobile communication terminal has a convenient advantage as it can perform the service on the go, but there is a cost burden due to the use of expensive resources compared to the wired Internet service provided in the general PC. .

On the other hand, although the packet data service may be performed even during the movement due to the characteristics of the mobile communication terminal, the time that the terminal does not move and is in a fixed position during daily life is not small.

However, the conventional mobile communication terminal uses the radio resources of the mobile communication network even when the mobile station is in a fixed location, so when receiving the packet data service, it is relatively expensive compared to the data service through the wired Internet network, and the quality of service is affected by the location. There was a problem receiving.

A first object of the present invention is to perform various packet data services by connecting to an internet network in connection with an external internet access device capable of internet service without using a radio resource of a mobile communication network when the mobile communication terminal is in a fixed location. It is to provide a mobile communication terminal.

In addition, the second object of the present invention is to provide various packet data services by connecting to the Internet network in connection with an external Internet access device capable of Internet service without using the radio resources of the mobile communication network when the mobile communication terminal is in a fixed location. It is to provide a packet data service method of a mobile communication terminal to perform.

In order to achieve the first object of the present invention, an internet access device having an internet access function according to an aspect of the present invention and a mobile communication terminal connected to a wired communication interface or a wireless communication interface to perform a packet data service are interworking services. When there is a storage unit for storing a program and a key input indicating an interlocking service connection mode, a packet for establishing a socket link connection with the internet connection device is transmitted and received using the interlocking service program stored in the storage unit. And a controller configured to establish a socket link with a device, and to control the performance of a packet data service through the internet access device using the set socket link. The controller may include a network interface unit configured to establish a socket link with the Internet access device to perform socket communication. The controller may be configured to perform a socket communication by receiving a radio channel from a mobile communication network when the mobile communication network access mode is executed, and generate a command packet for setting a socket when the interworking service connection mode is executed and transmit the generated packet to the Internet access device. And a second network processor configured to establish a socket link and perform socket communication with the Internet access device when receiving a response packet to the command packet for setting a socket, and change an operation mode of the mobile terminal according to a key input of a key input unit. A connection setting unit configured to set one of the mobile communication network connection mode and the interlocking service connection mode; and a socket link formed by the first network processing unit or the second network processing unit corresponding to the operation mode set by the connection setting unit. The applications required to connect The apparatus may further include an application program processor configured to drive the packet data service. When the interworking service connection mode is executed, the application program processor calls a SOCKET function for requesting to establish a socket connection with the internet access device, and the second network processing part can be recognized by the internet access device in response to the call. A SOCKET command may be configured and transmitted to the network interface unit, and the network interface unit may configure a packet by adding communication information to the SOCKET command and transmit the packet to the Internet access device. The communication information may include a packet sequence number, an error code, and identification information of the mobile communication terminal. The command packet generated by the second network processor may include at least one of a plurality of methods supported by the window socket. The Internet access device may be a personal computer (PC) capable of wired Internet access.

According to an aspect of the present invention, there is provided a packet data service method of a mobile communication terminal, in which an operation mode of a mobile communication terminal is changed according to a key input of a key input unit. Setting to one, setting the socket link with an internet access device capable of connecting to the Internet when the interlocking service connection mode is set by the setting step, and connecting to the Internet while the socket connection is established with the internet access device. Performing a packet data service by executing application programs required for the service. The establishing of the socket link may include requesting a socket link establishment by transmitting a command packet for establishing a socket link to the internet access device to the internet access device, and a response packet accepting a socket link connection from the internet access device. It may include receiving a. The request for socket link establishment by transmitting a command packet for establishing a socket link to the internet access device to the internet access device may include: calling a SOCKET function to request socket connection establishment with the internet access device; The method may include configuring a SOCKET command in a form known to the Internet access device, and constructing a packet by adding communication information to the SOCKET command and transmitting the packet to the Internet access device. In the packet data service method of the mobile communication terminal, when the mobile communication network connection mode is set according to a key input of the key input unit, requesting a radio resource allocation to a mobile communication network to perform a socket communication connection, and a socket to the mobile communication network The method may further include performing a packet data service by executing applications necessary for accessing the Internet in a state where communication is formed.

According to the present invention, a mobile communication terminal connects to an external Internet access device such as a PC capable of internet service through socket link setting, and generates various methods for a socket service used in an internet access device such as a PC in the mobile communication terminal. The packet data service can be used at low cost through the Internet network by transmitting to an Internet access device such as a PC.

In addition, according to the present invention, a second network processing unit is newly configured in a mobile communication terminal for communication with an external internet access device such as a PC, and contents are downloaded using a public IP used in an external internet access device such as a PC. In addition, a general internet service can be provided to a mobile communication terminal.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description.

However, this is not intended to be limited to the specific embodiment of the present invention, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention. Hereinafter, the same reference numerals are used for the same components in the drawings, and redundant description of the same components is omitted.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only to distinguish one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. The term and / or includes a combination of a plurality of related items or any item of a plurality of related items.

1 is a block diagram illustrating a mobile communication terminal and an internet access device having an internet access function according to an embodiment of the present invention.

Referring to FIG. 1, a mobile communication terminal 100 according to an embodiment of the present invention is connected to an internet access device having an internet access function through a socket link setting. The internet access device may be, for example, a personal computer 20, a laptop computer, or the like. Hereinafter, the PC 20 will be described as an Internet access device.

