KR20040058425A - Mobile communication base station having a terminal signal speed searching device and controlling method therefore - Google Patents

Abstract

PURPOSE: A method for controlling a mobile communication base station having a fast terminal signal search device and a controlling method thereof are provided to divide a region to be searched in plural by a base station, and to assign priorities to the divided regions to be searched, thereby quickly searching a location signal of a terminal by the base station even though a signal delay occurs in a repeater. CONSTITUTION: In an initial state(S1), a base station equally divides a window having a big value into small windows. The base station attaches numbers to divided window pieces(S3). The base station assigns search priorities to the window pieces, and performs a searching process according to set conditions(S4). The base station decides whether a firstly set signal searching process is completed(S5). If so, the base station searches a next signal phase, and finally searches a deliver signal of a terminal(S6).

Description

Mobile communication base station having a terminal signal quick search device and its control method

The present invention relates to a mobile communication base station having a terminal signal quick search apparatus and a control method thereof. In particular, the present invention relates to a plurality of repeaters to identify a plurality of areas to be searched by a base station searching for a transmission signal of a terminal. The present invention relates to a mobile communication base station having a terminal signal quick search device for ranking by searching a search area and a control method thereof.

In general, mobile communication systems have been rapidly developed as the industrial society has spread rapidly. Especially in the early 1980s, in North America, the service area was divided into hexagonal cells of several km to several ten kilometers in diameter, and then in the geographically separated cells. The mobile communication system has grown rapidly by using a cellular mobile communication system that uses the same frequency channel repeatedly and implements a radio channel switching function between cells as the subscriber moves.

On the other hand, these mobile communication systems typically use FDMA, TDMA and CDMA as their access methods, among which CDMA modulates a transmission signal by assigning different codes with low correlation to each subscriber and transmits the code to the receiver. Demodulation is performed with the same code. The base stations using the CDMA scheme process the transmission signals of the terminal under the function control of the upper base station controller (RNC). In this case, the base stations connect a plurality of repeaters to search for the transmission signals of the terminal.

Then, referring to the terminal signal search apparatus of the base station connected to the conventional repeater as described above with reference to Figure 1, a plurality of repeaters 71 are installed at a suitable position for receiving a radio signal transmitted from the terminal 70, and the repeater A base station antenna 72 connected to the output terminal of the terminal 71 to receive the transmission signal of the terminal 70 and a high frequency signal of the terminal 70 received through the repeater 71 and the base station antenna 72 are fixed. An RF section 73 for outputting down to a level signal and a base band section 74 for converting and outputting a transmission signal of the terminal 70 processed by the RF section 73 to a baseband level signal; And a search unit 75 for searching for and outputting a transmission signal of the terminal 70 received through the baseband unit 74 based on an approximate reference signal T within a set window range. The transmission signal of the terminal searched by the search unit 75 Crude to include the Rake receiver 76, for outputting, the control unit 77 for overall control of the navigation signal transmission function of the terminal, including the function of the Rake receiver 76.

On the other hand, referring to the operation of the terminal signal search apparatus of the base station connected to the conventional repeater as described above, when the base station 78 is set up, it emits a sync frame signal to the terminal 70 located in its sector and transmits it from the terminal 70. Search for the output signal to determine the location. At this time, the base station 78 is the RF unit of the base station 78 through the antennas 71 of the base station 78 and the repeaters 71 installed in the vicinity of the terminal 70 transmitted from the terminal 70 73 is received, where the transmission signal of the terminal 70 arrives after a predetermined time signal delay when received by the RF unit 73 via the repeater 71. Then, the RF unit 73 processes the received signal of the received terminal 70 by a predetermined signal and outputs it to the baseband unit 74. The baseband unit 74 processes the input signal of the input terminal 70 into a baseband signal and outputs the baseband signal to the search unit 75.

At this time, the control unit 77 of the base station 78 is a window (centered on the signal phase start point T of the first terminal that the upper RNC (not shown) informed when the call with the terminal 70 is established and transmission and reception starts) W) is opened to search for the transmission signal of the terminal 70. Here, the search unit 75 should detect the phase of the base station antenna signal and the repeater antenna signal in the window at the same time. To do this, the W value, that is, the range of the window is at least twice the delay value of the repeater 71 Should be. In addition, even if the search unit 75 knows the value of T, it is not known whether the received signal is the signal of the antenna or the signal of the repeater, and thus the delay value of the repeater 71 at the position T of the terminal first informed by the RNC. Open the window from the previous position to the back position by the delay value, search the transmission signal of the terminal 70 coming from the antenna of the base station 78 in the window (W) to find the phase of the terminal signal and output to the Rake receiver 76 Let's do it. Then, the Rake receiver 76 demodulates the transmitted signal of the input terminal 70 to execute a normal call processing function.

However, the conventional terminal signal search apparatus of a base station to which a repeater is connected does not have a repeater connected to the base station, but the size of the search window is less than a few tens of chips. Since the search range is increased more than several times, the search volume of the transmission signal of the terminal is increased considerably, and it takes a lot of time to execute the search operation, and the call processing is executed because the transmission volume of the search operation of the terminal transmission signal is large. Since it is delayed by that much, there was a problem that the reception performance of the terminal is also deteriorated accordingly.

