KR100985982B1 - Video communication terminal and video communication method using network quality analysis - Google Patents

Abstract

The present invention relates to a video call terminal and a video call method using quality analysis of a network. The video call terminal according to the present invention comprises: a video converter for converting user's video data; A voice converter for converting voice data of the user; A transmission unit which transmits the converted video data and audio data to a call counterpart; A quality analyzer for analyzing a quality of a communication network; And a data format adjusting unit for adjusting a data conversion format of the image converter and the voice converter based on the quality analysis result of the quality analyzer. In the case of video call, considering the wireless quality of the communication network, the size and amount of transmission data are variably applied to improve the stability and quality of the video call. In addition, the video call terminal according to the present invention further comprises a rate adjusting unit for adjusting the transmission rate according to the change of the video and audio data, and minimizes the power usage of the video call terminal through the optimal data transmission during the video call Minimize the amount of data to minimize the burden on the communication network to increase wireless capacity.

Video call, video call, wireless quality, scaling

Description

VIDEO COMMUNICATION TERMINAL AND VIDEO COMMUNICATION METHOD USING NETWORK QUALITY ANALYSIS}

The present invention relates to a video call service, and more particularly, to a video chat system for providing a chat service during a video call and a method for providing a video chat service.

With the development of mobile communication technology, people can carry a mobile terminal and use voice calls on the go regardless of place. Recently, a video call service that provides a call away from a voice call and looking at the other party's face has been provided.

The quality of video and audio transmitted to the other party in the video call service is greatly affected by the wireless quality of the mobile communication network. When a video call is made at a point where wireless quality is not good, most of the video and audio transmitted to the other party are lost in the wireless section before the other party finally receives it, so the quality of the video and audio output to the other party is drastically deteriorated. .

The present invention has been proposed to solve the above problems, and the video call terminal and the video in the video call terminal to minimize the degradation of the video call quality in consideration of the quality of the communication network during the video call at the point of poor quality of the communication network The purpose is to provide a call method.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to the present invention for achieving the above object, a video call terminal comprises a video converter for converting the user's video data; A voice converter for converting voice data of the user; A transmission unit which transmits the converted video data and audio data to a call counterpart; A quality analyzer for analyzing a quality of a communication network; And a data format adjusting unit for adjusting a data conversion format of the image converter and the voice converter based on the quality analysis result of the quality analyzer.

In addition, the video call method according to the present invention for achieving the above object comprises the steps of analyzing the quality of the communication network; Adjusting the data conversion format based on the quality analysis result; Converting input image data and audio data according to the adjusted data conversion format; And transmitting the converted video data and audio data to a call counterpart.

As described above, the present invention improves the stability and quality of a video call by variably applying the size of the video data and the amount of transmission data in consideration of the wireless quality of the communication network. In other words, video data transmission suitable for wireless quality of communication network improves the stability of video call service, and the optimal data transmission during video call minimizes the power usage of video call terminal, and also minimizes the amount of data transmitted Increases wireless capacity by minimizing the burden on the network.

The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: There will be. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of a video call terminal according to an embodiment of the present invention.

As shown in FIG. 1, the video call terminal 100 according to the present embodiment includes a video input unit 101, an audio input unit 102, an image codec 103, an audio codec 104, and a multiplexer 105. , A transmitter 106, a radio quality analyzer 107, and a data format adjuster 108. In FIG. 1, only the video data transmitting end of the video call terminal 110 is illustrated. As the image data receiving end, a commonly known configuration may be adopted.

The image input unit 101 receives image data of a user photographed by an external camera or a built-in camera, and the voice input unit 102 receives voice data of the user through a microphone.

The image codec 103 converts and outputs image data input through the image input unit 101 through image processing such as encoding, and the audio codec 104 encodes audio data input through the voice input unit 102. Voice processing is converted and output. At this time, the video codec 103 and the audio codec 104 convert the video data and the audio data based on the data format information received from the data format adjustment unit 108.

The multiplexer 105 muxes the video data and the audio data converted by the video codec 103 and the audio codec 104, and outputs the multiplexed data to a communication network. send.

