USRE38244E1 - Method of bypassing vocoders in digital mobile communication system - Google Patents

Abstract

A method of bypassing vocoders in a digital mobile communication system, comprising the step of appending bypass mode data to data transmitted from a plurality of mobile stations, the bypass mode data instructing the vocoders not to perform encoding/decoding operations, and the step of transmitting the resultant data. According to the present invention, the unnecessary encoding/decoding operations are omitted for a mobile to mobile communication. Therefore, the present invention has the effect of removing the delay time and enhancing the voice quality.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates in general to a digital mobile communication system employing a code division multiple access (referred to hereinafter as CDMA) manner, and more particularly to a method of bypassing vocoders in the digital mobile communication system, in which a CDMA controller bypasses a voice signal without encoding and decoding it for communication between mobile stations, so that the voice quality can be enhanced.

2. Description of the Prior Art

Generally, for a mobile to LAND communication, a CDMA controller receives encoded voice data from a mobile station and decodes the received data. Then, the CDMA controller modulates the decoded data using a pulse code modulation (referred to hereinafter as PCM) manner and transmits the resultant PCM data to a switching system.

On the other hand, for a mobile to mobile communication, a CDMA controller of one mobile station receives PCM data from the other mobile station and encodes the received PCM data. Then, the CDMA controller transmits the encoded data to the corresponding mobile station.

As seen from the above description, the CDMA controller performs the unnecessary decoding and encoding operations.

However, now, the CDMA controller must perform the decoding and encoding operations for all communication processes. The decoding and encoding operations may not be necessary to some communication processes. In this case, if the decoding and encoding operations are performed, they result in an increase in delay time and a degradation in voice quality.

SUMMARY OF THE INVENTION

Therefore, the present invention has been made in view of the above problem, and it is an object of the present invention to provide a method of bypassing vocoders in a digital mobile communication system, in which the vocoders do not perform encoding and decoding operations when a communication line does not require the encoding and decoding operations, so that the voice quality can be enhanced and the delay time can be reduced.

The present invention is directed to a method of bypassing vocoders in Mobile-to-Mobile Call(MMC). In the call establishment process of a digital mobile communication system, the Mobile Service Switching Center(MSC)usually decides if a call is a Mobile-to-Mobile call or a Mobile-to-Land call. This operation of MSC is known in the art.

In accordance with the present invention, the above and other objects can be accomplished by a provision of a method of bypassing vocoders in a digital mobile communication system, comprising the step of appending bypass mode data to data transmitted from a plurality of mobile stations, the bypass mode data instructing the vocoders not to perform encoding/decoding operations, and the step of transmitting the resultant data.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a block diagram of a signal transfer apparatus for embodying a method of bypassing vocoders in a digital mobile communication system using packet routing dedicated communication ports in accordance with an embodiment of the present invention; and

FIG. 2 is a block diagram of a signal transfer apparatus for embodying a method of bypassing vocoders in a digital mobile communication system using a vocoder control program in accordance with an alternative embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1, there is shown a block diagram of a signal transfer apparatus for embodying a method of bypassing vocoders in a digital mobile communication system using packet routing dedicated communication ports in accordance with an embodiment of the present invention. As shown in this drawing, the signal transfer apparatus comprises onebase station2 for receiving signals from a plurality ofmobile stations1, and afirst selector3 included in one CDMA controller. The signal transfer apparatus further comprises theother base station2′ for receiving signals from a plurality ofmobile stations1′, and asecond selector3′ included in the other CDMA controller. Thefirst selector3 includes a vocoder3-1 for encoding/decoding a voice signal from thebase station2, and packet routing dedicated communication ports3-2 for bypassing the voice signal from thebase station2 directly to the other CDMA controller without transferring it to the vocoder3-1. Thebase station2′ andsecond selector3′ are the same in construction and operation as thebase station2 andfirst selector3, respectively. A plurality of signal transfer apparatus with the above-mentioned construction may be connected to every switching system, as well-known in the art.

Now, the method of bypassing the vocoders in the digital mobile communication system using the signal transfer apparatus with the above-mentioned construction in accordance with the embodiment of the present invention will be described in detail.

