KR100760812B1 - Method for controlling image quality during video call - Google Patents

Abstract

According to the present invention, if a noise occurs on a video screen due to a communication failure during a video call, the image quality control method of requesting a counterpart terminal to control the color depth to adjust the image quality allows a better image quality to be provided. The mobile communication system of claim 1, wherein if a color depth adjustment request is received from a terminal user to adjust an image quality of an image received from the counterpart terminal while performing a video call with the counterpart terminal to which the video call is connected, the counterpart is transmitted through the mobile communication system. Requesting to adjust the color depth to the terminal; Preferably, the counterpart terminal adjusts the color depth by one step according to the color depth adjustment request, and transmits the image data to the terminal by performing image signal processing with the lowered color depth.

Video call, picture quality control, color sensitivity, video signal processing, video control flag

Description

How to adjust the quality of video calls {METHOD FOR CONTROLLING IMAGE QUALITY DURING VIDEO CALL}

1 is a schematic view showing a general video call connection structure.

2 is a view schematically illustrating a video call connection structure in which a method for controlling image quality in a video call according to the present invention is implemented;

3 is a flowchart illustrating a method of controlling image quality during a video call according to an embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

13, 33. image camera, 15, 35. video signal processing unit,

17, 37. Communications unit, 20. Mobile communication system

The present invention relates to a method for controlling image quality during a video call, and more particularly, to a method for controlling image quality during a video call using color depth.

As the popularity of mobile terminals has become more common, consumers are hoping that mobile terminals will provide more additional functions.

Accordingly, mobile terminals currently on the market not only provide a function for storing / managing personal information such as a phone number registration function, personal schedule management function, anniversary registration function, memo function, etc. It also provides picture and video recording functions.

As described above, the mobile communication terminal equipped with a camera can provide a video call service through a subject photographing function as well as a voice call service provided by a general mobile communication terminal.

1 is a road schematically illustrating a general video call connection structure, and a calling / receiving terminal A / B has a video camera that accepts an image and a fixed color depth at one pixel to perform a video call, respectively. Image signal processing and video coding with the number of colors that can be represented, where 1-bit color depth is 2 ¹ = 2 colors, 8-bit color depth is 2 ⁸ = 256 colors, and 16-bit color depth is 2 ¹⁶ = 65536 colors). And a video signal processing unit for transmitting the data, and a communication unit for transmitting data, the mobile communication system (e.g., base station, BSC / MSC, etc.).

An operation sequence for making a video call with reference to FIG. 1 is as follows.

First, the user of the calling terminal A selects the operation mode of the calling terminal A as the video call mode, and then attempts to make a video call to the called terminal B, which is the other party. When the video call between the called terminal B is connected, the calling / called terminal A / B transmits the image data acquired through the image camera to the mobile communication system through the video signal processing unit and the communication unit, and the image from the calling / called terminal A / B. The mobile communication system receiving the data transmits the received image data to the counterpart terminal.

As described above, the image signal processor processes the entire image received from the image camera at a fixed color depth and applies it to the communication unit. When a noise occurs in a call due to a communication failure, the conventional image signal processor may have a fixed color depth (eg, For example, image processing is performed only by 16 bits.

As described above, in the conventional video call, since the image data is image-processed and transmitted at a fixed color depth in the video signal processing unit, the amount of transmission data is large and the transmission time takes a long time. In particular, when noise occurs due to various communication problems, there is a problem that noise may be generated on the transmitted screen and may not be clear because image data processed by a fixed color depth is transmitted.

The present invention has been made to solve the above-mentioned problems, if the noise occurs on the video screen due to a communication failure during a video call, by requesting the other terminal to adjust the color depth to adjust the image quality, the screen of the better image quality It is an object of the present invention to provide a method for controlling image quality during a video call.

According to an embodiment of the present invention, an image quality control method for a video call is performed, while performing a video call with a counterpart terminal to which a video call is connected. Requesting a color depth adjustment to the counterpart terminal through a mobile communication system when a color depth adjustment request is authorized to control the color depth; Preferably, the counterpart terminal adjusts the color depth by one step according to the color depth adjustment request, and transmits the image data to the terminal by performing image signal processing with the lowered color depth.

