KR101063730B1 - Device and method for acquiring synchronization between mobile communication terminal and system in asynchronous mobile communication system - Google Patents

Abstract

An apparatus and method for obtaining synchronization between a mobile communication terminal and a mobile communication system in an asynchronous mobile communication system are provided.

In accordance with another aspect of the present invention, there is provided a synchronization acquisition device, including: a synchronization acquisition information collection unit configured to collect and store analysis start time, system frame number, and offset information to achieve synchronization between an asynchronous mobile communication system and a mobile communication terminal; An SFN change unit for checking whether the system frame number stored in the asynchronous mobile communication system and the system frame number stored in the mobile communication terminal are identical for the same traffic, and matching the two system frame numbers if the two system frame numbers do not match; And a CFN corrector for changing the access frame number stored in the asynchronous mobile communication system and the access frame number stored in the mobile communication terminal by applying offset information to the system frame numbers matched by the SFN changing unit.

According to the present invention, it is possible to accurately collect the amount of traffic transmitted between the mobile communication system and the terminal, transmission time, delay time, and the like, thereby accurately monitoring the quality of service of the asynchronous mobile communication system.

Asynchronous, sync, frame number

Description

Apparatus and Method for Acquisition of Synchronization Between Mobile Communication Terminal and Asynchronous Mobile Communication System in Asynchronous Mobile Communication System             

1 is a view for explaining a transmission delay when transmitting data to a mobile communication terminal in an asynchronous mobile communication system;

2 is a schematic diagram of an asynchronous mobile communication system to which the present invention is applied;

3 is a structural diagram of a synchronization acquisition device according to the present invention;

4 is a flowchart illustrating a synchronization acquisition method according to the present invention.

Description of the Related Art [0002]

10: mobile communication terminal 20: Node B

30: wireless network controller 40: core network

50, 60: traffic analysis device 510: control unit

520: synchronization acquisition information collection unit 530: SFN change unit

540: CFN correction unit 550: memory

The present invention relates to a synchronization acquisition method in a mobile communication system, and more particularly, to an apparatus and method for synchronization acquisition between a mobile communication terminal and a mobile communication system in an asynchronous mobile communication system.

Data transmission rate, delay time, delay variation, etc. are used as main parameters in evaluating system quality in mobile communication network. In order to measure such a parameter, a process of adjusting the absolute time between the mobile communication system and the mobile communication terminal must be preceded. This is because the delay time between the mobile communication terminal and the mobile communication system can be measured based on the absolute time, and the service quality can be grasped by comparing the transmission rate.

Since the synchronous mobile communication system uses GPS satellites, there is no difficulty in synchronizing between the mobile communication terminal and the mobile communication system. However, asynchronous mobile communication systems such as WCDMA do not use GPS satellites, so there is a problem in that the absolute time cannot be matched between the mobile communication terminal and the mobile communication system.

FIG. 1 is a diagram illustrating a transmission delay when transmitting data to a mobile communication terminal in an asynchronous mobile communication system. FIG. 1 illustrates a data transmission delay when a node B transmits data to a mobile communication terminal. Drawing.

The base station frame number DL BFN1, which indicates the sequence number of the data unit transmitted to the mobile communication terminal, is a timer owned by each of the plurality of Node Bs and is repeated in increments of 1 with a range of 0 to 4095. The interval of one frame is 10 ms and is repeated every 40.95 seconds.

Each Node B has a plurality of cells, and each cell has a timer that is repeated at regular intervals from the base station frame number. The timer given per cell is called a system frame number (DL SFN1). The timer is repeated in increments of 1 with a range of 0 to 4095. The interval of one system frame is repeated every 40.95 seconds. It consists of 38400 chips. In addition, each cell of Node B has a time offset (T _cell ). The system frame number is used for synchronization of layer 1 of a radio section protocol between an asynchronous mobile communication system and a mobile communication terminal and is transmitted through a broadcast channel (BCCH).

In addition, the connection frame number (CFN) has a value between 0 and 255 as a frame number of the transmission channel. For this purpose, the system frame number should be calculated by module in 256, and the system frame number (DL SFN1 mod 256 frames) calculated by 256 module and access frame number are rounded (Frame_offset) and chip offset (chip_offset). + Chip_offset) delay occurs.

That is, the access frame number DL DPCH1 (CFN) included in the traffic transmitted to the mobile communication terminal through a dedicated physical channel (DPCH) for synchronization of layer 2 of the wireless section protocol between the asynchronous mobile communication system and the mobile communication terminal. )) Becomes (SFN1- (Rounded (Frame_offset + Chip_offset)) mod 256frames.