Thebase stations2 and2′ receive radio voice signals as encoded data with appended bypass mode data from the plurality ofmobile stations1 and1′ subscribing thereto and transmit the received signals to the CDMA controllers, respectively.

The CDMA controllers process the received signals in such a manner as will hereinafter be described in detail.

Data formats of the received signals are retrieved by theselectors3 and3′ in the CDMA controllers and call control processors (not shown) therein which are connected to the packet routing dedicated communication ports3-2 and3-2′, respectively. In accordance with the retrieved result, it is determined whether the received signals are to be passed to the vocoders3-1 and3-1′ or to be bypassed.

Channels of the received signals are matched with those of theselectors3 and3′. Then, signals to be bypassed are bypassed through the packet routing dedicated communication ports3-2 and3-2′. In other words, the selectors and call control processors determine based on the data formats whether the received signals are to be passed to the vocoders or to be bypassed.

The voice signals to the vocoders3-1 and3-1′ are encoded and decoded thereby and then transmitted to the CDMA controller of the other party. The bypassed voice signals are transmitted directly to the CDMA controller of the other party through the packet routing dedicated communication ports3-2 and3-2′.

The transmission and reception operations of thefirst selector3 in the CDMA controller will hereinafter be described to explain the above-mentioned process in more detail.

First, the reception operation of thefirst selector3 in the CDMA controller will hereinafter be described.

Encoded data from a selected one of themobile stations1 is transmitted to thefirst selector3 through thebase station2. The transmitted data is not applied to the vocoder3-1 but transferred to thesecond selector3′ in the CDMA controller of the other party through the packet routing dedicated communication ports3-2.

Next, the transmission operation of thefirst selector3 in the CDMA controller will hereinafter be described.

Bypassed data from thesecond selector3′ in the CDMA controller of the other party is transmitted to thefirst selector3. The transmitted data is temporarily stored in a buffer (not shown). Under this condition, when an interrupt signal TX TICK indicating a transmission time point is made active, the stored data from the buffer is transmitted to a selected one of themobile stations1 through thebase station2. The transmission and reception operations of thesecond selector3′ in the CDMA controller are performed in the same manner as those of thefirst selector3 and a description thereof will thus be omitted.

As mentioned above, the packet routing dedicated communication ports3-2 and3-2′ are additionally installed on the existing hardware equipment. This has the effect of simplifying a software work. Also, the unnecessary work or the decoding and encoding operations in the CDMA controller are omitted, resulting in the improvement in voice quality. Further, the delay time resulting from the encoding operation can be shortened.

Referring to FIG. 2, there is shown a block diagram of a signal transfer apparatus for embodying a method of bypassing vocoders in a digital mobile communication system using a vocoder control program in accordance with an alternative embodiment of the present invention. As shown in this drawing, the signal transfer apparatus comprises onebase station2 for receiving signals from a plurality ofmobile stations1, and a first selector4 included in one CDMA controller. The signal transfer apparatus further comprises theother base station2′ for receiving signals from a plurality ofmobile stations1′, and a second selector4′ included in the other CDMA controller. The first selector4 includes a vocoder4-1 for encoding/decoding a voice signal from thebase station2. Thebase station2′ and second selector4′ are the same in construction and operation as thebase station2 and first selector4, respectively.

Now, the method of bypassing the vocoders in the digital mobile communication system using the signal transfer apparatus with the above-mentioned construction in accordance with the alternative embodiment of the present invention will be described in detail.

To determine whether the present mode is a bypass mode or an existing mode, the selectors4 and4′ have frame pack and unpack functions for producing a traffic data format of the bypass mode. The receiving selector converts the mode of its vocoder into the bypass mode. Here, all base stations and selectors can perform a bidirectional communication. For this reason, the reference numerals for the discrimination between transmitting and receiving selectors will be omitted.

The vocoder of bypass mode analyzes a PCM data format inputted therein, to determine whether the data frame is to be transmitted in the bypass mode. If it is determined that the data frame is to be transmitted in the bypass mode, the vocoder sets its mode to the bypass mode and then transmits the data.