Accordingly, the present invention has been invented to solve the conventional problems as described above, and even if there is a signal delay of the repeater, the base station can quickly search for the location signal of the terminal, thereby rapidly improving the terminal signal search. It is an object of the present invention to provide a mobile communication base station having a search apparatus and a control method thereof.

Another object of the present invention is to divide and process the transmission signal search operation of the terminal, which can significantly reduce the computational work of the system, and accordingly the mobile communication with the terminal signal quick search device that significantly improves the search performance of the mobile communication base station accordingly. The present invention provides a base station and a control method thereof.

The present invention for achieving the above object in the search apparatus of the base station to search the transmission signal of the terminal through the antenna connected to a plurality of repeaters, for the split function of the window for searching the transmission signal of the terminal and the search position A search sequence control unit for outputting a command and receiving the result and controlling the search sequence, and equally dividing it into a window having P small L values according to the window division control command of the search sequence controller, and setting the search sequence controller in order. According to an aspect of the present invention, there is provided a mobile communication base station having a terminal signal quick search device, characterized in that it comprises a search unit for searching for a signal.

According to another aspect of the present invention, there is provided a window equalization step of equally dividing a large window into small windows having P small L values in a terminal transmission signal search apparatus of a base station, and a window fragment divided evenly after the window equalization step. A window numbering step numbering a number, a window quick search execution step of executing a search according to a set conditional expression by assigning a search order to a window fragment after the window numbering step, and a signal set as a primary after the window quick search execution step When the search is completed, the present invention provides a method for controlling a mobile communication base station having a terminal signal quick search device comprising a next step search execution step of searching for a signal sequence of a next sequence and finally searching for an output signal of a terminal.

1 is an explanatory diagram for explaining a terminal signal search apparatus of a conventional mobile communication base station.

2 is an explanatory diagram for explaining a terminal signal search apparatus of a mobile communication base station of the present invention.

3 is a flowchart of the present invention.

4 is an explanatory diagram for explaining a quick search method realized by the method of the present invention.

<Detailed Description of Codes>

1 terminal 2 repeater

3: base station antenna 4: RF unit

5: baseband unit 6: search sequence control unit

7: Search unit 8: Rake receiver

9 control unit 10 base station

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

The apparatus of the present invention is connected to the output terminal of the repeater (2) and a plurality of repeaters (2) are installed at a suitable position for receiving the radio signal transmitted from the terminal (1) as shown in FIG. Base station antenna (3) for receiving the transmission signal of the signal, and the RF unit (4) for outputting the high frequency signal of the terminal (1) received through the repeater (2) and the base station antenna 3 down to a signal of a predetermined level And a baseband unit 5 for converting and outputting a transmission signal of the terminal 1 processed by the RF unit 4 into a baseband level signal, and received through the baseband unit 5. A search sequence control unit 6 for outputting a window division function for searching for a transmission signal of a terminal 1 and a command for a search position and controlling the search sequence in response to the result; A window with P small L values according to the window segmentation control instruction in 6). Searching unit 7 for dividing into equal parts and searching for signals according to the order set by search sequence control unit 6, and Rake receiving unit 8 for demodulating and outputting the transmission signal of the terminal searched by said searching unit 7; And a control unit 9 for controlling overall transmission signal search function of the terminal, including the function of the Rake receiver 8.

Then, the search unit 7 searches for the transmission signal of the terminal 1 by the equation (1).

Next, a method applied to the present invention base station as described above will be described.

First, the method of the present invention proceeds to the window equalization step S2 in the initial state S1 as shown in FIG. 3 and divides the large window evenly into small windows having P small L values. After the window equalization step S2, the process proceeds to the window numbering step S3, and numbers the evenly divided window pieces. In addition, after the window numbering step (S3), the process proceeds to the window quick search execution step (S4) to give a search order to the window fragments and executes the search according to the set conditional expression.

Here, the conditional expression executed during the window quick search execution step (S4) is

It is executed as in Equation 1 above.

In addition, after the window quick search execution step S4, the process proceeds to the set signal search step S5 to determine whether the signal search set as the primary is completed. At this time, if the signal search set as a result of the determination during the set signal search step (S5) is not completed, the process proceeds to the previous step (S4) and repeats the loop.

In this case, when the first set signal search is completed as a result of the determination in the set signal search step S5, the process proceeds to the next step search execution step S6 to search for the next signal phase and finally search for the transmission signal of the terminal. .

In other words, when the base station 10 is set up, the base station 10 emits a synchronous frame signal to the terminal 1 located in its sector and searches for a transmission signal transmitted from the terminal 1 to determine its position. At this time, the base station 10 is the RF unit of the base station 10 through the repeater (2) and the antenna 3 of the base station 10 installed in the vicinity of the terminal 1, the signal transmitted from the terminal 1 (4) is received, where the transmission signal of the terminal 1 is reached after a certain time signal delay when received by the RF unit 4 via the repeater (2). Then, the RF unit 4 processes the received signal of the received terminal 1 by a predetermined signal and outputs it to the baseband unit 5. The baseband unit 5 then processes the inputted transmission signal of the terminal 1 as a baseband signal and outputs it to the search unit 7.

