KR0181609B1 - Backboard and its control method - Google Patents

Abstract

The present invention relates to a backboard mounted in a control station and a base station in a cellular mobile telephone network.

An I.D. input device for inputting an I.D. of a base station, and the I.D. Trunk board for transmitting data in accordance with I.D. of the base station input to the input device, and a control board for controlling and monitoring the trunk board.

By doing so, it is possible to easily cope with the change in the trunk state and to increase the transmission efficiency.

Description

Backboard and its control method

1 is a trunk diagram connecting a general control station and a base station.

2 is a detailed block diagram of a trunk block according to an embodiment of the present invention.

3 is a floor chart showing a trunk grouping method according to an embodiment of the present invention.

4 is a floor chart showing a packet data allocation method according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: control station trunk board 2: base station trunk board

3: trunk 11: base station I.D. Input device

21: trunk block 22: address filter

23: Packet counter 24:% N block

25: packet count / trunk order comparator 26: packet processor

27 transmitter 28 common bus

TB: Trunk Board

The present invention relates to a back board and a control method thereof, and more particularly, to a trunk board, a trunk grouping method, and a method for uniformly allocating data to a plurality of grouped trunks.

Referring to FIG. 1, a plurality of trunks 1 are mounted in a control station rather than a trunk that controls data transmission and reception with a base station.

In the base station, a plurality of trunks (2) are mounted in the base station to control data transmission and reception with the control station.

A plurality of trunks 3 are connected between the control station and the base station.

Conventional trunk grouping and packet data allocation methods are classified into address fixed type and program controlled type.

According to the address fixing type, the number of nodes that one trunk can accommodate is calculated, and then the number of nodes accommodated in each base station is calculated.

The number of trunks required for each base station is calculated by dividing the number of nodes accommodated in each base station by the number of nodes that one trunk can accommodate. In this case, one trunk is allocated when the rest occurs. The order of each base station is determined and trunking is performed according to the order. When a call occurs and a packet is received, the packet is transmitted to a designated trunk.

In the program controlled type, the number of trunks required for each base station is calculated by dividing the number of nodes accommodated in each base station by the number of nodes that one trunk can accommodate. In this case, one trunk is allocated when the rest occurs.

Trunk grouping is performed for each base station by a predetermined program. When a call occurs and a packet is received, the trunk processor determines the destination base station of the packet and allocates the trunk evenly to the grouped trunks.

The same is true for trunk grouping and data allocation at the control station.

In the address-fixed trunk grouping and allocation method as described above, first, when the control station and the node are added and accommodated, the base station in which the node is accommodated and the trunk of the base station must be allocated one by one. There is a problem in that the connected node cannot be used and the service must be stopped for a long time when the trunk is expanded or changed.

In the program-controlled trunk grouping and allocation method as described above, a high-performance trunk control processor should be used in case of a call congestion. If the load of the trunk control processor is heavy, packet loss may occur and control circuit failure. There was a problem that the whole system does not work and transmission delay occurs when there are many calls.

The present invention is to overcome the above-mentioned problems, an object of the present invention is to input the base station I.D. to the trunk board to group the trunk, to be equally allocated to the trunk in packet units.

As an example of a backboard for achieving the object of the present invention, an ID input device for inputting the identification (ID) of the base station, a trunk board for transmitting data according to the ID of the base station input to the ID input device, and the trunk Consists of a control board that performs control and monitoring functions.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 to 4.

Referring to FIG. 2, the backboard according to the present invention includes an ID input device 11 for inputting an ID of a base station and a trunk board 21 for transmitting data according to the ID of a base station input to the ID input device 11. ) And a control board 31 for controlling and monitoring the trunk board 21.

The base station I.D.input device 11 can be input in hardware or software and is connected to the trunk board via the common bus 28.

The trunk board 21 includes an address filter 22 for inspecting an address portion of a packet received through the common bus 28 and receiving a packet matching its own address, and a packet received by the address filter 22. A packet counter 23 for counting the number of blocks, a% N block 24 for dividing the output of the packet counter 23 by the number of trunks, and an output value of the% N block 24 and its own trunk order. A packet processor 26 for judging whether or not to transmit a packet received from the address filter 22 by the output of the packet count / trunk order comparator 25 and the packet count / trunk order comparator 25, and the packet processor And a transmitter 27 for transmitting the packet received from 26 to the trunk.

The control board 31 is composed of a controller and is connected to the packet counter 23, the% N block 24, and the packet count / trunk order comparator 25 of the trunk block.

The control board 31 reads the number of trunks by each base station input from a backboard (not shown), and determines the number of trunks by each base station, and the sequence of the trunks is slot IDs (IDs uniquely assigned according to the order of the boards) and It determines according to channel ID (ID which distinguishes trunks in a board), and notifies the trunk board of packet count / trunk order comparator 25 and% N block 24 to the trunk board at the time of power-up.

