KR19990039643A - How to Optimize Channel Card Placement in PC Systems - Google Patents

Abstract

The present invention relates to a channel card arrangement optimization method of a PCS system in which a base station control processor of a digital mobile communication system and a PCS system can be used to minimize data communication between a channel card and a base station control processor in a process of initializing and configuring a channel card. To a message related to the configuration of a channel card sent from the base station control processor to each channel card, adding information that each channel element in the channel card is to be used as a kind of element, and determining the information in the channel card processor. On the basis of this, the type and number of channel elements in each channel card are stored.When the channel card processor completes the initialization of the channel elements, when the base station control processor requests data on the base station configuration, Channel element It does not require as many data but only once, and stores the data received from the base station control processor in the entire data area of the channel card and installs the same kind of channel elements.

Description

How to Optimize Channel Card Placement in PC Systems

The present invention relates to a personal communication service (PCS). In particular, the base station control processor of the digital mobile communication system and the PCS system optimizes the amount of batch messages between the channel card and the base station control processor in the process of initializing and configuring the channel card. A method of optimizing channel card placement in a PCS system that reduces the load on the processor and reduces installation time.

A method of controlling channel elements in each channel card in the initialization process of a conventional digital mobile communication system and a PCS system is as follows.

That is, the base station control processor repeats a message about initialization and configuration including information on each channel element in the channel card as many as the number of channel elements in the channel card without considering the number and type of channel elements in each channel card. Send it.

Therefore, although the same kind of channel elements in each channel card have the same data structure and value for configuration, all channel elements require the base station control processor for data necessary for configuring each channel element.

For example, if a channel card has 12 channel elements and all are composed of the same kind of channel elements, the channel card requests the base station control processor 12 times with the same structure and value. The processor not only overloads the base station system by sending data having the same structure and value to the channel card 12, but also increases the base station system installation time.

Here, the channel element types include traffic, pilot, synchronization, paging, and access channel elements.

The present invention has been made to solve such a conventional problem, and an object of the present invention is to reduce the load on the base station processor by optimizing the amount of batch messages required between the base station control processor and the channel card during the channel card initialization of the PCS system By shortening the installation time to provide a quick service.

In order to achieve the above object, the present invention provides a method for starting a base station initialization and batch message processing, reading information on the number of channel elements, repeating the number of channel elements, and storing the channel elements stored in the base station control processor. It is characterized by consisting of a step for requesting batch data as many kinds.

1 is a block diagram for performing a method of transmitting and receiving a message to a base station control processor by a channel card of the present invention;

2 is a configuration diagram of an initialization and batch message according to the present invention.

3 is an operation flowchart of the present invention.

<Explanation of symbols for main parts of drawing>

1: Base station control processor 2: Receive message processing unit

3: Receive message storage 4: Channel card processor

5: transmission message storage unit 6: transmission message processing unit

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

1 is a circuit diagram of the present invention, a base station control processor 1, a reception message processing unit (2) for receiving and processing a signal indicating that there is a reception message from the base station control processor (1), and the received message processing unit A reception message storage section 4 for storing a message received from (2), a channel card processor 4 for reading a message from the reception message storage section 4 and starting processing according to the type of message; A transmission message storage section 5 for storing transmission messages of the channel card processor 4, and a transmission message processing section 6 for processing a message from the transmission message storage section 5 and sending it to the base station control processor 1; It consists of.

2 is a block diagram of an initialization and placement message, and FIG. 3 is an operation flowchart showing the actual operation of the channel card of the present invention. The present invention provides a reception message from a base station control processor 1 in a reception message processing unit 2. Upon receiving a signal indicating that there is a message, the channel card processor 4 reads this message and starts processing according to the type of message (step S1).

When the received message is a message related to initialization and arrangement, as shown in the flowchart of FIG. 3, first, a portion containing information on the number of channel elements to be initialized and arranged in the message structure diagram shown in FIG. 1 is read (step S2). .

Next, the channel card processor 4 repeatedly reads information on each channel element by the number of read channel elements (step S3).

Here, the information on each channel element stores information on the type of the channel element and the actual channel element number in the form of an arrangement as shown in FIG.

For example, if the number of channel elements is 12, the array needs 12 and the actual element number is a number from 0 to 11.

After reading the channel element information, the type of the channel element is determined, the actual element number for each channel element type and the element type corresponding to the number are stored in the common data area, and the counter of each channel element type is incremented by one. Steps S4-S6).

After this processing, the base station control processor 1 requests the base station control processor 1 for the arrangement by referring to the type of stored element (step S7).

At this time, the channel element includes a traffic channel element, a paging channel element, a synchronization channel element, and an access channel element.

On the other hand, when the channel card processor 4 receives a signal A indicating that there is a received message from the base station control processor 1 from the received message processing unit 2, the channel card processor 4 reads this message and requests the base station control processor 1 from the message. When one batch of data has been received, it is determined what kind of channel element the data is related to and is placed in the corresponding channel element using the channel element number stored in the common data area.

In addition, the base station can provide services to users by determining whether the number is correct by comparing with the stored counter and notifying the base station control processor 1 that channel arrangement is completed.

As described above, the present invention can reduce the load of the base station control processor by optimizing the message transmission required for initialization between the base station control processor and the channel card, thereby speeding up the system installation and initialization process. Even in the case of the base station or replacing the channel card in which the problem occurs, it is possible to minimize the downtime of the communication service.

Claims (1)

Adding, to the message related to the channel card configuration sent from the base station control processor to each channel card, information of what kind of elements each channel element in the channel card is to be used; Storing, by the channel card processor, the type and number of channel elements in each channel card based on this information; After the initialization of the channel elements is completed in the channel card processor, when the base station control processor requests data on the configuration of the base station, requesting only one time for the same type of channel element without requiring as many data as the number of channel elements. Wow, And storing data received from the base station control processor in the entire data area of the channel card and installing channel elements of the same type.