KR20030023082A - Traffic resource management method in mobile communication system - Google Patents

Abstract

According to the present invention, in a mobile communication system employing a CDMA scheme, a traffic resource in a mobile communication system can be prevented from unnecessary waste by dynamically allocating a traffic resource according to the amount of data when performing a high-speed data service. The present invention relates to a management method, wherein, when a base station establishes a call for performing a high-speed data service and then sends and receives data with a mobile terminal through an FDB, an amount of data to be transmitted and received is transmitted and received through an currently allocated FDB. When exceeding, the first process of allocating the SDB according to the amount of data to be transmitted and received and transmitting and receiving data with the mobile terminal through the FDB and the SDB, and after performing the first process, the amount of data to be transmitted and received is determined by the number of SDB The second step of determining whether the number is smaller, and as a result of the determination of the second step, the amount of data to be transmitted and received A third process of releasing the SDB and transmitting / receiving data with the mobile terminal through the FDB and the changed SDB when it is determined that the allocated SDB is not used for a predetermined time by setting a timer if the amount is less than the predetermined amount; As a result of the determination of step 2, if the amount of data to be transmitted and received is greater than the amount determined for each number of SDBs, a fourth process of assigning SDBs according to the amount of data to be transmitted and received and transmitting and receiving data with the mobile terminal through the FDB and the changed SDB is made. It is characterized by.

Description

TRAFFIC RESOURCE MANAGEMENT METHOD IN MOBILE COMMUNICATION SYSTEM

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a traffic resource management method in a mobile communication system. In particular, in a mobile communication system employing a code division multiple access (CDMA) scheme, a traffic resource is dynamically adjusted according to the amount of data when performing a high speed data service. The present invention relates to a method for managing traffic resources in a mobile communication system so as to prevent unnecessary waste of traffic resources.

In general, a mobile communication system employing the CDMA scheme is composed of a mobile terminal, a base station for transmitting and receiving wirelessly with the mobile terminal, a control station and a switching station for controlling and managing the base station.

Unlike the voice call, in order to support the high speed data service in the mobile communication system configured as described above, several traffic resources are required for one data call.

In this case, a basically required traffic resource is called a fundamental data block (hereinafter referred to as 'FDB'), and an additional required traffic resource is called a supplemental data block (hereinafter referred to as 'SDB'). Is called.

Meanwhile, referring to a general operation of performing a high speed data service in a mobile communication system, a base station sets a call for performing a high speed data service according to a call setup request of a mobile terminal, and then first establishes a call with the mobile terminal through an FDB. Send and receive

At this time, if the amount of data exceeds the currently allocated traffic resource, that is, the amount that can be transmitted and received through the FDB while transmitting and receiving data through the FDB, the mobile station allocates as many SDBs as necessary to the base station through the control station. Require.

Then, the base station additionally allocates an appropriate SDB within the range not exceeding the limit of the number of traffic resources according to the service option, and informs the mobile terminal of the allocated result through the control station.

Accordingly, the base station smoothly transmits and receives data with the mobile terminal through the FDB and the SDB, and releases the call after data transmission and reception are completed.

However, in performing the above-mentioned high speed data service, there is a disadvantage that conventionally, once an SDB is allocated, it cannot be released until the call is released.

Accordingly, even when the amount of data transmitted and received is reduced, unnecessary traffic resources, that is, SDB, are generated as the SDB is used unnecessarily, which causes a problem that the SDB is used very inefficiently.

The present invention is to solve the above problems, the purpose is to dynamically allocate the SDB according to the amount of data when performing a high-speed data service, at this time release the SDB if the allocated SDB is not used for a certain time Accordingly, the present invention provides a method for managing traffic resources in a mobile communication system, which can prevent unnecessary waste of SDB and, accordingly, enable more efficient use of the SDB.

Traffic resource management method in the mobile communication system of the present invention for achieving the above object, if the base station establishes a call for performing a high-speed data service and transmits and receives data with the mobile terminal through the FDB, When the amount of data exceeds the amount that can be transmitted and received through the currently allocated FDB, the first process of allocating the SDB according to the amount of data to be transmitted and received to send and receive data with the mobile terminal through the FDB and SDB, and the first A second step of determining whether the amount of data to be transmitted and received is less than the amount determined by the number of SDBs after performing the process; and if the amount of data to be transmitted and received is less than the amount determined by the number of SDBs as a result of the determination of the second process, a timer If it is determined that the allocated SDB has not been used for a certain period of time, release the SDB to release the mobile terminal through the FDB and the changed SDB. And a third process of transmitting and receiving data, and as a result of the second process, if the amount of data to be transmitted and received is greater than the amount determined by the number of SDBs, the SDB is allocated according to the amount of data to be transmitted and received through the FDB and the changed SDB. And a fourth process of transmitting and receiving data with the mobile terminal.

