WO2013002593A2

WO2013002593A2 - Transceiver having a virtual voice codec applied in a wired or wireless network

Info

Publication number: WO2013002593A2
Application number: PCT/KR2012/005156
Authority: WO
Inventors: 차원재; 엄진석; 장원호; 김재욱
Original assignee: 주식회사 미라넷; 주식회사 케이티
Priority date: 2011-06-29
Filing date: 2012-06-29
Publication date: 2013-01-03
Also published as: KR101222803B1; WO2013002593A3; KR20130002756A

Abstract

The present invention relates to a transceiver for providing user data used in various data services (except for voice service) together with a voice call by applying a virtual voice codec in a wired/wireless network. The transceiver includes a virtual voice processing unit to which a virtual voice codec is applied, which recognizes and identifies a user voice and user data as a virtual voice in one voice channel or voice session generated using a circuit or packet in a wired or wireless network.

Description

Transceiver using virtual voice codec in wired or wireless network

The present invention relates to a transceiver for applying a virtual voice codec on a wired or wireless network to provide user data required by a user along with a voice call. The present invention relates to a single voice channel or voice generated using a circuit or packet on a wired or wireless network. The present invention relates to a transmission / reception apparatus including a virtual voice processing unit applying a virtual voice codec having a feature of recognizing and identifying a user's original voice and user data as a virtual voice in a session.

Currently, the mobile communication network is affecting the voice communication function, which is a natural function, due to the congestion of the data communication network. In addition, as the usage of data service is greater than that of voice service, the shortage of session resources for data service has started in communication networks. In addition, for services that use simple one-to-one data transfer functions, such as messenger, photo transfer, business card transfer service, etc., the cost of introducing and maintaining a server inside the network and creating a new session for the service are paid. have.

In addition, even if the efficient operation of resources on the network is not considered, there is a great demand for additional services that provide user data with voice, but as voice and user data are transmitted to users through separate paths, It has a disadvantage that it is difficult to apply to services that require sex and synchronization.

The present invention has been devised to solve the above problems, and after establishing a voice service channel or a voice service session with a virtual voice codec, the voice codec information and user data for the voice within the band secured by the virtual voice codec. By providing services in frames that meet the virtual voice codec band, it is possible to simultaneously create and transmit various voice and user data using only one voice channel or only one voice session for voice service, and to create various additional services. Provided is a transceiver that can provide an optimal service for a service requiring real time or synchronization therebetween.

In addition, the purpose of the present invention is to provide economics and efficiency of the network by reducing the consumption of channel / session resources required for services on a wired or wireless network.

In order to achieve the above objects, the present invention provides a vocoder for performing the coding / decoding of the voice to the type required for a wired or wireless network for voice services; An application program unit for generating user data for a data service other than the voice service; And a virtual voice processor configured to transmit and receive the user data together with the voice within a band secured by the virtual voice codec after establishing a voice service channel or a voice service session with a virtual voice codec. Provided is a transceiver for applying a virtual voice codec in a wired or wireless network, characterized by providing a user data with voice by applying a voice codec.

The virtual voice processing unit may include: an application program matching unit performing a matching function with the application program unit; A data handler unit for dividing and assembling user data to be used for a service by the application program matching unit; A virtual voice controller for negotiating a virtual voice codec band to insert user data in a wired or wireless network providing the voice service; And a frame handler unit generating user data and voice as a virtual voice codec frame so as to correspond to the virtual voice codec band and identifying a received virtual voice codec frame.

The virtual voice controller may be configured to set a virtual voice codec band of a band larger than the band allocated for transmitting / receiving voice services, or, in the case of a network capable of using multiple voice codecs, according to the type of data that a user wants to send. Set the codec to be used as the original voice and the codec to be used as the virtual voice codec band, and in the case of a wired or wireless network that supports only the fixed voice codec, set the fixed voice codec band as the virtual voice codec band and voice less than the set band. After the codec is applied or set to the virtual voice codec band in the same manner as the voice codec, only a portion in which no voice is present is applied to the virtual voice codec band.

As described above, the present invention sets up a voice service channel or a voice service session with a virtual voice codec, and then corresponds to the virtual voice codec band with voice codec information and user data for voice within a band secured by the virtual voice codec. By providing services in a frame and simultaneously transmitting and receiving voice and user data using only one voice channel or only one voice session for voice service, it is effective to create various additional services together with voice service, especially with real time and voice Can be provided in an optimal way to the required services.

