KR100426944B1 - Call processing method for packet data communication in wireless communication network - Google Patents

Abstract

The present invention relates to a packet data communication method in a communication network, and more particularly, to a packet data communication method in a communication network in which wired and wireless resources can be shared with other calls when a call is set up when there is no transmission of packet data for a certain period of time. It is about.

The present invention includes the steps of detecting a call setup request of a subscriber and reading a service option value in a call setup message to confirm that it is a packet data service request; Setting up a frame relay path connecting to the network and establishing a PPP, an Internet Protocol Control Protocol (IPCP), and a Transmission Control Protocol (TCP) between the subscriber and the network; Establishing a traffic path by connecting a switch inside the exchange and exchanging packet data through the corresponding traffic path; Monitoring the connection state of the call through the traffic path and confirming the presence or absence of packet data transmission for a predetermined time; Generating a call release message when the timer expires, releasing switch resources, and releasing the frame relay path and the wired channel to transition the traffic path to an idle state; And resetting transmission resources and reestablishing the wired channel and frame relay path by checking whether the packet data is retransmitted from the subscriber or the network.

Description

Call Processing Method for Packet Data Communication in Wireless Communication Networks

The present invention relates to a call processing method for packet data communication in a wireless communication network. In particular, the present invention relates to packet data in a wireless communication network that enables sharing of wired and wireless resources with other calls during call setup when there is no transmission of packet data for a certain period of time. A call processing method for communication.

In a typical communication network, transmission of packet data is performed by using TIA / EIA / IS-95 (Telecommunication Industry Association / Electronic Industries Association / Interim Standard-95) traffic channel using first or second traffic. The opacity and non-transparent radio link protocol mentioned in IS-707.2 are used for the transmission of packet data using the corresponding TIA / EIA / IS-95 traffic channel.

The proposed standard refers to a packet data transfer service for communication between a terminal equipment and a packet IWF (Packet Interworking Function) via a base station / mobile switching center (BS / MSC). (Cellular Digital Packet Data) and Mobile Internet Protocol (Mobile-Internet Protocol).

In addition, Service Options 4103 and 15 are used to request packet data service to the Network Layer Protocol through IWF supporting the Internet standard Point to Point Protocol (PPP). Is used to request packet data service via IWF supporting CDPD data service on PPP interface. In addition, the packet data service option is defined as a future revision for selecting other types of IWF resources or services.

The packet data options provide a way to establish and maintain traffic channels for packet data services. If the service distribution procedures of TIA / EIA / IS-95 are used, the packet data service can be performed with the first or second traffic, but if the service option distribution procedures are used, the packet data service is only with the first traffic. Can be performed.

Then, when looking at the packet data service in a general communication network, there are two types of packet data service. The first type of packet data service is based on the Internet and the International Standards Organization (ISO) standard protocol stacks. Provides packet data connections, and a second type of packet data service provides packet data connections based on CDPD protocol stacks.

The first type of packet data service includes service option connections using either service option 4103 or service option 15, and the second type of packet data service uses service option 4104 or service option 16. Contains optional connections.

However, since the communication channel continues to occupy the resources of the wireless and wired sections regardless of the traffic after the communication path is opened during the communication of the packet data service, this is the resource of the wireless and network even in the idle state without the actual packet data communication. Because it occupies, resource utilization rate falls.

As described above, the call processing software of the exchange which provides efficient packet data communication in the mobile communication network is insufficient in the related art, and occupies resources continuously even when there is no communication of the packet data.

In order to solve the above problems, the present invention allows the wireless packet data communication in a large-capacity wireless switch by sharing the wired and wireless resources with other calls when the first call is set up when there is no transmission of packet data for a certain period of time. An object of the present invention is to provide a call processing function for serving a service.

1 is a block diagram illustrating a call processing system for packet data communication in a wireless communication network according to an embodiment of the present invention.

2 is a flowchart illustrating a call processing method for packet data communication in a wireless communication network according to an embodiment of the present invention.

3 is a flowchart illustrating a process of releasing a call set up in FIG.

