KR100211955B1 - Method for wireless link controlling in the subscriber network - Google Patents

Abstract

The present invention relates to a switching control method for improving the phenomenon that the communication quality of a specific terminal station deteriorates in a wireless subscriber network. In the wireless subscriber network, the position of the terminal station is fixed, and the network can easily know the shape information of the cell to which the terminal station belongs and the neighboring cell surrounding the cell, and the received power strength of the reverse pilot channel transmitted from the terminal station ( With CIR, when the communication quality of a specific terminal is degraded during communication, the degraded communication quality can be improved by switching a radio channel to a neighboring cell having a better radio wave environment. The present invention can be applied to the case of using a coherent demodulation widely used in recent mobile communication. In particular, in the wireless local loop, since the handover function is not generally supported, this method is effective in the severe radio wave environment where the terminal located in the cell boundary area is surrounded by strong interference signals and is not solved by power control. .

Description

Switching control method of wireless link for preventing deterioration of communication quality of terminal station in wireless subscriber network

The present invention relates to a switching control method of a wireless link for preventing the deterioration of communication quality of a terminal station in a wireless subscriber network. Specifically, the communication article of a specific terminal station in a wireless subscriber network is suddenly dropped due to interference of ambient signals. It relates to a control method for preventing.

The wireless subscriber network system has recently emerged in the United States and Europe, and in Japan, it plans to provide a service by modifying the PHS system. In the foreign system, since the wireless subscriber network does not consider the mobility of the terminal, there is no special countermeasure when the communication quality of the terminal drops sharply.

In the wireless subscriber network, the handover function is not generally supported, so that the cross section located at the cell boundary area is surrounded by strong interference signals around, or the radio wave environment is deteriorated due to the appearance of unexpected objects. There are many, and this problem is solved by the change-over control method of the radio link.

1 is a system configuration diagram of a wireless subscriber network to which the present invention is applied.

2 is a diagram showing a situation in which a radio link is changed (over).

3 is a diagram illustrating a change-over of a radio link.

4 is a model showing a change in pilot intensity in a serving cell and an adjacent cell.

5 is a flowchart of a change-over control procedure of a radio link.

6 is a control algorithm for a radio link switching controller located at the control station of FIG.

7 is a control procedure of switching a radio link from a serving cell to an adjacent cell.

8 is an exemplary diagram of a target cell detection table used by a radio link switching controller located at a control station of FIG.

* Explanation of symbols for main parts of the drawings

9: general terminal 10, 38: radio fixed terminal (station)

11-14: Fax, telephone, computer, portable terminal

15 radio transceiver 16 control station

17,26,39: radio link switching controller 22,32,41 serving cell

31, 43: target cell 34, 36: radio link

A feature of the present invention for achieving the above object is the communication of a specific terminal by using the change-over group of Ratio links of the terminal station and the reception strength (CIR) of the reverse pilot channel transmitted by the terminal station If the quality is degraded during communication, the radio channel is switched to an adjacent cell having a better radio wave environment to improve the degraded communication quality.

The radio link switching group of the terminal station is a group composed of neighboring cells centered on the serving cell currently being serviced. Receive strength (CIR) of the reverse pilot panel means the reception strength (CIR) of the pilot signal received by the base station when the terminal station transmits a pilot signal through the reverse pilot channel.

The present invention can be applied to a wireless local loop as a representative example of the case of adopting a coherent demodulation of a reverse link widely used in mobile communication.

In particular, when a plurality of terminals (telephones, personal computers, fax terminals, etc.) are simultaneously transmitted to one terminal station in a wireless subscriber network, these terminals are sequentially switched. This is because traffic channels used by multiple terminals in one terminal station are affected by the same wireless environment.

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

1 is a model of a wireless subscriber network to which the present invention is applied.

The wireless subscriber network is characterized in that the subscriber line between the telephone and the exchanger is connected wirelessly rather than wired in the existing fixed communication network. That is, the wireless fixed terminal (station) 10 is different from the general mobile communication network in that there is no mobility and the wireless subscriber network itself is directly connected to the fixed communication network (general station switching center) and thus does not require a mobile communication switch.

As shown in FIG. 1, a wireless subscriber network is connected to a mobile station 10 and a general terminal 9 (for example, a telephone, Control the wireless transceiver station 15 and the various wireless transceiver stations 15, which are connected to a fax machine, a personal computer, portable terminals 11-14, and connected via a wireless interface with the wireless fixed terminal 10; The control station 16 to manage and the existing fixed communication network (general station switching center) to which a control station is connected are comprised.

2 shows a situation in which a radio link is changed (over). The wireless fixed terminal 21 is connected to the serving cell 22 which currently provides a service, and the base station 24 of the serving cell is connected to the existing fixed communication network (general station switching center) via the control station 25. The control station has a radio link switching controller 25, which manages an information table (see Fig. 8) having information necessary for radio link switching.