Further, the color depth adjustment request process, if the color depth adjustment request is received from the terminal user to adjust the image quality of the image received from the terminal user while performing a video call with the other terminal connected to the video call, the color depth Setting the degree adjustment flag to '1' and transmitting it to the mobile communication system; And generating, by the mobile communication system, a color depth adjustment request message requesting color depth adjustment according to the reception of the color depth adjustment flag, and transmitting the generated color depth adjustment request message to the counterpart terminal.

The color depth control flag is preferably transmitted to the mobile communication system together with image data continuously transmitted from the image signal processor.

The color depth adjusting process may include: inquiring of the terminal user from the counterpart terminal whether to adjust the color depth according to the color depth adjustment request; If the inquiry results in the approval of the color depth adjustment, setting the color depth adjustment flag to '1' and transmitting it to the mobile communication system, and lowering the color depth by one step according to the color depth adjustment approval; And processing the video signal with the lowered color depth and transmitting the video signal to the terminal through the mobile communication system.

Further, when the color depth adjustment is not approved as a result of the inquiry, the color depth adjustment flag is set to '0' and transmitted to the mobile communication system, and the image signal is processed at the existing color depth and transmitted to the mobile communication system. It is preferable that the step further comprises a step.

If the color depth control flag is set to '1' in the mobile communication system receiving the color depth control flag transmitted from the counterpart terminal, a color depth control approval message is generated and transmitted to the terminal. Requesting the counterpart terminal to initialize the color depth control flag; If the color depth control flag is set to '0', it is preferable to further comprise the step of generating a color depth control rejection message to the terminal.

And displaying the received message on a screen by the terminal that has received the color depth control approval / rejection message transmitted from the mobile communication system; Preferably, the method further comprises decoding the image data received from the counterpart terminal through the mobile communication system and displaying the image data on the screen.

The terminal may further include initializing the color depth control flags at the terminal and the counterpart terminal according to the color depth control flag initialization request.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to a video quality control method according to a preferred embodiment of the present invention.

2 is a road schematically illustrating a video call connection structure in which a method for controlling video quality according to the present invention is implemented; a calling terminal A and a called terminal B are mobile communication systems (for example, a base station, a BSC / MSC, etc.) ( 20) a video call is connected.

The above-mentioned caller / receiver terminal A / B has a video camera 13/33 that accepts an image, and a video signal that performs video signal processing and video coding using the set color depth to perform a video call. A processing unit 15/35 and a communication unit 17/37 for transmitting data, wherein the mobile communication system 20 receives a data and a flag from the originating / receiving terminal A / B (not shown). And a transmitter (not shown) for transmitting data and messages to the originating / receiving terminal A / B.

3 is a flowchart illustrating a method of controlling image quality during a video call according to an embodiment of the present invention.

First, the calling terminal A attempts to make a video call to the called terminal B in the video call mode according to the key operation of the calling terminal A user (S10), and as a result of the video call originating attempt, the called terminal B responds to the video call. When the video call between the calling terminal A and the called terminal B is connected (S12), the calling / receiving terminal A / B has a color depth set based on the image data acquired through the video camera 13/33 (for example, 16-bit video signals are processed and transmitted to the counterpart terminal through the mobile communication system (for example, base station, BSC / MSC, etc.) 20 (S14).

The caller / receiver terminal A / B, which has received the image data transmitted from the counterpart terminal through the process S14, decodes the received image data and displays it on the screen display unit (not shown) (S16).

While performing a video call by transmitting and receiving image data through steps S14 and S16, when a communication error occurs, noise is generated in an image displayed on a screen display unit (not shown). If the amount of noise generated in the image displayed on the screen display (not shown) of the calling terminal A is excessive and the image transmitted from the called terminal B is not clear and cannot be viewed properly, the calling terminal A user adjusts the color depth with the called terminal B. Will execute the request.

That is, during the video call by transmitting and receiving image data through steps S14 and S16, the calling terminal A determines whether a color depth adjustment request is input from the calling terminal A user (S18).