In addition, it provides various additional services with only one session for voice service, providing efficiency and economics of session resources of wired or wireless network.

1 is a diagram illustrating a configuration of a voice channel / session between a transmitting and receiving device using a voice network according to an embodiment of the present invention.

Figure 2 is a band representation of the virtual voice codec frame and components according to an embodiment of the present invention.

3 is a block diagram of a virtual voice codec frame according to an embodiment of the present invention

4 is a block diagram illustrating a transmission and reception apparatus according to an embodiment of the present invention.

5 is a block diagram of a virtual voice processing unit according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The term "user data" as used herein refers to data used for various data services except voice services.

1 is a diagram illustrating a configuration of a voice channel / session between a transmission and reception apparatus to which a virtual voice codec is applied in a wired or wireless network of the present invention. In the transceiver of FIG. 1, an application program unit or a downloadable application program unit in which a virtual voice processing unit is embedded is applied.

As shown in FIG. 1, the transceiver A 100 is a transceiver to which a virtual voice processing unit is applied and is used for virtual voice on the voice network 102 using the transceiver B 101 and a circuit or packet at the request of a user. Create a service session 105. At this time, the virtual voice processing unit 400 is allocated a service session 105 for a voice of a band larger than the band to be allocated for the transmission and reception of the voice 104 provided to the voice service in consideration of the transmission and reception of user data. The virtual voice processing unit 400 of each of the transceivers 100 and 101 mixes the user data 103 and the voice 104 for data service into one session data, thereby creating a voice service generated in the voice network 102. Transmit using session 105.

At this time, the voice network 102 exchanges the voice frames transmitted and received using the voice service session 105 to the respective transceivers 100 and 101 as they are. Each transceiver 100, 101 transmits the received voice frame to the virtual voice processor 400.

The virtual voice processing unit 400 divides the received virtual voice codec frame 200 into an original voice codec frame 206 and a user data frame 205 using the information of the virtual voice codec frame header 207, and then the frame. Passes to each processing block according to its type.

In the case of making a voice call using the circuit voice network 102, when the user attempts to make a voice call, the transceiver 100 and 101 firstly establish a call-to-voice service session 105 with the voice network 102. In order to set-, signal processing and negotiation of the voice codec to be called are performed. At this time, the virtual voice processing unit 400 requests to generate a voice codec session with a maximum or optimal voice codec that can secure a band by signal processing. For example, on a Code Division Multiple Access (CDMA) 1x voice network, the transceiver (100, 101) may use a vocoder format to use a Qualcomm Code Excited Linear Prediction (QCELP) vocoder, which is a 13 Kbps band, as the voice service session 105. After negotiating with the network 102, the vocoder inside the transceiver 100, 101 operates the QCELP of 8Kbps band or the Enhanced Variable Rate Codec (EVRC) of 8Kbps band as the vocoder for the original voice 104. If set, a band for transmitting user data 103 to the remaining 5Kbps band is secured.

Voice over a wireless Voice over Internet Protocol (VoIP) packet voice network 102, such as Code Division Multiple Access (CDMA), Global System for Mobile Communications (GSM), Wideband-CDMA (WCDMA), or Long Term Evolution (LTE) In the case of making a call, the same process is performed using the circuit voice network. For example, in the VoIP network, the terminal device negotiates with the voice network 102 so that the PCM vocoder having a vocoder format of 64 Kbps can be used as the voice service session 105, and then uses the vocoder inside the transceiver 100 and 101. When the AMR of 12.2Kbps of the band less than 64Kbps, the EVRC of 8Kbps, etc. are set to operate as the voice codec for the original voice 104, a band for transmitting user data 103 to the remaining bands is secured.

In addition, in the case of a network capable of using multiple voice codecs, the virtual voice codec band is set according to the type of data that the user wants to send, and the voice codec corresponding to the voice codec is set. The codec to be used for voice and the codec to be used as a virtual voice codec band may be selected.

Next, in the case of a wired or wireless network that supports only a fixed voice codec, a virtual voice codec band larger than that of the voice codec cannot be set when one voice codec is used. The voice codec smaller than the set band is set in the virtual voice processor to provide a service.