Noticeably, a data rate must be changed to transmit a voice signal in the bypass mode. To this end, data format conversion is performed to match a mobile station's data speed with a PCM data speed for the bypassing, as will hereinafter be mentioned in more detail.

The mobile station's data speed can be matched with the PCM data speed of 64 Kbps by repeating 22-byte data of the mobile station seven times and adding a 6-byte header to the resultant data. That is,

22 bytes (mobile station's encoded data)·7+6=160 samples (bytes)/20 msec

where, 160 samples (bytes) indicate an amount of data stored in the unit of frame and 20 msec indicates a transmission time required in the unit of frame (i.e., 125 μsec (8 KHz)·160 samples).

The voice signal received in the bypass mode is directly converted into PCM data for transmission without passing through decoding and encoding operations. This has the effect of shortening the delay time resulting from the encoding operation, which is conventionally 47.5 msec in the unit of frame.

The conventional delay time is required in the following manner. Namely, a first data frame is received at a rate of 20 msec and then encoded. A second data frame is received at the moment that the encoded first data frame is transmitted. A third data frame is received at the moment that the encoded second data frame is transmitted. In this manner, about 380 samples are delayed for an interval of 47.5 msec.

The transmission and reception operations of the first selector4 in the CDMA controller will hereinafter be described to explain the above-mentioned process in more detail.

First, the reception operation of the first selector4 in the CDMA controller will hereinafter be described.

Encoded data from a selected one of themobile stations1 is transmitted to the first selector4 through thebase station2. In the first selector4, the vocoder4-1 receives the encoded data. In the case where the received data is to be bypassed, the vocoder4-1 performs no decoding operation for the received data and changes only the data rate to transmit the received data to a PCM line.

Next, the transmission operation of the first selector4 in the CDMA controller will hereinafter be described.

Bypassed data from the second selector4′ in the CDMA controller of the other party is transmitted to the first selector4. In the first selector4, the vocoder4-1 receives the bypassed data and performs no encoding operation for the received data. The vocoder4-1 then changes only the data rate to transmit the received data to a selected one of themobile stations1 through thebase station2 when an interrupt signal TX TICK indicating a transmission time point is made active. The transmission and reception operations of the second selector4′ in the CDMA controller are performed in the same manner as those of the first selector4 and a description thereof will thus be omitted.

As apparent from the above description, according to the present invention, the unnecessary encoding/decoding operations are omitted for the mobile to mobile communication. Therefore, the present invention has the effect of removing the delay time and enhancing the voice quality.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (7)

What is claimed is:

1. A method of transmitting data in a digital mobile communication system employing vocoders, comprising the steps of:

appending bypass mode data to encoded data transmitted from a plurality of mobile stations, said bypass mode data instructing a first vocoder to not decode the data and a second vocoder to not encode the data; and

transmitting the resultant data.

2. The method ofclaim 1, wherein each of said vocoders is adapted to set its mode to a bypass mode, to analyze a data format of an input signal to determine whether the input signal is to be bypassed, to change only a data rate only if it is determined that the input signal is to be bypassed and to transmit the bypassed input signal at the changed data rate.

3. A method of transmitting data in a digital mobile communication system employing vocoders, comprising the steps of:

appending bypass mode data to encoded data transmitted from a plurality of mobile stations, said bypass mode data instructing a first selector having a first vocoder and a second selector having a second vocoder whether to bypass the respective vocoders and transfer the data to packet routing dedicated communication ports; and

transmitting the transferred data.

4. The method ofclaim 2, wherein the data rate is changed by matching a mobile station's data speed with a PCM data speed.

5. The method ofclaim 4, wherein the mobile station's data speed is matched with the PCM data speed of64 Kbps by repeating22-byte data of the mobile station seven times and adding a6-byte header to the resultant data.

6. The method ofclaim 3, wherein said appending step includes a step of determining based on data format of said bypass mode data whether the transmitted encoded data are to be passed to the vocoders or to bypass the vocoders.

7. The method ofclaim 6, wherein the determination of bypassing vocoders is made by call control processors which are connected to the packet routing dedicated communication ports.

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