When the color depth adjustment request is input as a result of the determination of step S18, the color depth control flag A_Flag is set to '1' to request the color depth control to the called terminal B (S20), and the color depth set to '1'. The degree control flag A_Flag is transmitted to the mobile communication system 20 through the communication unit 17 (S22).

When the color depth control flag A_Flag set to '1' is transmitted to the mobile communication system 20 in the process S22, the communication unit 17 performs color depth together with image data continuously transmitted from the image signal processing unit 15. The adjustment flag A_Flag is transmitted.

The color depth control flag A_Flag transmitted by the calling terminal A through the process S22 is received by the mobile communication system 20, and the mobile communication system 20 receives the color depth control flag A_Flag from the calling terminal A. When receiving (S24), generates a color depth adjustment request message requesting the color depth adjustment in response to the color depth adjustment flag (A_Flag) (S26), and transmits the generated color depth adjustment request message to the destination terminal B (S28).

When the destination terminal B receives the color depth adjustment request message transmitted by the mobile communication system 20 through the process S28, the destination terminal B receives the color depth adjustment request message from the mobile communication system 20. In operation S30, the terminal B user is inquired whether to approve the color depth adjustment according to the color depth adjustment request message, and the terminal B user is approved whether the color depth is adjusted (S32).

When the color depth adjustment is approved by the terminal user as a result of the inquiry in step S32, the color depth control flag B_Flag is set to '1' in order to notify the calling terminal A of the color depth adjustment approval (S34, S36). In operation S38, the color depth control flag B_Flag set to '1' is transmitted to the mobile communication system 20 through the communication unit 37.

In step S38, the communication unit 37 transmits a color depth control flag B_Flag together with image data continuously transmitted from the image signal processing unit 35.

After transmitting the color depth control flag B_Flag set to '1' to the mobile communication system 20 through the process S38, the image signal processing unit 35 of the destination terminal B adjusts the color depth according to the color depth control approval. Lowering one step (for example, assuming that the default color depth is 16 bits, the color depth can be reduced to 8 bits according to the color depth adjustment approval) (S40), and the image obtained through the image camera 33 The data is processed by the image signal at the color depth (for example, 8 bits) lowered in the process S40 and transmitted to the calling terminal A through the mobile communication system 20 (S42).

On the other hand, if the result of the inquiry in step S32 is not approved by the user of the color depth control, the color depth control flag (B_Flag) is set to '0' in order to inform the calling terminal A that the color depth control has been rejected ( S44) and transmits the color depth control flag B_Flag set to '0' to the mobile communication system 20 through the communication unit 37 (S46).

After transmitting the color depth control flag B_Flag set to '0' to the mobile communication system 20 through the process S46, the called terminal B transmits the image data acquired through the image camera 33 to the existing color depth ( For example, the video signal is processed in 16 bits and transmitted to the mobile communication system 20 (S48).

The color depth control flag B_Flag transmitted by the called terminal B through step S38 or S46 is received by the mobile communication system 20, and the mobile communication system 20 receives the color depth control flag from the called terminal B. When receiving (B_Flag) (S50), it is determined whether the color depth control flag (B_Flag) is set to '1', that is, whether the color depth control is approved (S52).

When the color depth control flag B_Flag is set to '1' as a result of the determination in step S52, a color depth control approval message for approving the color depth control is generated (S54), and the generated color depth control approval message is generated. Send to the calling terminal A (S56).

Thereafter, the mobile communication system 20 requests initialization of the color depth control flags A_Flag and B_Flag used for color depth adjustment to the originating / receiving terminal A / B (S58).

On the other hand, if the color depth control flag (B_Flag) is set to '0' as a result of the determination in step S52, generates a color depth control rejection message for rejecting the color depth control (S60), the generated color depth control The rejection message is transmitted to the calling terminal A (S62).

The color depth adjustment approval / rejection message transmitted by the mobile communication system 20 through step S56 or S62 is received by the calling terminal A, and the calling terminal A receives the color depth adjustment from the mobile communication system 20. When the / rejection message is received (S64), the received message is displayed on the screen display unit (not shown) so that the terminal A user can check (S66).