The mobile communication terminal 100 is connected to an internet network by interoperating with a storage unit 110 for storing information and an interworking service program of the mobile communication terminal and an interoperable program of the storage unit 110 and an internet service-enabled device. A key input unit 170 including a control unit 120, an RF unit 130, a voice processing unit 140, a speaker 150, a microphone 160, and buttons for performing various packet data services. And a display unit 180 that provides an image selected by the controller 120 through a screen window.

The storage unit 110 is composed of a flash memory, a RAM, or an EEPROM, and operating system (OS) call processing software requiring real time processing is stored in a flash memory, and variables of these programs and The state is loaded into RAM and activated. EEPROM stores terminal registration parameters, phone numbers, and short messages. It is relatively slow but nonvolatile. Flash memory is fast, nonvolatile for data preservation, and the device's main software is stored in this area, allowing for software upgrades after product launch.

All mobile communication terminals used around the world must be numbered and classified in accordance with agreed rules. The main elements to classify mobile communication terminals are largely divided into MIN (Mobile Identification Number), ESN (Electrical Serial Number), and SCM (Station Class Mark). MIN means a phone number of a mobile communication terminal and may be included in a number system called an international mobile station identity (IMSI) for international roaming. ESN is a number uniquely assigned to all mobile communication terminals all over the world and is mainly used in exchange and call processing. The ESN consists of 32 bits and the MFR (Manufacture) code is assigned a manufacturer-specific number assigned by the FCC. SCM is a part that defines the characteristics of the mobile terminal. It is an important parameter that defines the output classification, dual mode support, slot mode, reception bandwidth, etc. of the mobile terminal. When registering, the transfer is automatically made to the exchange.

Accordingly, for the Internet interworking service according to the present invention, as described above, any identification information defined to indicate that various terminal registration related parameters and an Internet access service using a PC are used are also stored in the EEPROM.

In addition, the storage unit 110 stores an interlocking service program for the Internet interlocking service. The interlocking service program is an application program for connecting to an internet network connected to a PC and performing various packet data services when the mobile communication terminal is located at a fixed location. .

The control unit 120 controls the overall operation of the mobile communication terminal and at the same time, performs various mobile communication services by allocating radio resources of the mobile communication network, and when there is a user's key input, interworking stored in the storage unit 110. The service program is operated to use an internet access device capable of providing an Internet service, for example, an Internet service provided to the PC in conjunction with the PC 200.

In this case, the Internet service provided to the PC corresponds to a wireless Internet service as well as a wired Internet service.

The controller 120 is largely configured to operate in two operation modes. That is, the controller 120 is configured to operate in the mobile communication network access mode and the interworking service access mode.

The mobile communication network access mode is an operation mode in which the mobile communication terminal 100 receives a radio resource of a mobile communication network in a cellular mobile communication system and performs various mobile communication services including a packet data service.

First, in the mobile communication network access mode, a radio resource is allocated from a base station through the RF unit 130 and communicates with mobile communication terminals of a cellular communication network through the allocated radio resource. In addition, the mobile communication network access mode performs packet data processing to perform a wireless Internet service by accessing a wireless Internet network through a wireless resource allocated through a base station.

The interworking service access mode is an operation mode in which an internet service is performed through an internet connection function of a PC in conjunction with a device capable of internet service, for example, a PC, without using a radio resource of a mobile communication network. In the interlocking service connection mode, the mobile communication terminal acts as a client and the PC acts as a server. In the interlocking service access mode, various application programs available in the Internet service can be executed. Various applications include Internet browsers, VoIP, FTP, e-mail, PtoP, VOD, and game related applications. Therefore, in the interlocking service mode, the user can access the web site and surf the web, and perform the Internet phone service through the VoIP application. In addition, an e-mail application may be used to send or receive e-mails, and a one-to-one communication with any terminal may be performed through a PtoP application. In addition, various multimedia images may be downloaded through a VOD application program, and a game may be played through a game related application program. As these services are performed through an internet network connected to a PC, a stable service can be used at low cost regardless of the amount of packet data according to each service. If these services are allocated to use the radio resources of the mobile communication network will be expensive.

To this end, the controller 120 includes a first network processor 121, a second network processor 122, a connection setup unit 123, an application program execution unit 124, and a network interface unit 190. It is composed. The first network processing unit 121 is a module for performing a mobile communication service using a radio resource of a mobile communication network in a mobile communication terminal, and is configured and operated using a known mobile communication technology. . When the mobile communication terminal 100 operates in a mobile communication network access mode, the first network processing unit 121 receives radio resources of the mobile communication network, maintains socket communication, and processes various packet data using a wireless Internet service.

 When the mobile communication terminal 100 operates in the interlocking service connection mode, the second network processing unit 122 establishes a PC (through the socket link setting with the socket communication server 220 of the second network processing unit 122 and the PC 200). Make socket service of 200 available. In this case, the second network processor 122 performs a function of a client in the process of establishing a socket link with the PC 200.