In addition, the actual mobile communication terminal receives data after the transmission delay time Tp1.

The base station frame number, system frame number, and access frame number described above are all relative values. When data is transmitted from the mobile communication system to the mobile communication terminal, time offset (Tcell), frame offset (frame_offset), and chip offset between base station cells are transmitted. A difference occurs in the data transfer time by (chip_offset) and the transfer delay time Tp1.

As such, when there is a difference between the time for transmitting data in the mobile communication system and the time for receiving data in the mobile communication terminal, collect parameters (amount of traffic, time, delay, etc.) for measuring the quality of service (QoS). There is an error in this, and the quality of service cannot be measured accurately.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described needs, and there is a technical problem to accurately perform performance evaluation of a mobile communication system by matching an absolute time between a mobile communication terminal and a mobile communication system in an asynchronous mobile communication system.

According to an aspect of the present invention, there is provided a synchronization acquisition information collection unit for collecting and storing analysis start time, system frame number, and offset information to achieve synchronization between the asynchronous mobile communication system and a mobile communication terminal; SFN for checking the same traffic, if the system frame number stored in the asynchronous mobile communication system and the system frame number stored in the mobile communication terminal match, and matching the two system frame numbers if the two system frame numbers do not match. Change section; And a CFN corrector for changing the access frame number stored in the asynchronous mobile communication system and the access frame number stored in the mobile communication terminal by applying the offset information to the system frame numbers matched by the SFN changing unit.

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

2 is a schematic diagram of an asynchronous mobile communication system to which the present invention is applied.

As shown in the drawing, the asynchronous mobile communication system includes a Node B 20 which performs wireless section communication with the mobile communication terminal 10, and a Radio Network Controller (RNC) for managing a plurality of Node Bs 20. 30) and a core network 40 including a switch (not shown) for supporting circuit switched services and a Serving GPRS Support Node (SGSN) for supporting packet switched services.

In this asynchronous mobile communication system, the traffic analysis apparatuses 50 and 60 are connected to the mobile communication terminal 10 and the radio network controller 30, respectively, and the amount of traffic transmitted, transmitted, delay time, etc. are collected. To monitor. In order to monitor the quality of service, a process of synchronizing an absolute time between the mobile communication system and the mobile communication terminal, that is, a synchronization process, must be preceded. In the present invention, a base station frame number (Node B frame) is used for synchronization between the asynchronous mobile communication system and the mobile communication terminal. number; BFN, System frame number (SFN) and Connection frame number (CFN).

3 is a structural diagram of a synchronization acquisition device according to the present invention.

The synchronization acquisition device according to the present invention is implemented to be connected to the traffic analysis device (50, 60) connected to the mobile communication terminal 10 or the wireless network controller 30, the control unit 510, synchronization acquisition information as shown The collector 520, the SFN changer 530, the CFN corrector 540, and the memory 550 are included.

The control unit 510 controls the overall operation of the synchronization acquisition device, and the synchronization acquisition information collection unit 520 may analyze start time, system frame number, and offset information (inter-cell time offset, frame offset, chip offset) for monitoring the quality of service. And the like) are collected and stored in the memory 550. The analysis start time for the quality of service monitoring here uses its own time of the synchronization acquisition device. Since the transmission period of the frame is 40.95 seconds, when the time for transmitting traffic in the mobile communication system and the time delay for receiving traffic in the mobile communication terminal is 40.95 seconds or less, synchronization between the mobile communication system and the mobile communication terminal can be established.

The SFN changing unit 530 matches the system frame number included in the traffic transmitted from the mobile communication system to the mobile communication terminal and the system frame number included in the traffic received from the mobile communication terminal. When the synchronization acquisition device of the present invention is implemented to be connected to the traffic analysis device 60 connected to the mobile communication terminal 10, the synchronization acquisition device is a system frame number stored in the Node B 20 of the asynchronous mobile communication system. If the two system frame numbers are different from the system frame numbers stored in the mobile communication terminal 10 and then change the system frame numbers stored in the mobile communication terminal 10 to match the two system frame numbers. Can be. On the other hand, when the synchronization acquisition device of the present invention is implemented to be connected to the traffic analysis device 50 connected to the wireless network controller 30, the synchronization acquisition device is stored in the wireless network controller 30 of the asynchronous mobile communication system. If the system frame number is different from the system frame number stored in the mobile communication terminal 10 and the two system frame numbers are different, the system frame numbers stored in the radio network controller 30 may be changed to match the two system frame numbers. Can be.