The wireless quality analyzer 107 analyzes the wireless quality of the point where the video call terminal 110 is currently located. The radio quality index is RSSI (Received Signal Strength Indication), Ec / Io, Block Error Rate (BLER), or the like. The radio quality analysis unit 107 outputs the radio quality analysis result to the data format adjustment unit 108. The radio quality analyzer 107 outputs a radio quality value according to the combination result of the radio quality index to the data format adjuster 108. Examples of wireless quality values according to the combination result of the wireless quality index are shown in Table 1 below.

Wireless quality value RSSI Ec / Io BLER One -80 dB or more -5 dB or more below 10 2 -90 dB or more -10 dB or more 20% less than 3 -100 dB or more -15 dB or more 30% less than 4 Less than -100dB Less than -15dB Greater than 30%

The data format adjusting unit 108 adjusts the data conversion formats of the video codec 103 and the audio codec 104 based on the wireless quality analysis result output from the wireless quality analyzing unit 107. More specifically, the data format adjusting unit 108 adjusts a sampling rate, that is, data size per second, of the video codec 103 and the audio codec 104 according to a wireless quality analysis result. When the wireless quality is good, the sampling rate is increased to convert to high quality / high quality, and when the wireless quality is poor, the sampling rate is reduced to convert to low quality / low quality. An example of controlling data conversion of the video codec 103 and the audio codec 104 according to the wireless quality analysis result is shown in Table 2 below.

Wireless quality value Video codec (based on H263 codec) Voice codec (based on AMR codec) One 64 kbps 12.2 kbps 2 56 kbps 7.95 kbps 3 48 kbps 5.9 kbps 4 40 kbps 4.75 kbps

When a video call is made through the video call terminal 100 of the present invention, if the current location is poor in the wireless environment, the video call terminal 100 intelligently analyzes the wireless quality of the wireless environment and based on the video. The data and voice data are variably converted to high quality / high quality or low quality / low quality to be transmitted to the call counterpart. Therefore, the video data and the audio data are prevented from being lost in the wireless section during the video call, thereby enabling a high quality video call.

2 is a flowchart illustrating a video call method according to an embodiment of the present invention.

Referring to FIG. 2, when a video call is started (S201), the video call terminal 100 receives a user's video through a camera provided in the video call terminal 100 and receives a user's voice through a handset. (S203).

At the same time as the video call is started, the video call terminal 100 measures and analyzes the wireless quality of the area where the video call is currently located (S205), and converts the format of the video data and the format of the audio data according to the analyzed result of the wireless quality analysis. (S207).

The video call terminal 100 measures the signal strength of the currently connected base station to analyze the radio quality and converts the input video and audio data according to the analysis result of the video codec 103 and the audio codec 104. Adjust the data conversion format. If the wireless quality is good, it is set to a high quality / high quality data conversion format. If the wireless quality is poor, it is set to a low quality / low quality data conversion format.

After receiving the video data and the audio data in this way, and after the video and audio conversion format is set, the video call terminal 100 converts the input video data and audio data according to the set data conversion format (S209). The conversion here means digital signal processing such as encoding or the like.

The video call terminal 100 multiplexes the converted video data and audio data (S211), and transmits the multiplexed multiplexed data to the call counterpart (S213). As described above, the video call terminal 100 performs the video call and checks whether the video call is terminated (S215). When the video call ends, the above-described process is completed, and if the video call is not terminated, the above-described process is repeatedly performed. do. That is, the video call terminal 100 analyzes the radio quality of the communication network in real time and reflects it in the conversion of the video data and the audio data, thereby preventing the loss of the video data and the audio data even when the wireless environment is rapidly deteriorated.

3 is a diagram showing the configuration of a video call terminal according to another embodiment of the present invention. In FIG. 3, the same reference numerals as in FIG. 1 perform the same functions, and thus descriptions thereof will be omitted.

Unlike FIG. 1, the video call terminal 300 referring to FIG. 3 further includes a data change analyzer 301 and a data rate adjuster 303.