In addition, the voice codec used for the voice service is implemented by setting only the virtual voice codec band as the voice codec and applying only the portion where no voice exists to the virtual voice codec band. By setting the virtual voice band to be the same as the voice codec, it is possible to apply a virtual voice codec frame that can send user data to the band where silence occurs.

FIG. 2 is a band representation diagram of a virtual voice codec frame and components transmitted and received through a voice service session 105 created between transceiver A 100 and transceiver B 102.

As shown in FIG. 2, the voice service session 105 is composed of a virtual voice codec band 203. The virtual voice codec band 203 is composed of a user data band 201 for transmitting and receiving user data 103 and an original voice codec band 202 for transmitting and receiving original voice codec data 104. The user data 103 is divided into frames and inserted into the area of the user data frame 205, and the actual voice is inserted into the area of the original voice codec frame 206, respectively. At this time, the configuration information of the virtual voice codec frame 200 is included in the virtual voice codec frame header 207.

3 is a block diagram of a virtual voice codec frame 200 transmitted and received for each transmission time of a voice frame, that is, a feature of voice communication, that is, a transmission time interval (TTI) 204. The virtual voice codec frame 200 transmitted / received for each TTI includes original voice codec data using a user data frame 205, which is a frame of user data 103 using the user data band 201, and an original voice codec band 202. An original voice codec frame 206, which is a frame of 104, and a virtual voice codec frame header 207 including information of the user data frame 205 and the original voice codec frame 206.

4 is a block diagram of the transmission and reception apparatus 100 and 101 which are components of the present invention. As shown in FIG. 4, the transmitter / receiver 100 or 101 includes a microphone and speaker unit 110, which is a user voice interface, a vocoder unit 106 that is responsible for coding and decoding voice, and a data service except voice. An application program unit 108, a virtual voice processing unit 402 for handling a virtual voice frame, a physical channel unit 500 for physical or electrical signal processing, the circuit data received through the physical channel unit 500 It comprises a circuit handler unit 450 and a packet handler unit 460 for processing the packet data received through the physical channel unit 500.

Processing of the voice received for each TTI by the physical channel unit 500 will be described. The electrical signal received from the physical channel unit 500 is branched to the circuit handler unit 450 or the packet handler unit 460 according to the type of the signal.

First, the electrical signal received through the circuit channel is branched to the circuit handler unit 450 and assembled into one frame data. The assembled frame data is a virtual voice codec frame 200 received from the other party through the voice service session 105 generated in the voice call setup process, and the virtual voice codec frame 200 is immediately received from the virtual voice processing unit ( 400). The virtual voice processing unit 400 separates the virtual voice codec frame 200 into a user data frame 205 and an original voice codec frame 206 by the information of the virtual voice codec frame header 207. The separated original speech codec frame 206 is immediately transmitted to the vocoder section 106 without delay, and is then delivered to the user through the microphone / speaker section 110 after speech decoding is performed. The user data frame 205 separated by the virtual voice processor 400 is assembled in a data packet unit in the virtual voice processor 400 and then transmitted to the application program unit 108.

The electrical signal received by the packet handler unit 460 through the physical channel unit 500 is assembled into one frame by the packet handler unit 460. The assembled frame data is a virtual voice codec frame 200 received from the other party through the voice service session 105 generated in the voice call setup process, and the virtual voice codec frame 200 is immediately received from the virtual voice processing unit ( 400). The virtual voice processor 400 separates the virtual voice codec frame 200 into a user data frame 205 and an original voice codec frame 206 by the information of the virtual voice codec frame header 207. The original voice codec frame 206 is immediately transmitted to the vocoder unit 106 without delay, and is then transmitted to the user through the microphone / speaker unit 110 after voice decoding is performed.

The user data frame 205 separated from the virtual voice codec frame 200 in the virtual voice processor 400 is assembled in data packet units and then transmitted to the application program unit 108. The transmission of voice and user data proceeds in the reverse direction of the reception.