Therefore, when the mobile communication terminal 100 is switched from the mobile communication network connection mode to the interworking service connection mode, the second network processing unit 122 establishes a socket link to the socket communication server 220 of the PC 200 and then performs socket communication. To perform. After the communication with the socket communication server 220 of the second network processing unit 122 and the PC 200 is established, the mobile communication terminal 100 can use the socket service provided by the PC 200 and the packet. Can send and receive data. That is, the second network processing unit 122 may perform the service of an application program executed through the application execution unit 124 while the socket communication server 220 and the socket link of the PC 200 are established. Send and receive packet data.

The second network processor 122 transmits the packet data generated by the driving of the application program to the socket communication server 220 via the network interface 210 of the PC 200 connected through the network interface 190. .

The packet data transmitted to the socket communication server 220 of the PC 200 is transmitted to any website through the Internet.

Meanwhile, when the second network processor 122 receives the packet data transmitted from an arbitrary website from the socket communication server 220 of the PC 200 through the network interface 190, the second network processor 122 performs the application program 124. To transmit.

The second network processor 122 requests the socket communication server 220 of the PC 200 to stop the socket communication when the mobile communication terminal 100 intends to stop the interworking service connection mode with the PC 200. In response to the socket communication stop request, the socket communication server 220 of the PC 200 releases the socket link established with the second network processing unit 112 of the mobile communication terminal 100. In addition, the interruption of the interworking service connection mode between the second network processor 122 and the PC 200 is executed even when the socket communication server 220 of the PC 200 requests the interruption. When the socket link established with the socket communication server 220 of the PC 200 is released, the mobile communication terminal 100 switches from the interworking service access mode to the mobile communication network access mode.

The connection setting unit 123 allows the mobile communication terminal 100 to operate in a mobile communication network connection mode or an interworking service connection mode according to an input of a mode selection key (not shown) included in the key input unit 170. To control. When the key input of the key input unit 170 is an input indicating the mobile communication network access mode, the radio link of the mobile communication network is allocated through the RF 130 to perform an application program execution in the application execution unit 124. The first network processor 121 and the RF unit 130 are controlled to set.

On the other hand, when the key input of the key input unit 170 is an input indicating the interlocking service connection mode, the application program execution unit 124 of the socket of the PC 200 through the network interface 190 connected to perform the application program The second network processor 121 and the network interface unit 190 are controlled to establish a socket link with the communication server 220.

The application program execution unit 224 performs various application programs that can be executed in the mobile communication network access mode and the interworking service access mode.

Application programs that may be executed in the application execution unit 224 include a text message service, a camera shooting service, an album service, an address book service, a schedule management service, a game related service, and an Internet banking service mounted in a voice call and a general mobile communication service. Etc. may be included. In addition, the application programs that may be executed by the application program execution unit 224 include the socket communication server 220 of the PC 200 in the wireless Internet service and the interworking service access mode utilizing the radio resources of the mobile communication network in the mobile communication network access mode. It includes a variety of applications that can be performed in the wired and wireless Internet service using the wired and wireless Internet of the PC 200 through the connection settings. For example, such applications include a browser for accessing an internet website and surfing the web, and a VoIP application for performing an internet phone service using a wired or wireless Internet network of the PC 200.

In addition, the application program includes an e-mail application program that transmits or receives an e-mail by accessing an e-mail server using a wired or wireless Internet network of the PC 200. In addition, the application program includes a PtoP application program that enables the mobile communication terminal 100 to perform one-to-one communication with any terminal. In addition, the application program may include a VOD application program for downloading and playing various multimedia images provided from any website on the wired and wireless Internet. The application program execution unit 124 may perform such application programs in a mobile communication network access mode or under a coordinated service access mode under the control of the connection setting unit 123. In the case of a VoIP application that enables Internet telephony, it may be desirable to perform only in the interworking service connection mode as it is a service in the same context as a voice call using a radio resource of a mobile communication network. However, it is not limited to this.

The network interface unit 190 is connected to perform a linkage service with the network interface unit 210 of the PC through a wired network interface such as USB or RS-232C or a short range wireless communication interface. The short range wireless communication interface may be, for example, Bluetooth, but is not limited thereto and may be adapted to various short range wireless communication interfaces. When using the Bluetooth method, the network interface unit 190 processes the radio frequency allowed for the Bluetooth method. The network interface 190 transmits and receives packet data to and from the PC connected through the socket link setting.

The RF unit 130 is controlled by the control unit 120 and communicates with mobile communication terminals of a cellular communication network using a radio resource of a mobile communication network through a base station, and accesses a wireless internet network to access a wireless Internet service. In order to perform the conversion, the signal output from the controller 120 is converted into a wireless signal. In addition, the RF unit 130 converts and outputs a radio signal received from the mobile communication terminals of the cellular network to a desired signal through an antenna.

The voice processor 140 modulates the voice signal input from the microphone 150 and converts the voice signal into voice data, and converts the voice data input from the RF unit 130 and voice data stored in the memory 110 into voice signals. By demodulating to output through the speaker (speaker) (160) as a voice.

The key input unit 170 includes a plurality of numeric keys, menu keys, and function keys for performing various functions, and outputs key data to the control unit 120 by an external operation.

The key input unit 170 may include a separate key for switching the operation mode of the mobile communication terminal. Accordingly, the mobile communication terminal may operate to use radio resources of the mobile communication network according to the operation of the corresponding key, and establish a socket connection with a device capable of internet service, for example, the socket communication server 220 of the PC 200. Through the socket service of the PC 200 through the Internet service can be performed.