1 is a view showing a flow of a data call when performing a high-speed data service according to the present invention,

2 is a flowchart illustrating a traffic resource management method in a mobile communication system according to the present invention;

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

10: mobile terminal 21: fCE

22: sCE23: SDU

Hereinafter, a traffic resource management method in a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the flow of data calls when performing a high-speed data service according to the present invention, Figure 2 is a flow chart illustrating a traffic resource management method in a mobile communication system according to the present invention.

In the present invention, when the allocated SDB is not used for a certain time, the SDB is released, and when the amount of data transmitted and received is greater than the amount determined by the number of SDBs, the SDB is allocated to perform the high-speed data service by additionally assigning the SDB. Dynamically change the number of.

That is, when performing a high-speed data service, the number of allocated SDBs can also be changed and adjusted according to the amount of data since the amount of data is not always constant during the service due to the nature of packet data.

Here, as shown in FIG. 1, a base station in a mobile communication system allocates an FDB and transmits and receives data. An fdb Channel Element (fCE) 21 allocates an SDB and an SDB (sdb Channel Element) allocates and sends and receives data. And a traffic resource management method according to the present invention through a service data unit (SDU) 23 for controlling allocation and release of the SDB.

Looking at the flow of the data call shown in Figure 1, the mobile terminal 10 and the base station SDU 23 performs data transmission and reception through the FDB and SDB (a).

Thereafter, when a timeout occurs from the timer, the SDU 23 in the base station transmits a message Sup_Chan_Assign_Msg indicating that the SDB has been changed to the mobile terminal 10 (b), and the mobile terminal 10 transmits the message. A response message (Ms_Ack_Order) to the message is transmitted to the SDU 23 in the base station (c).

Subsequently, the SDU 23 in the base station adjusts the number of SDBs to the fCE 21 and transmits a request message (dyn_sdb_rel_ctrl_msg) for allocating the SDB (d). The fCE 21 and the sCE 22 transmit a message (fs_ch_rel_msg, sf_call_status_msg) is mutually transmitted and received (e, f) to dynamically allocate the SDB to the number adjusted according to the amount of data, and fCE 21 then sends a response message (dyn_sdb_rsp_ctrl_msg) according to the SDB allocation result to the SDU (23). (G).

Accordingly, the mobile terminal 10 and the base station SDU 23 performs data transmission and reception through the FDB and the changed SDB (h).

Next, the traffic resource management method in the mobile communication system according to the present invention will be described in detail with reference to FIG. 2.

First, the base station sets up a call for performing a high-speed data service according to a call setup request of the mobile terminal (S1), and then transmits and receives data with the mobile terminal through the FDB (S2).

Subsequently, as in step S2, it is determined whether the amount of data to be transmitted / received through the FDB exceeds the amount that can be transmitted / received through the currently allocated FDB (S3). The number of SDBs to be allocated is determined according to the amount, and SDBs are allocated as much as the determined number (S4).

Accordingly, the base station transmits and receives data with the mobile terminal through the FDB and the SDB (S5).

So far, this is the same as the operation of performing a conventional high speed data service.

Subsequently, the base station determines whether the amount of data to be transmitted and received is less than the amount determined for each number of SDBs (S6), if less, determines whether a timer is set (S7), and if the timer is set at this time, the step Proceed to step S5 to transmit and receive data with the mobile terminal through the FDB and the SDB.

Here, the timer is set and released to check whether the allocated SDB has not been used for a predetermined time, and as a result of the determination in step S7, the timer is set and the SDB to be released when proceeding to step S5. Through Idle frame (Idle Frame) is transmitted and received.

If it is determined in step S7 that the timer is not set, the number of SDBs to be released is determined (S8), and if there is an SDB to be released (S9), if present, the timer is set, and in step S8 After storing the number of the SDB to be determined in step (S10), and proceeds to the step (S5) to transmit and receive data with the mobile terminal through the FDB and the SDB. In this case, the idle frame is transmitted and received through the SDB to be released.