Explanation of symbols on the main parts of the drawings

11: TE2 (Terminal Equipment 2)

12: MT (Mobile Termination)

13: BSC (Base Station Center)

14: MSC (Mobile Switching Center)

15: IWF (Interworking Function)

In the wireless communication network according to the embodiment of the present invention for achieving the above object, a call processing method for packet data communication is a packet data service request by detecting a call setup request of a subscriber and reading a service option value in a call setup message. Confirming the process; Establishing a frame relay path connecting the network and establishing a protocol between the subscriber and the network; Establishing a traffic path by connecting a switch inside the exchange and exchanging packet data through the corresponding traffic path; Monitoring the connection state of the call through the traffic path and confirming the presence or absence of packet data transmission for a predetermined time; Generating a call release message when the timer expires, releasing switch resources, and releasing the frame relay path and the wired channel to transition the traffic path to an idle state; And resetting the switch resources, the frame relay path, and the wired channel by checking whether the packet data is retransmitted from the subscriber or the network.

The present invention allows a mobile communication network to provide a packet data service provided in a conventional wired network. In the past, the resources occupied during the transmission of packet data continued to be monopolized until the call was released. However, in the present invention, when there is no transmission of packet data, the wired and wireless resources can be shared with other calls when the first call is established. Do it.

Hereinafter, with reference to the accompanying drawings will be described as follows.

1 is a block diagram illustrating a call processing system for packet data communication in a wireless communication network according to an embodiment of the present invention, and FIG. 2 is a call processing method for packet data communication in a wireless communication network according to an embodiment of the present invention. 3 is a flowchart showing a process of releasing a call set in FIG. 2.

As shown in FIG. 1, a system for packet data service in a communication network according to an exemplary embodiment of the present invention includes a terminal equipment 2 (TE2), a mobile termination (MT) 12, and a base station center (BSC) 13. ), A Mobile Switching Center (MSC) 14, and an Interworking Function (IWF) 15.

The TE2 11 connects to the subscriber station and transmits a call setup request of the subscriber to the MT 12.

The MT 12 informs the BSC 13 of the origination of a packet data service according to a call setup request of a subscriber received through the TE2 11.

The BSC 13 receives the start of the packet data service from the MT 12, generates a packet data service request signal, and transmits the packet data service request signal to the MSC 14, and counts a timer when no packet data transmission occurs. To generate a call release message.

The MSC 14 receives a service request signal from the BSC 13 to set up a frame relay path with the IWF 15 and sets up a traffic path between the TE2 11 and the IWF 15. And releases a call resource by receiving a call release message from the BSC 13.

The IWF 15 connects to a network to establish a frame relay path with the MSC 14 to interface packet data with the network.

A call processing method for packet data communication in a wireless communication network according to an embodiment of the present invention will be described with reference to the flowchart of FIG. 2 as follows.

When the subscriber station requests call setup, the call setup request of the subscriber station is transmitted to the MT 12 through the TE2 11, and the MT 12 notifies the BSC 13 of the start of the packet data service. (Step S1).

Accordingly, when the BSC 13 generates a packet data service request signal and sends the packet data service request signal to the MSC 14 side, the MSC 14 receives the service request signal from the BSC 13 and sets the service option value in the call setup message. Read to confirm that it is a packet data service request (step S2), establishes a frame relay path with the IWF 15 and transmits PPP, Internet Protocol Control Protocol (IPCP) and TCP (Transmission) between the TE2 (11) and the IWF (15); Control Protocol) (step S3).

In addition, by connecting a switch inside the switch to establish a traffic path, the packet data is transmitted between the TE2 11 and the IWF 15 through the corresponding traffic path (step S4).

Thereafter, while monitoring the connection state of the call through the traffic path, it is checked whether the timer in the BSC 13 is terminated when no transmission of packet data occurs for a predetermined time, for example, 20 (sec) ( Step S5).

When the timer in the BSC 13 ends in the fifth step S5, the BSC 13 generates a call release message and transmits the call release message to the MSC 14 together with specific information (step S6). Here, the specific information is distinguished from the normal call release of the subscriber.