The data change analyzer 301 monitors output data of the image codec 103 and the audio codec 104 and compares the output data with the previously transmitted image data and audio data. That is, the data change analyzer 301 compares the previously transmitted video data and audio data with the currently transmitted video data and audio data. The data change analyzer 301 outputs the change result of the image data and the audio data to the data ratio adjuster 303. The change analysis of the image data and the audio data is performed through histogram analysis or Fourier transform method for each frequency band of the data.

The data change analyzer 301 may express the output result of the change of the image data and the audio data as 2 bits. An example of the 2-bit case for the change result is shown in Table 3 below.

For video and audio changes Output value for change result Change both video and audio 11 Only video changes 01 Only voice changes 10 No change in both video and audio 00

The above example is a result of confirming whether the previously transmitted video data and audio data are exactly the same as the currently transmitted video data and audio data. In addition, the rate of change of the video data and audio data may be expressed and output in two or more bits.

The data ratio adjusting unit 303 multiplexes the video data and the audio data output from the video codec 103 and the audio codec 104 based on the rate of change of the video data and the audio data output from the data change analyzer 301. The rate of delivery to the part 105 is adjusted.

When the change result as shown in [Table 3] is transmitted, the data ratio adjusting unit 303 outputs the video data and the audio data output from the video codec 103 and the audio codec 104 according to the following ratio as shown in Table 4 below. It is transmitted to the multiplexer 105.

Output value for change result Voice data Image data 11 100% 100% 01 0% 100% 10 100% 0% 00 0% 0%

That is, the data ratio adjusting unit 303 does not have a ratio of the unchanged video data or audio data to the multiplexer 105, and transfers the changed video data or audio data to the multiplexer 105 at 100%. .

Unlike the example of [Table 3], when the rate of change of the video data and the audio data is transmitted as a result of the change, the data rate adjusting unit 303 compares the rate of change of each of the video data and the audio data with a predetermined threshold value, and then the threshold value. Image data or audio data having a small change rate is not transmitted to the multiplexer 105, and image data or audio data having a change rate larger than a threshold value is transmitted to the multiplexer 105.

The multiplexer 105 multiplexes and outputs the video data and / or audio data adjusted and output by the data rate adjuster 303, and the transmitter 106 transmits the multiplexed data to the call counterpart. Therefore, the same video is prevented from being repeatedly transmitted to the call counterpart unnecessarily, and silence data without audio is unnecessarily transmitted to the call counterpart so as to occupy radio resources.

The video call terminal 300 according to the present embodiment variably converts the video data and the audio data into high quality / high quality or low quality / low quality according to the wireless quality analysis and transmits them to the call counterpart as well as the rate of change of the video data and the audio data. Accordingly, only the actual video data and audio data are transmitted to the call counterpart, thereby improving power consumption of the video call terminal 300 and reducing interference with other users on the wireless network, thereby improving wireless quality.

4 is a flowchart illustrating a video call method according to another embodiment of the present invention.

Referring to FIG. 4, when a video call is started (S401), the video call terminal 300 receives a user's video through a camera provided in the video call terminal 300 and receives a user's voice through a handset. (S403).

At the same time as the video call is started, the video call terminal 300 measures and analyzes the wireless quality of the area where the video call is currently located (S405), and the conversion format of the video data and the conversion format of the audio data according to the analyzed wireless quality analysis result. Is set (S407).

The video call terminal 300 measures the signal strength of the currently connected base station to analyze the radio quality and converts the input video data and the audio data according to the analysis result of the video codec 103 and the audio codec 104. Adjust the data conversion format. If the wireless quality is good, it is set to a high quality / high quality data conversion format. If the wireless quality is poor, it is set to a low quality / low quality data conversion format.

After receiving the video data and the audio data as described above, and the video and audio conversion format is set, the video call terminal 300 converts the input video data and audio data according to the set data conversion format (S409). The conversion here means digital signal processing such as encoding or the like.

The video call terminal 300 compares the converted video data and the audio data with the previously transmitted video data and the audio data (S411) and determines whether the video data has been changed (S413). The change in data is determined based on the change between two samples, such as histogram analysis or Fourier transform for each frequency band of the data. After the video call starts, it is determined that there is no video data and audio data previously transmitted, and after the video call continues, the video data and audio data previously transmitted and the video data and audio data currently waiting to be transmitted are determined. Compare with to determine if there is a change.

