KR100293388B1 - Switching method for dynamic vocoder allocation - Google Patents

Abstract

PURPOSE: A switching method for dynamic vocoder allocation is provided to achieve a more improved call success rate through allocation to a more normal vocoder by dynamically allocating a link and a channel to an arbitrary vocoder, not a specific vocoder. CONSTITUTION: A trunk link interface part(10) and a data transmission digital switch(20) are provided to implement a switching method for dynamic vocoder allocation. The trunk link interface part(10) is composed of a serial control interface part(12), a converter(13), a link interface part(14), a transmitter(15), and a data interface part(17). The serial control interface part(12) controls a serial signal inputted to a receiver(11). The converter(13) converts the output signal of the serial control interface part(12). The link interface part(14) interfaces the signal of the converter(13) with the signal of the receiver(11). The transmitter(15) transmits the signal of the link interface part(14) to an MSC(Mobile Switching Center). The data interface part(17) transmits the signal of the transmitter(15) to the digital switch(20) through an ST(Serial Telecom)-bus.

Description

Switching method for dynamic vocode assignment

The present invention relates to a communication system, and more particularly, to a switching method for dynamic vocode allocation, in which a resource allocation between a vocoder and a link channel is dynamically provided in a CDMA system, thereby providing improved service quality.

Conventionally, when performing an assignment command for a link and a channel received from a mobile communication exchange (MSC) to a specific vocode, if a designated vocode per link and channel is abnormal, a call reject is generated by a base station controller (BSC). There was a shortcoming that the success rate of the call is not high because it is transmitted to the mobile communication exchange (MSC).

SUMMARY OF THE INVENTION The present invention has been made to solve such a conventional problem, and an object of the present invention is to output ST of a relay line link interface between a base station controller (BSC) and a mobile communication switch (MSC) operating as a 2.048 Mbps digital trunk in a CDMA system. (Serial Telecom)-Provides a switching method for dynamic vocode assignment that dynamically allocates channels in the bus stream.

That is, an object of the present invention is to dynamically assign the link and channel received to the exchange to an arbitrary one instead of a fixed specific one, thereby removing abnormal ones from call resources and assigning them to more normal ones. To implement an improved call rate.

The present invention for achieving the above object is achieved through a switching device, the step of determining whether a normal resource exists by searching for a vocode resource to switch by receiving the switching resources for the link / channel from the exchange, If present, request to switch the link / channel to a specific vocode, switch the link / channel to a specific code, and then transmit a response to the switching. If it is determined that the normal switching has been performed, switch to the exchange. Delivering a response to the switching, and then performing normal call operation.

1 is a hardware configuration diagram of a switching method for dynamic vocode allocation of the present invention

2 is a flowchart illustrating a switching method for dynamic vocode allocation according to the present invention.

<Explanation of symbols for main parts of drawing>

10: trunk line link interface unit 11: receiver

12: Serial control interface unit 13: Converter

14: link interface unit 15: transmitter

16: Buffer 17: Data Interface

20: digital switch

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

1 is a hardware configuration of the present invention, which is mainly composed of a trunk line link interface unit 10 and a digital switch 20 for data transmission, and the trunk line link interface unit 10 receives signals from a mobile communication switch (MSC). A serial control interface unit 12 for controlling an input serial signal, a converter 13 for converting an output signal of the serial control interface unit 12, and a signal of the receiver 11 And a link interface unit 14 for interfacing the signal of the converter 13, a transmitter 15 for transmitting the signal of the link interface unit 14 to a 32-ch mobile communication switch, and a signal of the transmitter 15 to the ST. It consists of a data interface 17 for transmitting to the digital switch 20 via a bus.

According to the present invention having such a configuration, the E1 / ESF framer and the interface ST-bus between the mobile communication switch (MSC) and the base station controller (BSC) are the relay line interface unit 10, which is controlled by the digital switch 20.

The 32 channel E1 trunk of 2.048 Mbps is switched to a specific vocode through the switching of the digital switch 20.

At this time, each vocode is switched for each link and channel. At this time, the data to be switched is designated using the characteristics of the low and high registers of the control register.

At this time, the channel designated by the predetermined specific value is switched to the determined vocode.

The TSB block of the base station controller (BSC) has a trunk line link interface unit 10, which is two E1 interface chips per SIP, and is connected to a mobile communication exchange (MSC) and a receiving / transmitting link for each relay line interface unit 10. It operates at a bit rate of 2.048Mbps.

At this time, the E1 32 channel is switched to the vocode via the digital switch 20, and this switching is dynamically assigned to each vocode through the switch matrix of the digital switch 20.

1 is a flowchart illustrating an operation of the present invention, in which switching resources for a link / channel are received from an exchange (S1).

Next, the Vocode resource to be switched is searched to determine whether a normal resource exists (S2).

If there is no normal resource in step S2, it reports that there is no vocode resource to allocate to the exchange (S3), and cancels the call setup procedure (S4).

However, if there is a normal resource in the step S2, it requests to switch the link / channel to a specific vocode (S5).

Next, the link / channel is switched to a specific code (S6), and then a response to switching is transmitted (S7).

Subsequently, it is determined whether the normal switching has been performed, and if the normal switching is not performed, it reports that the normal allocation has not been made to the exchange, and then releases the call setup procedure (S9, S10).

However, if the normal switching is made in step S8, the response to the switching is transmitted to the exchange, and then normal call operation is performed (S11 and S12).

As described above, in the present invention, the PCM traffic / signal path between the base station controller (BSC) and the mobile communication exchange (MSC) is an E1 link driven by a Mittel chip at the digital switch 20 drive chip level. The E1 link can be controlled to dynamically allocate the current link and the specifically designated vocode, thereby achieving an improved efficiency ratio.

Claims (3)

A first step of determining whether a normal resource exists by searching for a vocode resource to be switched by receiving a switching resource for a link / channel from an exchange; A second step of requesting switching of a link / channel to a specific vocode, switching of the link / channel to a specific code if a normal resource exists, and delivering a response to the switching; Determining whether or not normal switching has been performed, and when the normal switching is performed, a third step of transmitting a response to the switching to the exchange and then performing normal call operation. 2. The method of claim 1, wherein in the first step, when there is no normal resource, there is no vocode resource to be allocated to the exchange, and the call setup procedure is released. 2. The method of claim 1, wherein if the normal switching is not performed in the third step, the call setup procedure is released after reporting that the normal allocation is not made to the exchange.

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