Here, the control unit 9 of the base station 10 is a signal phase start point (T) and the window (W) of the first terminal informed by the upper RNC (not shown) when a call is established with the terminal 1 and transmission and reception of signals are started. To the search unit 7. At this time, the search order control unit 9 connected to the search unit 7 equally divides the window W having the large value set through the search unit 7 into small windows having P small L values. Then, the search order control unit 6 numbers the evenly divided window pieces, and then assigns the search order to the window pieces to execute the search according to the set conditional expression.

In this case, the search unit 7 searches the signal sequence of the next sequence when the signal search set as the primary is completed, and finally searches for the transmission signal of the terminal.

To illustrate this more easily, for example, first, the W value refers to the window size defined to cover the delay caused by the repeater signal.

For example, suppose the signal delay of the repeater (2) is 256Chip, the W value is 512, which is 256 * 2. In order to find the large value of 512 (Chips), the search unit 7, that is, the base station parallel searcher, has a large amount of computation, so the parallel searcher having a small window size divides the large window into small areas and moves around the small areas. .

Where M = 64 (window size of the base station parallel explorer)

W = 512 (assuming repeater delay is 256)

Suppose T = 1000 (approximate location of the cellular signal given by RNC).

The search sequence controller 6 divides the W value 512Chips into 64 M which is divided into eight small window slice areas. In addition, the search sequence control unit (6) can search the entire 512 chip by moving the window of the 64 chip through the search unit (7) eight times around T = 1000. At this time, the divided 8 small areas are numbered from index 0 to 7 as shown in the figure.

In this case, the search order control unit 9 is a base station parallel searcher having a size of M (= 64), that is, the search unit 7 searches for an index order to search for the signal of the repeater 2 at 0. Set to 7,7,1,6,2,5,3,4.

That is, index [0] = 0, index [1] = 7, index [2] = 1, index [3] = 6, index [4] = 2, index [5] = 5, index [6] = 3 , index [7] = 4.

This order is calculated by equation (1).

Index [k + 1] = Index [k] + (-1) ^k * (P-k-1) ... k = 0,1 ... P-1 ... Index [0] = 0

Where P = 512/64 = 8, K = 0,1,2,3,4,5,6,7)

Therefore, if the search unit 7 performs the search by the above equation, the search unit 7 can search quickly since the position of the repeater signal is searched.

In the above process, the window is divided evenly and the window fragments are alternately searched back and forth because the base station signal may be in front of 256 chip when T = 1000 that the RNC informs the base station 10 is the signal position through the repeater antenna. On the contrary, the repeater signal may be behind 256 chips.

Meanwhile, the searching unit 7 searches the transmission signal of the terminal 1 coming from the antenna 3 of the base station 10 by the method of the present invention as described above to find the phase of the terminal signal to the Rake receiver 8. Output it. Then, the Rake receiver 8 demodulates the transmitted signal of the input terminal 1 to execute the normal call processing function.

As described above, according to the present invention, the signal delay of the repeater is improved by dividing a plurality of areas to be searched by the base station searching for transmission signals of the terminal in conjunction with a plurality of repeaters and assigning the search to the divided search areas. Even though the base station can quickly search for the location signal of the terminal has the advantage of significantly improving the speed of the terminal signal search accordingly.

In addition, according to the present invention, since the transmission signal search operation of the terminal is divided and processed, the amount of computational work of the system can be significantly reduced, and accordingly, the search performance of the mobile communication base station is also significantly improved.

Claims (3)

In the search apparatus of the base station for searching the transmission signal of the terminal through an antenna connected to a plurality of repeaters, A search sequence control unit which outputs a command for a window division function and a search position for searching the transmission signal of the terminal and controls the search sequence in response to the result; and P according to the window division control command of the search sequence controller. And a search unit for dividing the signal evenly into windows having a small L value and searching for a signal in an order set by the search sequence control unit. A window equalization step of equally dividing a large window into small windows having P small L values in a terminal transmission signal searcher of a base station, and a window number for numbering equally divided window fragments after the window equalization step A window quick search execution step of executing a search according to a conditional expression set by assigning a search order to the window fragment after the granting step and the window numbering step; and if the signal search set as a primary after the window quick search execution step is completed, A method for controlling a mobile communication base station having a terminal signal quick search apparatus, characterized in that the next sequence search execution step is performed to search for a signal phase in sequence and finally search for an outgoing signal of the terminal. The conditional expression executed during the window quick search execution step is: Index [k + 1] = Index [k] + (-1) ^k * (P-k-1) ... k = 0, 1 A control method of a mobile communication base station equipped with a terminal signal quick search apparatus characterized by satisfying ... P-1 ... Index [0] = 0.