5 is a block diagram of the virtual voice processor 400. As shown in the figure, the virtual voice processing unit 400 includes an application program matching unit 410, a data handler unit 420, a virtual voice control unit 430, and a frame handler unit 440. Specifically, the application program matching unit 410 performs a matching function with the data service providing unit, and the data handler unit 420 controls the user data used by the application program unit 108 in the frame handler unit. The size is appropriately divided and assembled for processing at 440. In other words, the data handler unit 420 performs matching to facilitate smooth communication between the user data of the application program unit 108 and the user data of the frame handler unit 440.

The virtual voice control unit 430 negotiates a virtual voice codec band so that user data can be inserted in a wired or wireless network providing a voice service through a circuit or a packet.

The frame handler 440 generates and identifies user data and voice as a virtual voice codec frame so as to correspond to the virtual voice codec band through the circuit handler or packet handler.

A reception process through the virtual voice processor configured as described above will be described. The virtual voice codec frame 200 received from the circuit handler unit 450 or the packet handler unit 460 is connected to the user data frame 205 based on the information of the virtual voice codec frame header 207 in the frame handler unit 440. The original voice codec frame 206 is separated and then transmitted to the virtual voice controller 430. The virtual voice controller 430 transmits the received frame to the vocoder 106 without delay when the received frame is the original voice codec frame 206 and to the data handler unit 420 when the frame is a user data frame 205. . The data handler 420 collects a certain amount of the received user data frame 205 and assembles them in packet units. The data packet is then transferred to the application unit 108 through the application matching unit 410.

Looking at the transmission process, the user data 103 to be transmitted by the user is transmitted to the virtual voice processing unit 400 through the application program unit 108. The virtual voice processor 400 fragments the received user data 103 in units of frames and waits. Whenever the vocoder 106 transmits a frame of the original voice codec data 104 generated for each TTI 204 to the virtual voice processor 400, the virtual voice processor 400 transmits the original voice codec frame 206 to the original voice codec frame 206. The waiting user data frame 205 is transferred to the frame handler 440. If the user data frame 205 does not exist, only the original voice codec frame 206 is transmitted. The frame handler unit 440 combines and combines the original voice codec frame 206 and the user data frame 205 of the virtual voice codec frame 200 to be delivered to the band of the service session 105 for voice already established. It is inserted into the virtual voice codec frame header 207 and then transferred to the circuit handler 450 or the packet handler 460 according to the attributes of the voice network.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

106: vocoder section 108: application program section

400: virtual voice processing unit 410: application matching unit

420: data handler unit 430: virtual voice control unit

440: frame handler

Claims

A vocoder unit for coding / decoding a voice to a type required by a wired or wireless network for a voice service;

An application program unit for generating user data for a data service other than the voice service; And

And a virtual voice processing unit configured to transmit and receive the user data together with the voice within a band secured by the virtual voice codec after establishing a voice service channel or a voice service session with a virtual voice codec. Transceiving device to which a virtual voice codec is applied in a wired or wireless network, characterized by providing a user data with voice by applying a voice codec.
The method of claim 1,

The virtual voice processing unit,

An application program matching unit performing a matching function with the application program unit;

A data handler unit for dividing and assembling user data to be used for a service by the application program matching unit;

A virtual voice controller for negotiating a virtual voice codec band to insert user data in a wired or wireless network providing the voice service; And

And a frame handler unit generating user data and voice as a virtual voice codec frame so as to correspond to the virtual voice codec band, and identifying a received virtual voice codec frame. Transceiver with codec.
The method of claim 2,

The virtual voice control unit,

Transceiver according to the virtual voice codec in the wired or wireless network, characterized in that for setting the virtual voice codec band of the band larger than the band allocated for the transmission and reception of voice services.
The method of claim 2,

The virtual voice control unit,

In the case of a network where multiple voice codecs can be used, the virtual voice in a wired or wireless network is characterized by setting the codec to be used as the original voice and the codec to be used as the virtual voice codec band according to the type of data to be sent by the user. Transceiver with codec.
The method of claim 2,

The virtual voice control unit,

In the case of a wired or wireless network that supports only a fixed voice codec, the fixed voice codec band is set as a virtual voice codec band and a voice codec smaller than the set band is applied. Device.
The method of claim 2,

The virtual voice control unit,

Transmitter and receiver for applying a virtual voice codec in a wired or wireless network, characterized in that the same as the voice codec is set to the virtual voice codec band, and then only a portion where no voice exists is applied to the virtual voice codec band.