Accordingly, the controller 120 reads the corresponding menu from the storage 110 and displays the menu on the display 180 according to the user's menu display request by the key input unit 170.

That is, the key input unit 170 is a conventional user information input means having a plurality of keys suitable for a mobile communication terminal to be applied, such as a number of numeric keys and function keys, and if there is an input of each of the provided keys, By outputting the corresponding unique key data to the control unit 120, through the key input operation of the key input unit 170 to enter the menu display mode and selection of the menu is made. Then, the controller 120 reads the menu according to the corresponding key input from the memory 110 and displays the menu on the display 180.

The display unit 180 is a display device such as a liquid crystal display (LCD). The display unit 180 displays a state of a mobile communication terminal or a progress of a program under the control of the controller 120. That is, the overall state of the mobile communication terminal and input user information are displayed.

On the other hand, an internet access device having an internet access function, for example, the PC 200 establishes a socket link with the mobile communication terminal 100 to provide an internet service to the mobile communication terminal 100. To this end, the PC 200 includes a network interface unit 210, a socket communication server 220, and an internet access processor 230. In addition, since the configuration of the main processor, a peripheral device, a memory, etc. for performing a basic PC operation is a general matter, the PC 200 is omitted in the drawings and detailed description thereof will be omitted. Here, although the PC is taken as an example of the Internet access device that can access the Internet, the present invention is not limited thereto.

The network interface 210 establishes a socket link with the mobile communication terminal 100. In addition, the network interface unit 210 performs a function of checking the state of the connection of the socket link between the mobile communication terminal 100 and the socket communication server 220 and correcting the error.

To this end, the network interface unit 210 converts the signal received from the mobile communication terminal 100 into a desired signal and outputs it. The network interface unit 210 is connected to perform a linkage service with the network interface unit 190 of the mobile communication terminal 100 through a wired communication interface such as USB or RS-232C or a short range wireless communication interface. The network interface unit 210 transmits and receives packet data to and from the mobile communication terminal 100 through the socket connection setting between the socket communication server 220 of the PC 200 and the second network processing unit 122 of the mobile communication terminal.

The socket communication server 220 provides a packet data service using the Internet service to the mobile communication terminal 100 by establishing a socket link with the mobile communication terminal 100 when the mobile communication terminal 100 operates in an interlocking service connection mode. do. In this case, the socket communication server 220 performs a function of a server when establishing a socket link with the mobile communication terminal 100.

Therefore, the socket communication server 220 establishes a socket link by accepting the mobile communication terminal 100 when the mobile communication terminal 100 switches from the mobile communication network access mode to the interworking service access mode and requests the socket link setting.

The socket communication server 220 is a socket-related command from the mobile communication terminal 100, for example, a SOCKET command for requesting to establish a socket connection with the Internet access device 200, and for receiving data from the Internet access device 200. RECV command, SEND command for transmitting data to internet access device 200, CLOSE command for releasing socket connection with internet access device 200, etc. A window socket service is called and a response packet is generated based on the returned result and transmitted to the mobile communication terminal 100.

The socket communication server 220 receives the packet data generated in the packet data service process executed by the application program executed in the mobile communication terminal 100 while the socket link is established with the mobile communication terminal 100 to establish an Internet network. Send to any website via. In addition, when the socket communication server 220 receives the packet data transmitted from any website through the Internet connection processing unit 230, and transmits it to the mobile communication terminal 100 via the network interface unit 210. The socket communication server 220 releases the socket established with the mobile communication terminal 100 when a request for interruption of the socket link setting is requested from the mobile communication terminal 100. In addition, the socket communication server 220 may release the socket link setting with the mobile communication terminal 100 regardless of the socket link setting stop request of the mobile communication terminal 100.

The internet access processing unit 230 communicates with the internet network so that the PC 200 can access the internet network. The internet access processor 230 transmits and receives packet data to and from the external internet network through the TCP / IP protocol.

4 illustrates a protocol structure of a mobile communication terminal performing a mobile communication network access mode or a coordinated service mode according to an embodiment of the present invention.

Referring to FIG. 4, the mobile communication terminal includes a network application program layer 410, a connection establishment layer 420, and a socket service API layer 430 required for accessing the Internet through the mobile communication network when executing the mobile communication network access mode. TCP / IP layer 432, IP layer 434, PPP layer 436, air interface layer 438, and socket client emulator client layer required when connecting to the Internet through an external Internet access device when running interworking service mode. 440, a communication interface layer 450 between the terminal and an external Internet connection device such as a PC. The connection establishment layer 420 selects a mobile communication network access mode or an interworking service mode according to a key input. When the key input indicates a mobile communication network access mode, the socket service API layer 430 and the TCP / IP layer 432 are selected. Packet service through the mobile communication network using the IP layer 434, the PPP layer 436, and the air interface layer 438. In the connection establishment layer, when the key input indicates the interlocking service mode, the external Internet access device is made using the socket client emulator client layer 440 and the communication interface layer 450 between the terminal and an external Internet access device such as a PC. Perform packet data service through.

2 and 3 are flowcharts illustrating a method of performing a mobile communication network access mode or a coordinated service mode in a mobile communication terminal according to an embodiment of the present invention.