In addition, the packet counter 23 is notified of the start of the counter, the% N block 24 is reset, and the order of the trunk is notified when the trunk is expanded, broken, and recovered.

Referring to FIG. 3, the trunk grouping method is described. In consideration of the amount of data, the number of trunks for each base station is distributed and specified for each trunk board through the control board 31 (S101).

Each base station I.D. Input through the input device 11 (S102).

Referring to FIG. 4, a method of allocating a trunk of a data packet will be described. The control board 31 determines the order of trunks according to the slot I.D and the channel I.D (S201).

The trunk order determined by the control board is notified to the packet count / trunk order comparator 25 and% N block 24 (S202).

The address filter 22 checks the address portion of the packet on the common bus and receives a packet that matches its base station I.D (S203).

The number of received packets is counted by the packet counter 23 (S204).

When the number of trunks is changed due to the increase (decrease, failure recovery, etc.), decrease (breakdown, etc.) of the trunk, the control board 31 determines the changed trunk number (S205).

In the control board 31, the order of the trunk is adjusted according to the slot I.D and the channel I.D (S206).

The packet order / trunk order comparator 25 and the% N block 24 are notified of the trunk order adjusted by the control board 31 (S207).

The number counted by the packet counter 23 is divided by the number of base station trunks in the% N block 24 to calculate the remainder (S208).

The remainder is compared in the packet count / trunk order comparator 25 and transmitted to the transmitter 27 when the remainder is the same as the trunk order thereof (S209), otherwise discarded (S210).

The transmitter 27 transmits the received packet to the base station through the trunk (S211).

According to the method for allocating a backboard and trunk grouping packet data according to an embodiment of the present invention, first, since the packet allocation is processed in real time in hardware, there is no transmission delay, and when a trunk failure occurs, the trunk is closed and the trunk is reallocated. It is possible to prevent interruption, to prevent the packet from being concentrated in a specific trunk even if a plurality of trunks are broken, to easily configure the yebit trunk and to expand the trunk, and to increase the transmission efficiency by reducing the address.

As described above, in the embodiment of the present invention, each base station I.D. By grouping trunks by each base station by input through the input device, and detecting the failure status of grouped trunks in real time, the packets are sequentially assigned to the trunks in normal operation, so that the trunks can be easily coped with. And the transmission efficiency can be improved.

Claims (6)

ID input device 11 for inputting the ID of the base station, a trunk board 21 for transmitting data according to the ID of the base station input to the ID input device, and a control board for controlling and monitoring the trunk board. A white board, characterized in that composed of (31). 2. The trunk board according to claim 1, wherein the trunk board checks an address portion of a packet received through the common bus 28 and receives an address filter 22 for receiving a packet that matches its own address. A packet counter 23 for counting the number of packets received by the packet counter, a% N block 24 for dividing the output of the packet counter 23 by the number of trunks, an output value of the% N block 24, and its own trunk. A packet processor 26 for judging whether or not to transmit packets received from the address filter 22 by the output of the packet count / trunk order comparator 25 for comparing the order, and the packet count / trunk order comparator 25; And a plurality of trunk blocks (21) comprising a transmitter (27) for transmitting packets received from the commercial packet processor (26) to the trunk. In consideration of the amount of data, the number of trunks for each base station is distributed and specified for each trunk board through the control board 31 (S101), and each base station I.D is assigned to the base station I.D. Grouping method of the trunk, characterized in that the step of inputting through the input device (11) (S102). Determining the order of trunks according to the slot ID and the channel ID (S201), and notifying the packet order / trunk order comparator 25 and the% N block 24 of the trunk order determined by the control board 31 ( (S202), the address filter 22 checks the address portion of the packet on the public bus, receives a packet matching the base station ID (S203), and counts the number of received packets at the packet counter 23. (S204), calculating the remainder by dividing the number counted in the packet counter 23 by the number of base station trunks in the% N block 24 (S208), and comparing the remainder with the packet count / trunk order comparator 25 And transmitting (S209) to the transmitter (27), and transmitting the received packet to the base station through the trunk (S211). The method according to claim 4, wherein when the number of trunks is changed due to increase or decrease of trunks, the control board 31 determines the changed trunk number (S205), and the order of trunks in the control board 31 is slot ID. And adjusting (S206) according to the channel ID, and notifying the packet order / trunk order comparator 25 and the% N block 24 of the trunk order adjusted by the control board 31 (S207). Packet data allocation method, characterized in that. And comparing the remaining number calculated by the packet counter (23) in the packet number / trunk order comparator (25) and discarding if it is different from the order of the trunk (S210).