KR20010037640A - Apparatus and method for serving packet data in mobile communication system - Google Patents

Abstract

PURPOSE: An apparatus and method for receiving packet data in a mobile communication system is provided to execute picture communication with the other side's telephone number. CONSTITUTION: A transmitting mobile station checks whether an origination key is inputted(211). If the originating key is inputted, the mobile station analyzes an inputted telephone number to check whether it is for picture communication(213). If it is judged that the telephone number is for picture communication, the mobile communication transmits an origination message to request packet data communication(215). A receiving mobile station receives the packet data communication request through the origination message(229). The transmitting mobile station drives a PPP(217) and is allocated a dynamically allocated IP address(221). At the same time, the receiving mobile station also drives a PPP(231) and also allocated an IP address(233). The transmitting mobile station transmits the allocated IP address to the receiving mobile station(223). The receiving mobile station receives the transmitter IP address(235), sends a packet call(237) and checks whether a call start is detected(241). If the call start is detected, the receiving mobile station transfers packet data to the transmitting mobile station(243). The transmitting mobile station acquires the receiver IP address through the received packet data(223). Finally picture communication is carried out through packet data exchange between two mobile stations(243).

Description

Packet data service apparatus and method in mobile communication system {APPARATUS AND METHOD FOR SERVING PACKET DATA IN MOBILE COMMUNICATION SYSTEM}

The present invention relates to a mobile communication system, and more particularly, to an apparatus and method capable of receiving image packet data in a mobile communication system.

CDMA2000 terminal, the next generation mobile communication terminal, supports the TCP / IP protocol layer to receive packet data service. Since the packet data service uses a packet rather than a circuit, a fee is charged only when receiving a data service, and thus a communication price is low, and various applications using TCP / IP are possible. In the future, the packet data service utilization rate will be higher due to the increase in packet traffic volume than voice traffic volume. In order to use the TCP / IP, an IP number of weeks is allocated. The IP address has a fixed IP (usually a mobile station IP) assigned to a specific individual, and is dynamically allocated from a service provider only when receiving a service. There is. In general, it is difficult to obtain an IP address per individual due to the limited number of IP addresses, and the price is expensive. Therefore, a dynamic IP address which uses a temporary IP address only when a user uses a service is frequently used.

When performing video communication through the CDMA2000 terminal, the user makes a call to the other party's IP. If the counterpart user IP address is fixed and the counterpart IP address is known, video communication is possible at any time. However, if the IP used by the other party is a fixed IP assigned to an individual, communication can be performed at any time like a telephone number. However, if the user uses the dynamic IP, video communication cannot be performed.

The reason is that, first, the telephone is called with an IP address, so the other party's IP is dynamically allocated. However, you can make a call and ask for the other party's IP address and perform video communication.

Second, the user using dynamic IP should always run the application to be assigned an IP address because the user is assigned an IP address by running PPP when using a packet service using TCP / IP. In the past, the dynamic IP terminal is only able to make an outgoing call because the user is assigned an IP address only when the user runs the service program, and the incoming call is impossible because the user does not run PPP to obtain the IP address. This is the reason why the PPP was not driven because the other party did not know my IP address.

As mentioned above, the conventional problem is that having an IP address per terminal is impossible because of the limited number of IP addresses. Therefore, it is desirable to use dynamic IP. However, in this case, the IP address of the other party is not known, and the video communication of the terminal is impossible because the call is not received unless the PPP is driven so that the other party can receive the packet data. If you run PPP to give dynamic IPs to all powered terminals, this is like giving a lot of static IPs, so the IP address will run out soon.

In addition, a voice call is made by telephone number, and the call is made by video communication (packet service) IP address number, which means that the user has two numbers per user. In addition, since dynamic IP changes every time, the method of knowing the other party's IP can be known only through the service of the service provider and the voice call with the other party directly. Accordingly, the present invention proposes a method for receiving packet data service to the other party's phone number even if the other party's IP is not known, in order to eliminate such inconvenience. Here, as in the past, the dynamic IP is proposed to solve the limited IP to the method of assigning only when receiving a service.

Accordingly, an object of the present invention is to provide an apparatus and method for performing video communication with a phone number of a counterpart in a mobile communication system.