3 is a case diagram of a change-over of a radio link.

The radio fixed terminal 31 releases the radio links 34 and 35 that are currently operating due to deterioration of communication quality during communication with a radio transceiver station (combined with the base station, 32) that provides a current service, and a new radio transceiver station (target). An example of switching to radio links 36 and 37 of cell 31 is shown.

4 is a model showing a change in pilot intensity in a serving cell and an adjacent cell.

When communicating with the serving cell 41, if the communication quality drops below a predetermined threshold at a predetermined time point 45 and the communication quality improvement is not detected even after a certain time margin 44 has elapsed, the radio link switching time point 46 The switch of the radio link to the neighboring cell with the strongest pilot strength at.

5 is a flowchart of a change-over control procedure of a radio link.

The base station 52 collectively refers to a radio transceiver station and a control station, and sometimes means only a radio link switching controller. The system 52 broadcasts system information (adjacent cell list 53) through a paging channel. Since the base station 52 has a fixed position of the radio fixed terminal station 51 and knows a cell to which the terminal station 51 belongs, the neighbor cell surrounding the cell can be easily known by the shape information. When the base station 52 measures the pilot strength of the serving cell currently communicating through the reverse pilot channel and falls below a predetermined threshold, the base station 52 requests the radio station to measure the pilot strength of the neighboring cell. 55 and receive the result (56).

6 is a control algorithm 601 in a radio link switching controller located at the control station in FIG. This step by step is described below.

As shown in FIG. 5, when the system information is broadcasted (602) and the pilot strength of the serving cell is measured and falls below a predetermined threshold (604), the measurement of the pilot strength of the neighboring cell to the radio station is performed (MEASn-cir). 605 and receive the result (606).

From the received result, the neighboring cell having the strongest pilot strength is selected and compared with a threshold (THRcir, carrier-to-interference ratio) (609). If the pilot strength of the neighboring cell is larger than the threshold, the radio link is switched. A candidate cell is selected as one of the candidate cells (611).

Wait a certain time (Td-mar, 607) in order to prevent the radio link from calling whenever the radio environment changes frequently. If the communication quality of the serving cell does not improve even after waiting for a predetermined time (Td-mar, 607) and the communication quality of the target cell of 613 continues to be good (614), the final neighbor to which the radio link of the previously selected candidate cell is switched to. The determination is made as a cell (target cell) (615).

In step 609 of FIG. 6, if the communication quality of the selected neighbor cell is smaller than the threshold value THRcir, the existing radio link is maintained as it is (610).

When the target cell is determined, the radio link is switched to the target cell according to the radio link switching process (616).

7 is a control procedure diagram in which a radio link to a target cell is switched.

If a plurality of terminals (telephones, personal computers, fax terminals, etc.) are simultaneously transmitted to one terminal station in a wireless subscriber network, these terminals are switched in turn. This is because traffic channels used by multiple terminals in one terminal station are affected by the same wireless environment. In this dialogue, FIG. 7 will be described step by step.

First, the number of radio links RL (i) being communicated at the same time by one terminal station is checked (71). In this case, it is assumed that the target cell has enough free capacity to accommodate the new radio link.

It releases with the serving cell for each radio link (73). The delay time between the radio stations is measured for fast signal synchronization with the target cell (74). The delay time can be easily measured because the distance between the terminal station and the base station is fixed and constant.

The target cell and the radio link are newly connected (76). This process is repeated as many times as the number of radio links RL (I) in one terminal station (76).

Each radio fixed terminal 801 includes the number of radio links or port number 802 in use, a neighbor cell number 803, a pilot strength measurement 804 of a neighbor cell, and a radio channel available capacity 805 for a new radio link connection. Data management such as pilot threshold 806 is performed.

As described above, the present invention can be applied to a wireless local loop as a representative example of the case where a reverse pilot channel is always transmitted for a coherent demodulation widely used in mobile communication. In the wireless subscriber network, since the handover function is not generally supported, this method is effective in a severe propagation environment in which a terminal located in a cell boundary area is surrounded by strong interference signals and is not solved by power control.

Claims (1)

A wireless subscriber station network including a wireless link switching controller connected to a wireless fixed terminal station, a base station, and a control station, comprising: a first step of measuring, requesting, and receiving a result of a pilot strength of a serving cell at a base station; Selecting a neighboring cell having the strongest pilot strength from the received result; Selecting a neighbor cell as a candidate cell to which a radio link can be switched if the pilot strength of the selected neighbor cell is larger than a threshold; otherwise, maintaining the existing radio link as it is; If the communication quality of the serving cell does not improve and the communication quality of the target cell continues to be good even after the waiting time has elapsed while waiting for a certain timer time to prevent the radio link from changing each time, the radio link of the selected candidate cell A fourth step of determining a final neighboring cell (target cell) to be switched to; and a fifth step of converting a radio link into a target cell when the target cell is determined. Wireless link switching control method for preventing degradation.