2 and 3, the connection setting unit 123 of the mobile communication terminal 100 determines whether a mode selection key (not shown) included in the key input unit 170 indicates a mobile communication network access mode. (S1). As a result of the determination, when the key input indicates the mobile communication network access mode, the first network processor 121 and the RF unit 130 are controlled to perform the mobile communication network access mode (S2). Accordingly, the first network processor 121 and the RF unit 130 allocate a radio resource of the mobile communication network, establish a socket link, and provide a packet data service for executing an application program in the application execution unit 124. Enable it (S3). When the connection mode of the mobile communication terminal 100 is set to the mobile communication network connection mode, the connection setting unit 123 determines whether a mode selection key (not shown) included in the key input unit 170 indicates the interworking service connection mode. Determine (S4). As a result of the determination, when the key input indicates the interlocking service access mode, the second network processing unit 122 and the network interface unit 190 are controlled to perform the interlocking service access mode with the PC 200 (S5). Accordingly, the second network processing unit 122 instructs the network interface unit 190 to establish a socket link with the PC 200 (S6). Accordingly, the network interface unit 190 establishes a socket link with the network interface unit 210 of the PC 200 (S7).

When a connection is established between the network interface unit 190 of the mobile communication terminal 100 and the network interface unit 210 of the PC 200, the second network processing unit 122 sends a packet to the socket communication server 220 of the PC. If the socket communication server 220 of the PC 200 receives the socket communication connection request from the mobile communication terminal 100 after requesting the socket link setting for the service, the socket communication connection is accepted. 2 The connection of the socket link is established between the network processing unit 122 and the socket communication server 220 of the PC 200 (S8).

For example, when the mobile communication terminal 100 transmits / receives data with a web server of the Internet network using a predetermined application program in the PC through the PC, the mobile communication terminal 100 sockets which are the window socket service methods of the PC. Call () to create a socket command, packetize it, send it to the PC, receive a response packet for socket () from the PC, open a window socket, and call connect () on the mobile communication terminal 100 to execute the connect command. Generate and packetize and transmit to PC, receive response packet from connect () from PC, connect with the web server, and call recv () in mobile communication terminal 100 to generate and packetize recv command Receive a response packet for recv () from the PC to receive data from the web server, and generate a send command by calling send () on the mobile communication terminal 100 Packetized and transmitted to the PC to receive a response packet to send () from the PC to transmit the data to the web server, and generate a close command by calling close () in the mobile communication terminal 100 Closes the window socket by sending a response packet to close () from the PC.

The step S8 of establishing a socket communication connection will be described in detail with reference to FIG. 5.

FIG. 5 is a flowchart illustrating a process of setting a socket communication connection in a state of setting a companion service connection mode according to an embodiment of the present invention.

Referring to FIG. 5, first, the SOCKET () is called by the network application processor 124 (S501), and the second network processor 122 responds to the SOCKET command in a form known to the PC. It is configured (S503) and transmitted to the network interface unit 190 (S505).

Subsequently, the network interface unit 190 adds communication information to the SOCKET command, constructs a packet, and transmits the packet to the PC 200 (S507). Here, the communication information may include an error code such as a packet sequence number, a CRC code, and the like, identification information such as IP information, MAC information, port information, and a telephone number of the mobile communication terminal 100.

Then, the network interface unit 210 of the PC 200 receives the SOCKET CMD including the communication information to check whether there is a communication error (S509) and if there is no problem after checking the communication information, removes the communication information to remove the SOCKET CMD. Transmission to the socket communication server 220 (S511).

The socket communication server 220 interprets the SOCKET CMD and calls SOCKET () which is a window socket function (S513).

Accordingly, the PC 200 is assigned a window SOCKET, the socket communication server 220 of the PC 200 generates a response packet (SOCKET RSP) corresponding to the SOCKET call (S515) and transmits it to the network interface unit 210. (S517).

Subsequently, the network interface unit 210 of the PC 200 includes the communication information in the response packet and transmits it to the corresponding mobile communication terminal 100 (S519). The communication information transmitted by the PC 200 includes an error code such as a packet sequence number and a CRC code, and identification information such as IP information, MAC information, and port information.

Then, if there is no problem after confirming the communication information in the received response packet, the network interface unit 190 of the mobile communication terminal 100 removes the communication information and transmits it to the second network processing unit 122 (S521).

Then, as the second network processing unit 122 of the mobile communication terminal 100 receives the response packet, the second network processing unit 122 constructs a response to SOCKET () in accordance with the SOCKET () program function format (S523) and for SOCKET (). The response is transmitted to the network application processor 124 (S525). As a result, the socket link between the mobile communication terminal 100 and the PC 200 is established.

Referring back to FIG. 3, when the socket link is established between the mobile communication terminal 100 and the PC 200 as described above, the application program execution unit 124 selects the user according to the key input of the key input unit 170. Run the application (S9). If the transmission destination of the packet data generated according to the execution of any application program in the application execution unit 124 is an arbitrary address in the Internet network, the second network processing unit 122 transmits the information to the PC through the network interface unit 190. The socket communication server 220 transmits to the socket communication server 220 (S10). The socket communication server 220 of the PC 200 receiving the packet data having the destination address from the mobile communication terminal 100 transmits the packet data to the corresponding destination through the Internet connection (S11).