When any one of the video data and the audio data to be transmitted is not changed compared with the previously transmitted video data and the audio data, the video call terminal 300 adjusts the ratio of the video data and the audio data to be transmitted (S415). If the video data is not changed but only the audio data is changed, the ratio of the video data is 0% and the ratio of the audio data is 100%. Alternatively, if the video data is changed but the audio data is not changed, the ratio of the video data is 100% and the ratio of the audio data is 0%. In other words, the percentage of unchanged data is 0% and the percentage of changed data is 100%.

The video call terminal 300 multiplexes the output video data and the audio data and transmits the multiplexed multiplexed data to the call counterpart when there is a change in the ratio-adjusted video data and audio data or the result data determined in step S413. (S417). In this way, the video call terminal 300 performs a video call and checks whether the video call is terminated (S419). When the video call ends, the above-described process is completed, and when the video call is not terminated, the above-described process is repeatedly performed. do. That is, the video call terminal 300 analyzes the radio quality of the communication network in real time and reflects it in the conversion of the video data and the audio data, and also does not transmit the data which has not changed compared to the previously transmitted data to the call counterpart. In addition, even when the wireless environment suddenly worsens, the loss of video data and audio data is prevented, the power usage of the video call terminal 300 is improved, and the interference to other users on the wireless network is reduced to improve the wireless quality.

While this specification contains many features, such features should not be construed as limiting the scope of the invention or the claims. Also, the features described in the individual embodiments herein can be implemented in combination in a single embodiment. Conversely, various features described in a single embodiment herein can be implemented individually in various embodiments or in combination as appropriate.

Although the operations are described in a particular order in the drawings, they should not be understood as being performed in a particular order as shown, or in a sequence of successive orders, or all described actions being performed to obtain a desired result. . In certain circumstances, multitasking and parallel processing may be advantageous. In addition, it should be understood that the division of various system components in the above-described embodiments does not require such division in all embodiments. The program components and systems described above may generally be packaged in a single software product or multiple software products.

The method of the present invention as described above may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

1 is a view showing the configuration of a video call terminal according to an embodiment of the present invention.

2 is a flowchart illustrating a video call method according to an embodiment of the present invention.

3 is a diagram showing the configuration of a video call terminal according to another embodiment of the present invention.

4 is a flowchart illustrating a video call method according to another embodiment of the present invention.

Claims (8)

A video call terminal for transmitting video data and audio data of a user to a call counterpart in a predetermined data format, A data change analyzer configured to calculate a change rate of the image data and the audio data by analyzing changes of the previously transmitted image data and the audio data and the image data and the audio data currently waiting to be transmitted; A ratio adjusting unit for adjusting a transmission ratio of the video data and audio data currently waiting to be transmitted according to the rate of change of the video data and audio data calculated by the data change analyzer; And And a transmission unit which transmits the video data and audio data whose transmission rate is adjusted by the ratio adjustment unit to the call counterpart. The method of claim 1, A quality analyzer for analyzing a quality of a communication network; And And a data format adjusting unit for adjusting a data format of the video data and the audio data based on a quality analysis result of the quality analyzing unit. delete The method of claim 2, The data format adjustment unit, And a sampling rate of the video data and the audio data. In the video call method of the video call terminal for transmitting the video data and audio data of the user to the call counterpart in a predetermined data format, Calculating a change rate of the image data and the audio data by analyzing changes of the previously transmitted image data and the audio data and the image data and the audio data currently waiting to be transmitted; Adjusting a transmission rate of the video data and audio data currently awaiting transmission according to the calculated change rate of the video data and audio data; And And transmitting the video data and audio data of which the transmission rate is adjusted to a call counterpart. The method of claim 5, Prior to calculating the rate of change, Analyzing the quality of the communication network; And And adjusting a data format of the video data and audio data currently awaiting transmission based on a quality analysis result. delete The method of claim 6, Adjusting the data format, A video calling method, characterized by adjusting a sampling rate for video data and audio data.

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