KR100316408B1 - Method for synchronization in base station of next generation asynchronous wireless communication system - Google Patents

Abstract

The present invention relates to a method in which the main control block 11 transmits a current time to the channel cards C1-Cn in response to a request of the channel cards C1-Cn in the base station 1. If the current time is in an area that cannot be transmitted, that is, an area in which the LC value of the main control block and the LC value of the channel cards C1-Cn differ from each other by the delay time when the current time is transmitted, the LC value is elapsed. After increasing by one, the current time is transmitted to match the LC value with the channel cards C1-Cn.

As described above, in the present invention, since the LC values of the channel cards C1-Cn and the main control block 11 coincide with each other, the frame information of the terminal can be prevented from being lost due to the difference in the LC values.

Description

METHODS FOR SYNCHRONIZATION IN BASE STATION OF NEXT GENERATION ASYNCHRONOUS WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a method for matching the LC time between a channel card in a base station and main control blocks of a next generation wireless communication system having a super frame (SF) and long code (LC) time unit.

The IMT-2000 system, which is being researched and developed for the next generation mobile communication, is divided into synchronous and asynchronous according to the synchronization method. Synchronous is a source of synchronization using satellite positioning system (GPS) visual information to synchronize the time of the devices in the system. Asynchronous selects any device in the system and selects each device at the reference time point of the device. It is a way to match the time of the lower devices.

The time information of the devices in the system is used to assign a frame number and to set a transmission / reception point of time with the terminal. As described below, when the time between these devices is different, that is, when synchronization is not identical, reliable communication can be guaranteed. Can't. That is, the frame number assignment refers to assigning a number to this frame when the frame information from the terminal is received by the device station, and the frame number is based on the time information of the base station. The frame number is provided to the base station controller, and the base station controller recognizes the frame having the same frame number as the same frame information provided from the same terminal. That is, the frame information having the same frame number is recognized as the frame information of the terminal simultaneously received by the two base stations by the handover of the terminal. Among these two frame information, the signal strength is stronger and the error rate is low. This ensures reliable communication by selecting. Therefore, if the internal times of the base stations are different from each other, the frame numbers assigned by the base stations may be the same for different frame information, thereby causing a problem that valid frame information is discarded.

The visual information is also used to control the timing of transmission and reception with the terminal. That is, a number of terminals are connected to the base station and the base station controller, and if they attempt to transmit and receive simultaneously with the terminal, the resources of the base station and the base station controller for processing them may be concentrated at one point. This problem can be solved by some distance between transmission and reception times between terminals.

As a method of synchronizing the time of the upper device with the lower device according to the asynchronous method, there is an algorithm proposed by NTT-DoCoMo.In addition, the network synchronization method in the asynchronous next generation wireless communication system ( Application No.

On the other hand, numbering of frames is performed in channel cards in the base station, and control of the time of transmission and reception with the terminal is performed in the main control block in the base station. The channel card transmits data to or receives data from a terminal through a card wireless access standard having a CDMA modem. The main control block is connected to the base station controller and synchronizes with the base station controller by requesting the current time information from the base station controller and correcting its current time according to the current time information from the base station controller. The channel cards request the current time information to the main control block through the channel management block, and the main control block provides the current time information to the channel cards. Inevitably, a signal delay occurs when the control block transmits the current time to the channel cards. This delay is largely caused by two reasons. The first is a transmission delay that occurs until the current time request signal of the channel card reaches the main control block through the channel management block and until the current time information of the main control block reaches the channel card through the channel management block. The transmission delay is a processing delay, and the other is a processing delay that occurs in the processing process until the main control block receives the current time request signal and transmits the current time information.

On the other hand, the base station controller and the base station are each provided with two time units, one of which is a super frame (SF) of 125usec and a long code (LC) of 125usec (SF) x 640. Therefore, as shown in Fig. 1, when the value of SF becomes 5120, the value of LC increases by one. Here, as described above, the current time information of the main control block in response to the current time request signal of the channel card is transmitted. A channel card is reached with delay times t1 and t3 and processing delay time t2. Therefore, the current time of the main control block of the base station and the current time of the base station controller and the current time of the channel card is as much as (t3). Therefore, when the channel card transmits the current time request signal at the time point t4, Primary LC values may occur on the primary control block and on the base station controller and channel card. Here, each terminal receives the time information from the channel card, corrects the current time, and includes the current time information in the transmission frame and transmits it to the base station. The base station determines whether it is synchronized with its own time based on the current time information in the received frame. If the LC value is different, the base station considers that the synchronization is out of order and discards the received frame information.

Therefore, it is necessary to match the SF value between the channel card and the main control block in the base station, but as described above, the LC value may be inconsistent due to the transmission delay time and the processing delay time. There was a problem that occurred.

SUMMARY OF THE INVENTION The present invention has been made to solve this problem, and an object of the present invention is to provide a method for matching the LC value of a channel card and a main control block in a base station.