On the other hand, when the second network processing unit 122 receives any packet data from the PC 200 to the application program execution unit 124 so that the driven application program can process it (S12). That is, commands such as SEND () and RECV () can be used. A procedure of processing an instruction such as SEND () and RECV () will be described later with reference to FIGS. 6 and 7.

6 is a flowchart illustrating a procedure of processing a RECV () command in a state of setting a coordinated service access mode according to an embodiment of the present invention.

Referring to FIG. 6, first, the network application program processor 124 calls RECV () (S601), and the second network processor 122 responds to the RECV command in a form known to the PC in response thereto. Configure and add necessary parameters (S603) and transmits to the network interface 190 (S605). The necessary parameters indicate, for example, which data buffer to use, how big to use, how much data to receive, which socket to use, and the like.

Subsequently, the network interface unit 190 constructs a packet by adding additional communication information for communication to a RECV command (S607), and connects the PC 200 to a wired network interface such as USB or RS-232C or a short range wireless communication interface. Transmission to the network interface unit 210 (S609). Here, the communication information may include an error code such as a packet sequence number, a CRC code, and the like, identification information such as IP information, MAC information, port information, and a telephone number of the mobile communication terminal 100.

Then, the network interface unit 210 of the PC 200 receives the RECV CMD including the communication information to check whether there is a communication error (S611), and if there is no problem after confirming the communication information, removes the communication information to the RECV CMD To transmit to the socket communication server 220 (S613).

The socket communication server 220 interprets the RECV CMD and related parameters and calls RECV () which is a window socket function (S615).

Accordingly, in the socket communication server 220 of the PC 200, when a predetermined amount of data is successfully received from the predetermined data buffer through the RECV () socket as indicated by the above parameters, the received response packet (RECV RSP) is used as the received data. If it fails to receive the data, and receives an error event (wait event) or waiting event to configure the appropriate response packet (RECV RSP) (S617), and the response packet (RECV RSP) network interface unit 210 (S619).

Subsequently, the network interface unit 210 of the PC 200 includes communication information in a response packet so that the network interface of the mobile communication terminal 100 is connected via a wired network interface such as USB or RS-232C or a short range wireless communication interface. The transmission to the unit 190 (S621). The communication information transmitted by the PC 200 may include an error code such as a packet sequence number and a CRC code, identification information such as IP information, MAC information, port information, and the like.

Then, the network interface unit 190 of the mobile communication terminal 100 checks the communication information in the received response packet, if there is no problem, removes the communication information and transmits it to the second network processing unit 122 (S623).

Then, the second network processing unit 122 of the mobile communication terminal 100 processes the data or event in the response packet to conform to the socket program function format to construct a response to RECV () (S625), and RECV (). The response is transmitted to the network application processing unit 124 (S627). As a result, the mobile communication terminal 100 may receive predetermined data through the PC 200.

7 is a flowchart illustrating a processing procedure of a SEND () command in a state of setting a coordinated service access mode according to an embodiment of the present invention.

Referring to FIG. 7, first, the network application program processor 124 calls SEND () (S701), and the second network processor 122 responds to the SEND command in a form known to the PC. After configuration (S703) and transmits to the network interface unit 190 (S705).

Subsequently, the network interface unit 190 constructs a packet by adding additional communication information for communication to the SEND command (S707), and the PC 200 via a wired network interface such as USB or RS-232C or a short range wireless communication interface. The transmission is transmitted to the network interface unit 210 (S709). Here, the communication information may include an error code such as a packet sequence number, a CRC code, and the like, identification information such as IP information, MAC information, port information, and a telephone number of the mobile communication terminal 100.

Then, the network interface unit 210 of the PC 200 receives the SEND CMD including the communication information to check whether there is a communication error (S711), and if there is no problem after checking the communication information, the SEND CMD is removed by removing the communication information. To transmit to the socket communication server 220 (S713).

The socket communication server 220 interprets the SEND CMD and calls send () which is a window socket function (S715).

Accordingly, the socket communication server 220 of the PC 200 receives data or events, constructs an appropriate response packet SEND RSP (S717), and transmits the response packet SEND RSP to the network interface unit 210 ( S719).

Subsequently, the network interface unit 210 of the PC 200 includes communication information in a response packet so that the network interface of the mobile communication terminal 100 is connected via a wired network interface such as USB or RS-232C or a short range wireless communication interface. The transmission to the unit 190 (S721). The communication information transmitted by the PC 200 may include an error code such as a packet sequence number and a CRC code, identification information such as IP information, MAC information, port information, and the like.

Then, the network interface unit 190 of the mobile communication terminal 100 checks the communication information in the received response packet, if there is no problem, removes the communication information and transmits it to the second network processing unit 122 (S723).

Then, the second network processing unit 122 of the mobile communication terminal 100 processes the data or event in the response packet in accordance with the socket program function format to construct a response to SEND () (S725), and SEND (). The response is transmitted to the network application processor 124 (S727). As a result, the mobile communication terminal 100 may transmit predetermined data to the PC 200.

Referring back to FIG. 3, the network interface unit 190 of the mobile communication terminal 100 is connected to the network interface unit 210 of the PC 200 while the socket communication is connected between the mobile communication terminal 100 and the PC 200. ) And whether or not an error has occurred, and corrects the error or requests retransmission to maintain the transmission quality of packet data exchanged between the mobile communication terminal 100 and the PC (S13).