At this time, if there is no SDB to be released as a result of checking in step S9, the process proceeds to step S5 to transmit and receive data with the mobile terminal through the FDB and the SDB allocated in step S4. In this case, data is transmitted and received instead of the idle frame through the SDB.

Thereafter, when a timeout occurs from the timer, the corresponding SDB is released to transmit and receive data with the mobile terminal through the SDB changed according to the amount of data to be transmitted and received with the FDB.

On the other hand, if the amount of data to be transmitted and received is greater than the amount determined by the number of SDB as a result of the step (S6), after the timer is released (S11), it is determined whether the number of allocated SDB is less than the maximum number of SDB (S12), if less, the process proceeds to step S4 to determine the number of SDBs to be allocated according to the amount of data to be transmitted and received, and allocates the SDBs by this determined number.

If the number of allocated SDBs is not less than the maximum number of SDBs as a result of the determination in step S12, the process proceeds to step S5 to transmit and receive data to and from the mobile terminal through the FDB and the SDBs allocated in the step S4. In this case, data is transmitted and received instead of the idle frame through the SDB.

As described above, the present invention dynamically allocates an SDB according to the amount of data when performing a high-speed data service, and releases the SDB when the allocated SDB is not used for a predetermined time, thereby making the SDB unnecessary. The waste can be prevented, and thus, the SDB, that is, the traffic resource can be used more efficiently.

In addition, by increasing the use efficiency of traffic resources as described above, not only can the power consumption between the mobile terminal and the base station be reduced, but also the quality of the high-speed data service can be improved.

Claims (4)

When a base station sets up a call to perform a high-speed data service, and then sends and receives data with the mobile terminal through the FDB, when the amount of data to be transmitted and received exceeds the amount that can be transmitted and received through the currently allocated FDB, the data to be transmitted and received A first process of allocating an SDB according to the amount of data and transmitting and receiving data with the mobile terminal through the FDB and the SDB; A second process of determining whether the amount of data to be transmitted / received after the first process is smaller than a predetermined amount for each number of SDBs; As a result of the determination of the second process, if the amount of data to be transmitted and received is less than the amount determined by the number of SDBs, the timer is set to release the corresponding SDBs when it is determined that the allocated SDBs are not used for a certain period of time. A third process of transmitting and receiving data with the mobile terminal through the SDB; As a result of the determination of the second process, if the amount of data to be transmitted and received is greater than the amount determined by the number of SDBs, a fourth process of allocating an SDB according to the amount of data to be transmitted and received and transmitting and receiving data with the mobile terminal through the FDB and the changed SDB. Traffic resource management method in a mobile communication system, characterized in that consisting of. The method of claim 1, wherein the third process, A first step of determining whether a timer is set if the amount of data to be transmitted and received is less than the amount determined for each number of SDBs as a result of the determination in the second process; A second step of transmitting / receiving data with the mobile terminal through the FDB and the SDB if the timer is set as the determination result of the first step; A third step of determining whether there is an SDB to be released after determining the number of SDBs to be released if the timer is not set as a result of the determination in the first step; A fourth step of setting a timer if there is an SDB to be released as a result of the checking of the third step, storing the number of SDBs to be released determined in the third step, and then transmitting and receiving data with the mobile terminal through the FDB and the SDB; Wow, A fifth step of transmitting / receiving data with the mobile terminal through the FDB and the SDB allocated in the first step if there is no SDB to be released as a result of the checking of the third step; After the second step or the fourth step, if the timeout occurs from the timer, the sixth step of releasing the corresponding SDB to send and receive data with the mobile terminal through the SDB changed according to the amount of data to be transmitted and received with the FDB. Traffic resource management method in a mobile communication system. The method of claim 2, wherein in the second and fourth steps, an idle frame is transmitted and received with the mobile terminal through the SDB to be released. The method of claim 1, wherein the fourth process, A first step of releasing a timer if the amount of data to be transmitted / received is greater than the amount determined for each number of SDBs as a result of the determination of the second process; A second step of determining whether the number of allocated SDBs is smaller than the maximum number of SDBs after performing the first step; As a result of the determination in the second step, if the number of allocated SDBs is less than the maximum number of SDBs, the process proceeds to the first process and allocates SDBs according to the amount of data to be transmitted and received, and transmits and receives data to and from the mobile terminal through the FDBs and SDBs. The third step, As a result of the determination of the second step, if the number of allocated SDB is not less than the maximum number of SDB, the fourth step of transmitting and receiving data with the mobile terminal through the FDB and SDB allocated in the first step Traffic resource management method in system.