Accordingly, the MSC 14 releases the set switch resources, releases the frame relay path with the IWF 15, releases a terrestrial channel with the BSC 13, and makes the traffic path idle. Transition (step S7). In this case, a call register and a process for storing call-related data are maintained in preparation for resuming data transmission.

On the other hand, in the seventh step (S7) to continuously detect whether there is retransmission of the packet data from the subscriber station side (step S8) or continuously detects whether there is a retransmission of the packet data from the network (step S9), If there is no retransmission of packet data from the subscriber station side or the network in the eighth step S8 and the ninth step S9, the idle state is maintained (step S10).

On the other hand, if packet data from the subscriber station is retransmitted to the MT 12 through the TE2 11 in the eighth step S8, the MT 12 restarts the packet data service to the BSC 13. (Step S11).

Accordingly, the BSC 13 transmits a re-occupancy request message for requesting wire channel occupancy to the MSC 14 (S12), and the MSC 14 receives the re-occupancy request message from the BSC 13. After resetting the wired channel with the BSC 13, the IWF 15 and the frame relay path are reset (step S13).

If there is retransmission of packet data from the network in the ninth step S9, the IWF 15 transmits a repath setting request message requesting frame relay path setting to the MSC 14 (step S14). .

Accordingly, the MSC 14 receives the rerouting request message from the IWF 15 to reset the frame relay path with the IWF 15 and then resets the wired channel with the BSC 13 (step S15). .

On the other hand, referring to the flow chart of Figure 3 looks at the operation of the call release as follows.

If there is no connection path between the frame relay path and the BSC 13 in the call connection state, that is, when the exchange is in an inactive state, the call release transmits a setup message to the IWF 15 and the BSC. (13) is performed by sending a release message, and upon disconnection of the frame relay with the IWF 15, whether the setup message is transmitted to the MSC 14 side (step S16) or the BSC 13 It is checked whether a release message is transmitted to the MSC 14 side at the time of disconnection with the MS (step S17). In this case, the setup message uses a specific parameter value to distinguish it from the setup message used for setting the path.

Therefore, when the setup message is received in the sixteenth step (S16) or the release message is received in the seventeenth step (S17), the MSC 14 releases a process of processing a call register and a corresponding call and connects a switch path. Is released (step S18).

As described above, when packet data transmission does not occur for a period of time after completion of the wireless packet data call setup by the present invention, the exchange call processing software of the present invention releases the exchange resources and the communication path in the network and puts them into a dormant state. When a new packet is detected while waiting, resources are occupied again to reconnect a communication path for packet data communication, thereby providing a call processing function for efficient wireless packet data communication in a large-capacity wireless switch.

Claims (4)

Detecting a call establishment request of a subscriber and reading a service option value in a call establishment message to identify the packet data service request; Establishing a frame relay path connecting the network and establishing a protocol between the subscriber and the network; Establishing a traffic path by connecting a switch inside the exchange and exchanging packet data through the corresponding traffic path; Counting a timer while monitoring a connection state of the call through the traffic path to confirm the presence or absence of packet data transmission for a predetermined time; In case there is no packet data transmission and the timer expires, in case the packet data transmission is resumed, a call release message is generated while maintaining a call register and a process to release the switch resources and release the frame relay path and wire. Releasing the channel to transition the traffic path to an idle state; Resetting the switch resources, the frame relay path and the wired channel when there is retransmission of the packet data from the subscriber or the network. The method of claim 1, Receiving a setup message or a release message in a call connection state through the traffic path to confirm a call release request; And releasing the call register and the process and releasing the switch by releasing the switch resources, the frame relay path and the wired channel to release the call. The method of claim 1, The resetting of the switch resources, the frame relay path and the wired channel may include: checking whether a restart of a packet data service due to packet data retransmission from a subscriber is notified; And resetting the frame relay path after resetting the wired channel by generating a wireline channel re-occupancy request message when the packet data service is notified of the restart of the packet data service. Call processing method. The method of claim 1, The reconfiguring of the switch resources, the frame relay path and the wired channel may include: checking whether there is packet data retransmission from the network; And resetting the wired channel after resetting the frame relay path by generating a frame relay rerouting request message when there is packet data retransmission from the network. Call processing method.