The processing when an error occurs will be described with reference to FIG. 9.

9 is a flowchart illustrating a processing process when an error occurs in the set state of the interlocking service access mode according to an embodiment of the present invention.

Referring to FIG. 9, first, the network application program processor 124 calls RECV () (S901), and the second network processor 122 responds to the RECV command in a form known to the PC in response thereto. Configure and add necessary parameters (S903) and transmits to the network interface unit 190 (S905). The necessary parameters indicate, for example, which data buffer to use, how big to use, how much data to receive, which socket to use, and the like.

Subsequently, the network interface unit 190 constructs a packet by adding additional communication information for communication to a RECV command (S907), and the PC 200 via a wired network interface such as USB or RS-232C or a short range wireless communication interface. It is transmitted to the network interface unit 210 (S909). Here, the communication information may include an error code such as a packet sequence number, a CRC code, and the like, identification information such as IP information, MAC information, port information, and a telephone number of the mobile communication terminal 100.

Then, the network interface unit 210 of the PC 200 receives a RECV CMD including communication information to check whether there is a communication error, and if there is a communication error, a response packet including an error code for a retransmission request. In step S911, the response packet is transmitted to the network interface unit 190 of the mobile communication terminal 100 through a wired network interface such as USB or RS-232C or a short range wireless communication interface (S913).

Then, the network interface unit 190 of the mobile communication terminal 100 checks the communication information of the response packet including the received error code, and transmits a command (CMD) in which the error occurs to the network interface unit (PCD) of the PC 200 ( Retransmit to 210 (S917).

The network interface unit 210 of the PC 200 receives the retransmitted RECV CMD including the communication information, checks whether there is a communication error, and if there is no error, removes the communication information and configures the RECV CMD (S921). In step S921, the processor 120 transmits the information to S220.

The socket communication server 220 interprets the RECV CMD and related parameters to call RECV (), which is a window socket function (S615). Since the following procedure is the same as the steps after S617 in FIG.

Referring back to FIG. 3, the connection is established in a state where the Internet service is made through the socket communication connection between the mobile communication terminal 100 and the PC 200 in a state in which an operation mode of the mobile communication terminal 100 is set to an interworking service connection mode. The unit 123 determines whether a mode selection key (not shown) included in the key input unit 170 indicates a mobile communication network access mode (S14). As a result of the determination, when the key input indicates the mobile communication network access mode, the second network processing unit 122 instructs to stop the interworking service with the PC 200 and instructs the first network processing unit 121 to perform the mobile communication network access mode. Instruction (S15).

Accordingly, the second network processing unit 122 requests the socket communication server 230 of the PC 200 to release the socket communication, and when the connection release request is accepted from the socket communication server 230 of the PC 200, the second network processor 122 receives the second network processor 122. 2 The network processing unit 122 releases the socket communication with the PC. In addition, the first network processor 121 requests the allocation of radio resources of the mobile communication network, establishes a socket communication connection, and processes packet data in the application program execution unit 124 (S16). The disconnection of the socket communication will be described in detail with reference to FIG. 8.

8 is a flowchart illustrating a process of releasing a socket communication in a state in which the interworking service connection mode is set according to an embodiment of the present invention.

Referring to FIG. 8, first, the network application program processor 124 calls CLOSE () (S801), and the second network processor 122 responds to the CLOSE command in a form known to the PC in response thereto. It is configured (S803) and transmitted to the network interface unit 190 (S805).

Subsequently, the network interface unit 190 constructs a packet by adding communication information to the CLOSE command and transmits the packet to the PC 200 (S807). Here, the communication information may include an error code such as a packet sequence number, a CRC code, and the like, identification information such as IP information, MAC information, port information, and a telephone number of the mobile communication terminal 100.

Then, the network interface unit 210 of the PC 200 receives a CLOSE CMD including communication information to check whether there is a communication error (S809), and if there is no problem after checking the communication information, removes the communication information to remove the CLOSE CMD. Transmission to the socket communication server 220 (S811).

The socket communication server 220 interprets the CLOSE CMD and calls CLOSE () which is a window socket function (S813).

Therefore, the PC 200 is assigned a window CLOSE SOCKET () function, and receives the result of the CLOSE SOCKET () function call from the socket communication server 220 of the PC 200 to generate an appropriate response packet (CLOSE RSP). In step S815, the data is transmitted to the network interface unit 210 (S817).

Subsequently, the network interface unit 210 of the PC 200 includes communication information in the response packet and transmits the communication information to the corresponding mobile communication terminal 100 (S819). The communication information transmitted by the PC 200 includes an error code such as a packet sequence number and a CRC code, and identification information such as IP information, MAC information, and port information.

Then, if there is no problem after confirming the communication information in the received response packet, the network interface unit 190 of the mobile communication terminal 100 removes the communication information and transmits it to the second network processing unit 122 (S821).

Then, as the second network processing unit 122 of the mobile communication terminal 100 receives the response packet, the second network processing unit 122 constructs a response to the CLOSE () according to the CLOSE () program function format (S823) and the response to the CLOSE (). The response is transmitted to the network application processor 124 (S825). As a result, the socket link between the mobile communication terminal 100 and the PC 200 is released.