Next, the CFN correction unit 540 applies the offset information stored in the memory 550 in the synchronization acquisition information collection unit 520 to the system frame numbers matched by the SFN change unit 530, and stores them in the asynchronous mobile communication system. The access frame number and the access frame number stored in the mobile communication terminal 10 are changed. Through this process, the CFN correction unit 540 matches the access frame number included in the traffic transmitted from the asynchronous mobile communication system to the mobile communication terminal and the access frame number included in the traffic received from the mobile communication terminal. When the synchronization acquisition device of the present invention is implemented to be connected to the traffic analysis device 60 connected to the mobile communication terminal 10, the synchronization acquisition device is a connection frame stored in the radio network controller 30 of the asynchronous mobile communication system. Receive the number and compare it with the access frame number stored in the mobile communication terminal 10 to match the access frame number. On the other hand, when the synchronization acquisition device of the present invention is implemented to be connected to the traffic analysis device 50 connected to the wireless network controller 30, the synchronization acquisition device is stored in the wireless network controller 30 of the asynchronous mobile communication system. The access frame number is compared with the access frame number stored in the mobile communication terminal 10 to match the access frame number.

4 is a flowchart illustrating a synchronization acquisition method according to the present invention.                     

When the analysis for monitoring the service quality of the asynchronous mobile communication system is started, the synchronization acquisition information collecting unit 520 of the synchronization acquisition device stores the analysis start time (S10). At this time, the analysis start time uses its own time of the synchronization acquisition device.

After storing the analysis start time, the synchronization acquisition information collection unit 520 stores the system frame number and offset information included in the traffic (S20), where the offset information includes the inter-cell time offset, frame offset and chip offset. do.

Next, when the system frame numbers stored in the asynchronous mobile communication system and the mobile communication terminal are different, the SFN changing unit 530 changes either system frame number to match the system frame number (S30), and in step S10. The access frame number is corrected by applying the stored offset information to the matched system frame number (S40).

Accordingly, the absolute time between the asynchronous mobile communication system and the mobile communication terminal is matched (S50), thereby achieving synchronization, and the amount of traffic, traffic transmission time, and delay time through the traffic analysis device connected to the mobile communication terminal or the wireless network controller. It is possible to collect the back accurately.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

According to the present invention described above, by matching the system frame number and the access frame number of the asynchronous mobile communication system and the mobile communication terminal in the asynchronous mobile communication system, the amount of traffic transmitted between the mobile communication system and the terminal, transmission time, delay time, etc. Can collect accurately.

Accordingly, there is an advantage that it is possible to accurately monitor the quality of service of the asynchronous mobile communication system to improve the quality of service.

Claims (4)

In an asynchronous mobile communication system including a node B for performing wireless section communication with a mobile communication terminal, a wireless network controller for managing the node B, and a core network for providing voice and data services to the mobile communication terminal, Connected to the mobile communication terminal or the wireless network controller, A synchronization acquisition information collection unit for collecting and storing analysis start time, system frame number (SFN), and offset information to achieve synchronization between the asynchronous mobile communication system and the mobile communication terminal; SFN for checking the same traffic, if the system frame number stored in the asynchronous mobile communication system and the system frame number stored in the mobile communication terminal match, and matching the two system frame numbers if the two system frame numbers do not match. Change section; And A CFN correction unit for changing a connection frame number (CFN) stored in the asynchronous mobile communication system and a connection frame number stored in the mobile communication terminal by applying the offset information to a system frame number matched by the SFN changing unit; Sync acquisition device comprising a. The method of claim 1, And the offset information includes inter-cell time offset information, frame offset information, and chip offset information included in the node B. Collecting and storing analysis start time, system frame number (SFN), and offset information to achieve synchronization between the asynchronous mobile communication system and the mobile communication terminal; Checking, by the device, whether a system frame number stored in the asynchronous mobile communication system and a system frame number stored in the mobile communication terminal match for the same traffic; If the two system frame numbers do not match, the device matching the two system frame numbers; And Changing, by the device, the access frame number (CFN) stored in the asynchronous mobile communication system and the access frame number stored in the mobile communication terminal by applying the offset information to the matched system frame number; Sync acquisition method comprising a. The method of claim 3, wherein The offset information includes the inter-cell time offset information, frame offset information, chip offset information included in one node B.

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