The packet data service apparatus of the mobile communication system for achieving the above object, transmits a call message for requesting packet service when inputting the telephone number for the video communication, driving the PPP to receive a dynamic IP address, and transmits to the mobile station on the other side, Receiving a dynamic IP address of the counterpart mobile station when receiving packet data from the counterpart mobile station, and receiving a dynamic IP address by driving a PPP when receiving a message requesting the packet service; And a receiving side mobile station that receives the dynamic IP address of the calling mobile station and exchanges packet data with the counterpart corresponding to the dynamic IP.

1 is a diagram illustrating a network configuration of a mobile communication system according to the present invention.

2 is a diagram illustrating a signal flow between an originating mobile station and a receiving mobile station for video communication according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding the reference numerals to the components of each drawing, the same components have the same reference numerals as much as possible even if displayed on different drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The present invention is based on performing video communication with IP addresses dynamically assigned to each other without using a fixed IP address. Therefore, the sender can perform video communication without knowing the other party's IP address and without driving PPP so that the other party can receive packet data.

1 illustrates a network configuration of a mobile communication system according to the present invention. Referring to Figure 1 looks at the signal connection process for video communication according to the present invention.

First, a user of the originating mobile station 100 inputs a counterpart phone number and a special key (#) for video communication. For example, if # 016-123-1234 is input, the mobile station 100 detects that a special key (#) is entered before the counterpart phone number and detects that this communication is a video communication rather than a voice communication. The reason for inputting the special key is that the mobile station dynamically assigns an IP address temporarily during packet communication to perform video communication, and thus does not know the other party's IP address.

Then, when the user enters the originating key, the mobile station transmits an origination message to the base station 101 through an access channel to obtain a call channel. The base station 101 then finds the location of the receiving mobile station 114 through the MSC102, which is a higher unit system. The base station 101 transmits a message requesting packet data communication to the base station 110 controlling the receiving mobile station 114 through the upper unit systems. Then, the counterpart base station 110 requests packet data communication to the receiving mobile station 114 through a paging channel, and the receiving mobile station 114 connects to the PDP109 to drive PPP to be dynamically allocated an IP address. .

In the above process, the originating mobile station 100 also connects to the PDP105 to drive PPP to receive a dynamic IP address and notify the counterpart mobile station 114. However, since the IP address of the other party is not yet known, the mobile station 114 informs the MSC 102 of the upper unit system, not through the PDP 105. This is possible because the base station 101 knows the other party's telephone number.

On the other hand, when the receiving mobile station 114 obtains the IP address of the calling mobile station 100 while the IP address is assigned, the receiving mobile station 114 rings a packet call and initiates a call by a user's key input. When the call is initiated, the receiving mobile station 114 transmits packet data to the calling mobile station 100 via PDP109 and PDP105. Since the PDP105 has a dynamically assigned IP address and telephone number, packet data can be transmitted to the calling mobile station 100. Since the data received by the originating mobile station 100 includes the IP address of the receiving mobile station 114, the packet data can be exchanged between the originating mobile station 100 and the receiving mobile station 114.

In other words, even when the user does not know the other party's IP address, packet communication is possible because the IP addresses are automatically transmitted when the service is started. In addition, it is possible to know from the received information whether the other party is able to perform video communication or in a communication area. In other words, if the other party does not transmit the IP address, the other party is out of the packet service area or the state that the packet service can not be received.

2 illustrates a detailed signal flow between an outgoing mobile station and a receiving mobile station for video communication according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the calling mobile station 100 checks whether a calling key is input in step 211. At this time, when the calling key is input, the mobile station 100 analyzes the telephone number input in step 213 to check whether it is a video communication. For example, if there is a special key (#) input in front of the other party's telephone number, it is determined that it is video communication. At this time, if it is determined that the video communication is not performed, the mobile station 100 proceeds to step 225 to perform voice communication. On the other hand, when it is determined that the video communication is performed, the mobile station 100 proceeds to step 215 and transmits a paging message requesting packet data communication, and by the paging message, the receiving mobile station transmits a packet in step 231 while performing the standby mode in step 229. Receive a data communication request.

