KR100775164B1 - Synchronous Method for Image Calling in the Mobile Telephone - Google Patents

Abstract

The present invention relates to the control of video call establishment of a mobile communication terminal, and more particularly, to a method of synchronizing a video call of a mobile communication terminal that can provide a more stable call service to a higher layer by synchronizing both ends when a call is established between video terminals. It is about.

The present invention comprises the steps of: receiving a synchronization frame of a second terminal for a predetermined time by driving a synchronization protocol of the first terminal when the first terminal starts a video call to the second terminal; Transmitting, by the second terminal, a synchronization frame to the first terminal after determining that the first terminal has received the video call; And transmitting, by the first terminal, the synchronization frame to the second terminal after receiving the synchronization frame from the second terminal.

The present invention can prevent unnecessary data flow by synchronizing both ends of transmission and reception prior to video call setup by adding a synchronization protocol layer to the video terminal.

Synchronization, frame, protocol, video terminal, video call

Description

Synchronous Method for Image Calling in Mobile Phone}             

1 is a block diagram showing a conventional video call connection method

2 is a block diagram showing the structure of a conventional video call connection protocol.

3 is a block diagram showing the structure of a video call connection protocol with a synchronization protocol according to the present invention;

4 is a block diagram showing the structure of a packet data synchronization frame.

5 is a flowchart illustrating a synchronization method when a video call is established by a mobile communication terminal according to the present invention.

The present invention relates to the control of video call establishment of a mobile communication terminal, and more particularly, to a method of synchronizing a video call of a mobile communication terminal that can provide a more stable call service to a higher layer by synchronizing both ends when a call is established between video terminals. It is about.

Conventionally, the video data is bypassed in the wireless network section without going through an interworking function (IWF) for call processing such as H.324, which is a type of CDMA (code division multiple access) video terminal. Video call processing is possible.

Hereinafter, the prior art will be described with reference to the accompanying drawings.

1 is a block diagram showing a conventional video call connection scheme, Figure 2 is a block diagram showing the structure of a conventional video call connection protocol.

1 is a block diagram showing a conventional video call connection method.

First, video terminals 10 and 20 for initiating video call setup initiate a call directly through a user interface inside the terminal and initiate a video call through a bypass video service option.

After recognizing the video call service option, the base station 30 sets up a call through the base station where the counterpart terminal is located by using the service option and the counterpart phone number at the switching center 40.

Then, a traffic channel of the transmitting terminal 10 side is established and a radio link protocol (RLP) is connected between the transmitting terminal 10 and the base station 30 (S1).

The data of the upper video application layer of the transmitting terminal 10 is transmitted to the base station 30.

The receiving terminal 20 confirms that it is a video call through a service option downloaded from the base station 30 and informs the user of the video call.

 The user answers after determining whether to receive a video call.

The receiving terminal by this service option drives the radio link protocol with the base station after the traffic channel is established (S2).

The base station 30 and the switching center 40 connect them, and as a result, the data between the terminals 10 and 20 is directly connected without passing through an IWF or a packet data service node (PDSN). do.

Therefore, the upper application layer between both terminals is connected to the bypass service option as described above to transmit video and audio to maintain a video call.

2 is a block diagram showing the structure of a conventional video call connection protocol.

As shown here, the protocol of the video terminal consists of an upper layer of the video application protocol, and a lower layer of the Radio Link Protocol (RLP) and the IS-95 series.

When the video terminal initiating the video call initiates the video call, the base station recognizes the video call service option and sets up the call through the base station in which the other terminal is located.

Then, a traffic channel on the transmitting terminal side is established and a radio link protocol (RLP) is connected between the transmitting terminal and the base station (S1).

Data of the video application protocol, which is a higher layer of the transmitting terminal, is transmitted to the base station.                         

The receiving terminal confirms that it is a video call through the service option downloaded from the base station, and informs the user of the video call.

Then, a traffic channel on the receiving terminal side is established and a radio link protocol (RLP) is connected between the receiving terminal and the base station (S2).

The base station and the switching center connect it so that the data between the video terminals is directly connected without going through the data network interworking device (IWF) or the packet data service node (PDSN).

Therefore, the upper application layer between both terminals is connected to the bypass service option as described above to transmit video and audio to maintain a video call.

However, in the conventional method, when the data call is initiated between the terminal and the base station, the service time may be inconsistent when viewed from a higher application layer due to the difference in time between the terminals. Thus, unnecessary data may be transmitted.

That is, after a certain time after the establishment of the traffic channel between the transmitting terminal and the base station, the receiving terminal responds, the traffic channel between the base station and the receiving terminal is opened, and then data is exchanged between the two terminals, thereby causing a time point disparity between the transmitting and receiving terminals.

For this reason, the video data of the transmitting terminal is unnecessarily transmitted to the base station before the call is set up on the receiving terminal side, which causes a problem that the video protocol in the terminal may malfunction.

Accordingly, the present invention has been made to solve the above problems, and provides a synchronization method when establishing a video call of a mobile communication terminal to synchronize the both ends before transmitting video data when establishing a call between video terminals so that the service time is consistent. Has its purpose.

The present invention relates to the control of video call establishment of a mobile communication terminal, and more particularly, to a method of synchronizing a video call of a mobile communication terminal that can provide a more stable call service to a higher layer by synchronizing both ends when a call is established between video terminals. It is about.