Although described with reference to the embodiments above, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention as set forth in the claims below. Could be.

1 is a block diagram illustrating a mobile communication terminal and an internet access device having an internet access function according to an embodiment of the present invention.

2 and 3 are flowcharts illustrating a method of performing a mobile communication network access mode or a coordinated service mode in a mobile communication terminal according to an embodiment of the present invention.

4 illustrates a protocol structure of a mobile communication terminal performing a mobile communication network access mode or a coordinated service mode according to an embodiment of the present invention.

FIG. 5 is a flowchart illustrating a process of establishing a socket communication connection in a state of setting a companion service connection mode according to an embodiment of the present invention.

6 is a flowchart illustrating a procedure of processing a RECV () command in a state of setting a coordinated service access mode according to an embodiment of the present invention.

7 is a flowchart illustrating a processing procedure of a SEND () command in a state of setting a coordinated service access mode according to an embodiment of the present invention.

8 is a flowchart illustrating a process of releasing a socket communication in a state in which the interworking service connection mode is set according to an embodiment of the present invention.

9 is a flowchart illustrating a processing process when an error occurs in the set state of the interlocking service access mode according to an embodiment of the present invention.

 <Explanation of symbols for the main parts of the drawings>

100: mobile communication terminal 110: storage unit

120: control unit 121: first network processing unit

122: second network processing unit 123: connection setting unit

124: application processing unit 190: network interface unit

200: PC 210: network interface unit

220: socket communication server 230: Internet connection processing unit

Claims (16)

A mobile communication terminal connected to an internet access device having an internet access function through a wired communication interface or a wireless communication interface to perform a packet data service, A storage unit for storing a coordinated service program; And When there is a key input indicating an interlocking service access mode, a packet for setting a socket link with the internet access device is transmitted and received using the interlocking service program stored in the storage unit to establish a socket link with the internet access device. And a control unit for controlling the performance of a packet data service through the internet access device using the established socket link. The method of claim 1, wherein the control unit, And a network interface unit configured to establish a socket link with the internet access device to perform socket communication. The method of claim 2, wherein the control unit, A first network processor configured to perform socket communication by allocating a radio channel from a mobile communication network when the mobile communication network access mode is executed; When the interworking service connection mode is executed, a command packet for socket setting is generated and transmitted to the internet access device, and when a response packet for the command packet for socket setting is received, a socket link is established to establish socket communication with the internet access device. A second network processor to perform; A connection setting unit configured to set an operation mode of the mobile communication terminal to one of the mobile communication network connection mode and a linked service connection mode according to a key input of a key input unit; And An application processing unit for performing the packet data service by driving applications required for Internet access through a socket link formed by the first network processing unit or the second network processing unit in accordance with an operation mode set by the connection setting unit; A mobile communication terminal further comprising. 4. The method of claim 3, wherein the application program processor calls a SOCKET function to request a socket connection with the Internet access device when the interworking service connection mode is executed, and the second network processor is configured to respond to the call. A mobile communication, comprising: a SOCKET command configured in a form known to a connected device and transmitted to the network interface unit, wherein the network interface unit adds communication information to the SOCKET command to form a packet and transmits the packet to the Internet access device. terminal. The mobile communication terminal of claim 4, wherein the communication information includes a packet sequence number, an error code, and identification information of the mobile communication terminal. The method of claim 3, wherein The command packet generated by the second network processor comprises at least one of a plurality of methods supported by the window socket. The mobile communication terminal of claim 1, wherein the mobile communication terminal operates as a client in the interlocking service connection mode, and the Internet access device operates as a server. The mobile communication terminal of claim 7, wherein the Internet access device is a personal computer (PC) capable of wired Internet access. Setting an operation mode of the mobile communication terminal to one of a mobile communication network connection mode and a coordinated service connection mode according to a key input of a key input unit; Setting a socket link with an internet access device capable of accessing the internet when the interworking service access mode is set by the setting step; And And performing a packet data service by executing an application program required for an internet connection while the socket connection is established with the internet access device. The method of claim 9, wherein establishing the socket link comprises: Requesting a socket link setting by transmitting a command packet for establishing a socket link to the internet access device to the internet access device; And Receiving a response packet accepting a socket link connection from the internet access device. The method of claim 10, wherein the requesting a socket link setting by transmitting a command packet for establishing a socket link to the internet access device to the internet access device comprises: Calling a SOCKET function to request a socket connection establishment with the Internet access device; Constructing a SOCKET command in a form known by the Internet access device; And And constructing a packet by adding communication information to the SOCKET command and transmitting the packet to the Internet access device. 12. The method of claim 11, wherein the communication information includes a packet sequence number, an error code, and identification information of the mobile communication terminal. 12. The method of claim 11, wherein the command packet includes at least one of various methods supported by a window socket. 10. The method of claim 9, wherein the mobile communication terminal operates as a client in the interworking service connection mode, and the Internet access device operates as a server. 15. The method of claim 14, wherein the Internet access device is a personal computer (PC) capable of wired Internet access. The method of claim 9, When the mobile communication network connection mode is set according to a key input of the key input unit, requesting a mobile communication network to allocate radio resources to perform a socket communication connection; And And performing a packet data service by executing application programs necessary for accessing the Internet in a state where socket communication is formed in the mobile communication network.

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