The originating mobile station 100 drives PPP in step 217 and is allocated an IP address dynamically allocated in step 221. At the same time, the receiving mobile station 114 receiving the packet data communication request also receives an IP address by driving PPP through steps 233 and 235.

In step 223, the originating mobile station 100 assigned the IP address transmits the allocated IP address to the receiving mobile station 114, and the receiving mobile station 114 receives the calling party IP address in step 237. Upon reception of the caller IP address, the receiving mobile station 114 transmits a packet call, and checks whether a call start is detected by a user's key input in step 241. Upon reception of the call start, the receiving mobile station 114 transmits packet data (image data) to the calling mobile station 100 in step 243. The packet data includes its own IP address and the other party's IP address (sender IP address). Accordingly, packet data transmission to the originating mobile station 100 is possible. In step 223, the originating mobile station 100 receives the packet data sent from the receiving mobile station 114 to obtain the recipient IP address. In this way, when the two mobile stations acquire each other's IP addresses, in step 243, packet data is exchanged between the two mobile stations to perform video communication.

During the packet data exchange, the originating mobile station 100 checks whether a call termination is detected in step 245. This may be sensed through input of a termination key of the user and a release message received from the base station. At this time, upon detecting the end of the call, the mobile station 100 proceeds to step 247 and returns and terminates the IP address assigned to the mobile station. If the end of the call is not detected, the mobile station 100 returns to step 243 to continuously exchange packet data. . During the packet data exchange, the receiving mobile station 114 checks whether a call termination is detected in step 249. This may be sensed through input of a termination key of the user and a release message received from the base station. At this time, upon detecting the end of the call, the mobile station 114 proceeds to step 251 and returns and terminates the IP address assigned to the mobile station. If the call is not detected, the mobile station 114 returns to step 243 to continuously exchange packet data. .

Here, the IP address information message (data length 32 bits) is shown as Table 1 and Table 2 below. Here, Table 1 shows IP address information corresponding to the forward direction, and Table 2 shows reverse IP address information.

Iformation Record Record Type (binary) Message Type f-csch f-dcsh Display One FNM Y N AWI N Y FWI N Y syncopation User Zone Reject 10010 FNW Y N FWI N Y Extended Record Type-Internatonal 11111110 Country-specific IP Address Information 11101 AWI N Y FWI N Y

Iformation Record Record Type (binary) Message Type r-csch r-dcsh Reserved One None - - Feature Indicator 10 Flash N Y syncopation Extended Multiplex OPtion Internatonal 111100 Status [2] Y Y Extended Record Type-Internatonal 11111110 Country-specific IP Address Information 11101 Origination Continuation

As described above, the present invention does not need to manage telephone number and IP address matching by transmitting and receiving IP addresses dynamically allocated to each other between terminals in packet service. In addition, the user can eliminate the hassle of having to manage the phone number IP address separately because the user calls the general phone number instead of the IP address.

Claims (2)

In the packet data service apparatus in a mobile communication system, Send a call message requesting a packet service, drive a PPP, receive a dynamic IP address, and transmit it to a counterpart mobile station.When receiving packet data from the counterpart mobile station, it acquires the dynamic IP address of the counterpart mobile station and transmits packet data. With the calling mobile station to exchange, When receiving a message requesting the packet service, a PPP is driven to receive a dynamic IP address, receive the dynamic IP address of the originating mobile station, and exchange packet data with a counterpart corresponding to the dynamic IP. Packet data service apparatus in a mobile communication system, characterized in that configured. In the packet data service method in a mobile communication system, The calling mobile station transmits a call message for requesting packet service when inputting a telephone number for video communication, drives PPP, receives a dynamic IP address, and transmits a dynamic IP address to the opposite mobile station, and receives the packet data from the opposite mobile station. Exchanging packet data after obtaining dynamic IP address of When the receiving mobile station receives a message requesting the packet service, the receiving mobile station is assigned with a dynamic IP address by receiving a dynamic IP address, receiving the dynamic IP address of the calling mobile station, and receiving packet data with a counterpart corresponding to the dynamic IP. Packet data service method in a mobile communication system, characterized in that configured to exchange.