The present invention comprises the steps of: receiving a synchronization frame of a second terminal for a predetermined time by driving a synchronization protocol of the first terminal when the first terminal starts a video call to the second terminal; Transmitting, by the second terminal, a synchronization frame to the first terminal after determining that the first terminal has received the video call; And transmitting, by the first terminal, the synchronization frame to the second terminal after receiving the synchronization frame from the second terminal.

In the present invention, the existing video data bypass service option for directly connecting video terminals without going through an IWF or a packet data service node (PDSN) is applied.                     

According to the present invention, a packet data synchronization protocol (PDSP) is operated before a video data is transmitted to correct a timing mismatch between transmitting and receiving terminals after establishing a traffic channel for establishing a video call between terminals. We propose a method of synchronizing by transmitting a Data Sync Frame (PDSF).

After the synchronization between the transmission and reception terminals is performed, the packet data synchronization protocol (PDSP) layer is bypassed and the video protocol is operated.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

3 is a block diagram showing the structure of a video call connection protocol with the addition of a synchronization protocol according to the present invention, Figure 4 is a block diagram showing the structure of a packet data synchronization frame, Figure 5 is a mobile communication terminal of the present invention A flowchart illustrating a synchronization method when establishing a video call.

3 is a block diagram showing the structure of a video call connection protocol with a synchronization protocol according to the present invention.

As shown in the drawing, the video terminal according to the present invention has a video protocol such as H.263, G.723, H.245, H.223 as an upper application layer, and a radio link protocol (RLP) as a lower layer. ), IS-95A / B, IS-2000, etc., and propose a method of adding a packet data synchronization protocol (PDSP) between the upper layer and the lower layer to synchronize the video call.

That is, the wireless section setting between the video terminal and the base station is started in a form similar to the connection model of the existing data service, and the present invention uses a service option called a packet data synchronization protocol (PDSP) separately.

The packet data synchronization protocol (PDSP) operates before video data transmission when a video call is established, and transmits and synchronizes a packet data sync frame (PDSF).

4 is a block diagram showing the structure of a packet data synchronization frame.

As shown therein, the packet data sync frame (PDSF) is composed of a pattern of 1 to 2 bytes, and the pattern has a unique identifier for synchronization between both ends of the video terminal.

In some cases, the packet data synchronization frame may add preliminary data indicating other functions to the pattern of 1 to 2 bytes.

5 is a flowchart illustrating a synchronization method when a video call is established by a mobile communication terminal according to the present invention.

First, the user initiates a video call through the user interface of the terminal (step 501).

The transmitting terminal requests a video call from the base station using the video call service option and the receiving telephone number (step 502).

The transmitting terminal and the base station establish a radio link protocol (RLP) (step 503).

The transmitting terminal runs the packet data synchronization protocol and waits for the packet data synchronization frame PDSF of the receiving terminal for a predetermined time (step 504).                     

After recognizing the video call service option, the base station requests a video call to the receiving terminal using the service option and the receiving telephone number (step 505).

The receiving terminal confirms the video call through the service option downloaded from the base station and informs the user of the video call.

The user responds after determining whether to receive the video call (step 506).

The receiving terminal establishes a traffic channel with the base station by this service option, and drives the base station and radio link protocol (RLP). (Step 507).

The base station / switch station connects the radio link protocol (RLP) between the transmitting and receiving terminals so that the data between the terminals is directly connected without passing through the data network interworking device (IWF) or the packet data service node (PDSN).

The receiving terminal periodically sends a packet data synchronization frame (PDSF) until the transmitting terminal receives the packet data synchronization frame (PDSF) (step 508).

When the transmitting terminal receives the packet data synchronization frame PDSF from the receiving side, the transmitting terminal sends the same frame to the receiving terminal (steps 509 and 510).

Thereafter, the terminal bypasses the Packet Data Synchronization Protocol (PDSP) and starts the upper video application layer to transmit video and audio to start a video call.

As described above, according to the present invention, the Packet Data Sync Protocol (PDSP) is driven before the video data is transmitted to correct the timing mismatch between the transmitting and receiving terminals after establishing a traffic channel for establishing a video call between terminals. The present invention relates to a method for synchronizing a transmitting / receiving terminal by transmitting a packet data sync frame (PDSF). After the synchronization between the transmitting and receiving terminals is performed, a video call is started.

As described above, in the video call establishment method of the mobile communication terminal according to the present invention, by adding a synchronization protocol layer to the video terminal, it is possible to prevent unnecessary data flow by synchronizing both ends of transmission and reception before the video call setup. have.

In addition, the system does not need to perform separate processing related to data processing before connecting the wireless section at both ends.

In addition, when applying a general-purpose video chip based on a standard such as H.324, it is not necessary to consider a problem related to establishing a lower radio interval layer call in an upper video protocol.

Claims (4)

In establishing a call between the first terminal and the second terminal through the base station, Establishing a radio call between the first terminal and the base station; Transmitting a synchronization frame for setting a video call to a second terminal by driving a synchronization protocol of the first terminal; Transmitting a synchronization frame for receiving a video call from the second terminal to the first terminal; Synchronizing between a first terminal and a second terminal by receiving the synchronization frame; And bypassing the synchronization protocol and transmitting image data from the first terminal to the second terminal. The method of claim 1, wherein the synchronization protocol transmits and receives a synchronization frame, wherein the synchronization frame is configured in a pattern including a unique identifier for synchronization. The method of claim 1, wherein the first terminal sends the same synchronization frame to the second terminal after receiving the synchronization frame from the second terminal. The method of claim 1, wherein the second terminal periodically sends the synchronization frame to the first terminal.

Images