1 is a view for explaining an intra-base station synchronization method of a conventional next-generation wireless communication system;

2 is a schematic diagram of an asynchronous next generation wireless communication system performing a synchronous method according to the present invention;

3 is a flowchart of an intra-base station synchronization method of a next-generation wireless communication system according to the present invention;

3 is a diagram for explaining an intra-base station synchronization method of an asynchronous next generation wireless communication system according to the present invention;

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

1: base station 2: base station controller

11: main control block 12: channel management block

C1-Cn: Channel Card

In order to achieve the above object, the present invention provides a method of transmitting a current time to the channel card by a main control block according to a request of a channel card in a base station, and determines whether a current time request signal has been transmitted and received from the channel card. step; If a current time request signal is received, determining whether the current time is within a transmittable area; If a current time is within the transmittable area, transmitting a current time to the channel card; And if the current time is not in the transmittable area, transmitting the current time to the channel card after a time has elapsed until the current time reaches the transmittable area.

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

2 is a schematic diagram of a system for performing an intra-base station synchronization method of an asynchronous next generation wireless communication system according to the present invention. In the drawing, reference numeral 1 denotes a base station and reference numeral 2 denotes a base station controller. In the base station 1, the main control block 11 is configured as shown, and the main control block 11 is connected to the base station controller 2 through the E1 cable, so that the current time request signal is transmitted to the base station controller 2. Is sent, and its current time is corrected according to the current time information from the base station controller 2. The base station controller 2 provides the current time information to the main control block 11 in response to the current time request signal from the main control block 11 in the base station 1.

The main control block 11 in the base station 1 is connected to the channel cards C1-Cn via the channel management block 12, and the channel cards C1-Cn are currently connected through the channel management block 12. The time request signal is provided to the main control block 11, and the main control block 11 transmits current time information to the channel cards C1-Cn in response to the current time request signal, but as described later, the current time request. In consideration of the time at which the signal was received and the delay time, the current time information after the predetermined time is delayed from the current time or the current time is provided to the channel cards C1-Cn. This will be described in detail with reference to FIGS. 3 and 4.

The main control block 11 determines whether the current time request signal is input from the channel cards C1-Cn in step S1, and if the current time request signal is input, determines whether the current time is within a predetermined transmittable area. (S3). Here, the transmittable area means that the current time information is transmitted to the channel cards C1-Cn when the main control block 11 transmits the current time information to the channel cards C1-Cn as shown in FIG. 4. It is an area where the value of LC does not increase by adding the delay time t3 until arriving at and the present time. That is, if the main control block 11 transmits the current time in the transferable area to the channel cards C1-Cn (time t4), despite the delay time, the main control block 11 and the channel card C1- The LC values of Cn) coincide with each other. Therefore, as a result of the determination in step S3, if the current time is in the transmittable area, the main control block 11 proceeds to step S5 to transmit the current time information to the channel cards C1-Cn.

However, as a result of the determination in step S3, the main control when the current time is outside the transmittable area (the non-transmissible area), that is, in the area where the LC value increases by one when the current time and the delay time t3 are added. Block 11 proceeds to step S7. In step S7, the main control block 11 keeps not transmitting the current time information until the LC value increases by one, that is, until the current time reaches the transferable area, and the LC value increases by one. The current time information at the time of transmission is transmitted (S9, S11). Therefore, even if the current time information transmitted by the main control block 11 reaches the channel cards C1-Cn after a predetermined delay time t3, the LC value of the main control block 11 and the LC value of the channel card Matches each other.

That is, in the present invention, when the current time request signal from the channel card is received, the main control block transmits current time information when the current time is in the transmittable region, but increases the LC value by 1 when it is in the impossible region. By transmitting the current time information when the reachable area is reached, the LC value with the channel card is matched. Therefore, despite the delay time, the LC value of the main control block and the channel card match, so that the current time of the main control block and the channel card may coincide with the large LC value even though the SF value is different. .

As described above, in the present invention, the LC value between the main control block of the base station and the channel card are matched, thereby preventing the loss of the frame information even when the SF value is different.

Claims (2)

A main control block transmits a current time to the channel card at the request of a channel card in a base station. Determining whether a current time request signal has been transmitted and received from the channel card; When the current time request signal is received, determining whether the current time is within a transmittable area; If the current time is within the transmittable area, transmitting a current time to the channel card; If the current time is not within the transmittable area, transmitting a current time to the channel card after a time has elapsed until the current time reaches the transmittable area, within the base station of the asynchronous next generation wireless communication system. Motive method. The method of claim 1, The main control block and the channel card have time units of LC and SF, the LC increases by 1 when the SF is a predetermined number or more, and the main control block transmits current time information to the channel card. A method for in-base station synchronization in an asynchronous next-generation wireless communication system in which a delay time until the current time information arrives at the channel card at the time of transmission and the value of the LC does not increase when the current time is added.