Subsequently, the calling terminal A receives the image data processed by the image signal at a color depth lowered by one step than the previous step through the process S42, or the image signal is processed and transmitted at the existing color depth through the process S48. Receive the received, decode the received image data and display on the screen display (not shown) (S68).

On the other hand, the originating / receiving terminal A / B initializes the color depth control flags A_Flag and B_Flag according to the color depth control flags A_Flag and B_Flag initialization request requested by the mobile communication system 20 through the process S58. (S70, S72).

As described above, when the image received from the calling terminal A is not clear, and the terminal A user requests the color depth adjustment at the request of the terminal A user, the called terminal B receives the color depth from the terminal B user according to the color depth adjustment request. When the color control is approved, the color depth is lowered by one level and the image signal is processed by the lowered color depth to transmit the image data to the calling terminal A. When the color depth is reduced by one level, the pixels are dropped. Since the size of the data is also reduced, the transmission time can be shortened, and the calling terminal A can view images with better image quality.

On the other hand, in response to the request for color depth adjustment at the calling terminal A, the destination terminal B lowers the color depth by one step and transmits the image signal by processing the video signal. Then, the destination terminal B lowers the color depth one more step to perform image signal processing to transmit image data.

However, even though the image signal is transmitted by lowering the color depth to the lowest 1 bit and transmitting image data, the terminal user may switch the call mode to the voice call mode if the shape is not recognizable due to the high noise level. .

The method of controlling image quality in a video call of the present invention is not limited to the above-described embodiment, and may be modified in various ways within the range allowed by the technical idea of the present invention.

According to the method of controlling the image quality during a video call as described above, when noise occurs on the video screen due to a communication obstacle during a video call, by requesting the other terminal to adjust the color depth, the image quality is better. You will be provided with a screen. By lowering the color depth, the transmission data amount can be reduced and the transmission time can be shortened.

Claims (8)

When a terminal having a video call with a counterpart terminal connected to a video call receives a color depth adjustment request for controlling image quality of an image received from the counterpart terminal, the color depth adjustment flag is set to '1'. Transmitting to a mobile communication system, which is an intermediate medium for maintaining a smooth video call with the counterpart terminal; Generating, by the mobile communication system, a color depth adjustment request message for requesting a color depth adjustment in response to the reception of the color depth adjustment flag; Inquiring, by the counterpart terminal, whether the color depth is adjusted from the counterpart terminal according to the color depth adjustment request; If the inquiry results in the approval of the color depth adjustment, setting the color depth adjustment flag to '1' and transmitting it to the mobile communication system, and lowering the color depth by one step according to the color depth adjustment approval; And processing the video signal with the lowered color depth and transmitting the video signal to the terminal through the mobile communication system. delete The method of claim 1, wherein the color depth adjustment flag, And image data continuously transmitted from a video signal processor to the mobile communication system. delete The mobile communication system of claim 1, wherein if the color depth adjustment is not approved as a result of the inquiry, the color depth adjustment flag is set to '0' and transmitted to the mobile communication system, and the image signal is processed at an existing color depth to perform the mobile communication. Quality control method for a video call, characterized in that it further comprises the step of transmitting to the system. The method of claim 1, wherein when the color depth control flag is set to '1' in the mobile communication system receiving the color depth control flag transmitted from the counterpart terminal, a color depth control approval message is generated and transmitted to the terminal. Requesting initialization of the color depth control flag from the terminal and the counterpart terminal; And if the color depth control flag is set to '0', generating a color depth control rejection message and transmitting the generated color depth control rejection message to the terminal. The method of claim 6, further comprising: displaying the received message on a screen by the terminal receiving the color depth control approval / rejection message transmitted from the mobile communication system; And decoding the image data received from the counterpart terminal through the mobile communication system and displaying the image data on the screen. The method of claim 6, further comprising: initializing the color depth control flags at the terminal and the counterpart terminal according to the color depth control flag initialization request.

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