JP2005184749A - Video delay time measuring method, system and apparatus therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video delay time measuring method, system and apparatus therefor in which measuring work is automated and further a long-time measurement can be performed for reducing a time and a labor required for conventional manual work. <P>SOLUTION: A video signal with a reference video signal inserted therein is generated as a source image at least before or after the direction of time base of an evaluation video signal by a PC 11 of a source image generating device 10, and transmitted to a receiving terminal device 2 via the Internet 5. A video delay time measuring apparatus 20 captures the source image 61 that is displayed on the PC 11, and an image 62 to be measured that is displayed on the receiving terminal device 2, onto the same screen using a camera 21, detects the boundary of the evaluation video image and the reference video image in each of the source image 61 and the image 62 to be measured, from the quantities of information in video images, and calculates a time difference of the boundary between the source image 61 and the image 62 to be measured, thereby measuring a video delay time. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a video service system, and more particularly to a video delay time measurement method and system and apparatus associated with fluctuations in video signal encoding processing time and network transmission time in quality control for improving video service quality. It is.

  2. Description of the Related Art Conventionally, services have been provided in which video distribution companies distribute video to users via a network such as the Internet. In such a video distribution service, a video signal transmission delay occurs in the network, and the video quality may deteriorate. For this reason, in order for the video distributor to grasp the quality state of the video delivered to the user, particularly the video delay time, at the application level, it is necessary to visually measure the video frame difference.

  As one method of such measurement, for example, when measuring a video delay time associated with a change in video signal encoding processing time or network transmission time, an original image displaying a time code is used. And display the measurement target image obtained by passing the original image through a video delay unit such as an encoding processing circuit or a network on the same screen, and record the time code recorded on the recording medium as the original image. A technique is known in which each measurement target image is picked up and the difference is used as the video delay time.

In addition, as an original image, a video for raising the counter for each frame is created, and the original image and the measurement target image are displayed on the same screen for recording, and each counter value recorded on the recording medium is recorded. There is also known a technique of picking up and using the difference as a video delay time. Both of these methods were performed manually.
Katsuhiko Okazaki et al .: "Measurement of end-end delay of interactive video communication on the Internet", 2003 IEICE Communication Society Conference, B-11-19, 2003.9. Study on the effect of transmission delay on ATM public network (http://www.jgn.tao.go.jp/06-act/06-3/panel2001/G11029.pdf)

  As described above, in order to measure the video delay time due to the video encoding / decoding processing or the network transmission delay, the delay time has been conventionally measured by visual inspection. For this reason, when there are many measurement conditions such as the presence of a plurality of types of videos to be measured, the work of manually picking up the time code of the recording medium for each video requires time and effort. In particular, in order to measure the fluctuation state of the delay time, it is necessary to measure for a long time, and it is very difficult to pick up the time code by visual inspection at regular intervals because it takes time.

  The present invention has been made in view of the above-described problems, and the object of the present invention is to automate the measurement work and reduce the time and labor required for the conventional manual work as described above, and to measure for a long time. It is an object to provide a video delay time measuring method and system and apparatus for enabling the above.

  In order to achieve the above object, the present invention provides the video in the measurement target image having a video delay time with respect to the original image obtained by passing the original image generated by the original image generation device through the signal processing unit. When the delay time is measured by the video delay time measuring device, the original image generating device generates a video signal in which a reference video signal is inserted at least before and after the predetermined evaluation video signal in the time axis direction as the original image. And the video delay time measurement device acquires the original image that has passed through the signal processing unit as the measurement target image, and the original image on the same time axis as the measurement target image. And detecting a boundary between the evaluation image and the reference image in each of the acquired original image and the measurement target image on the same time axis, and the original image and the measurement target image The most important features to measure the video delay time by calculating the time difference of the boundary in respectively.

  In order for the video distribution company to grasp the quality state of the video delivered to the user, especially the video delay time at the application level, it was necessary to visually measure the video frame difference, but the video delay time measurement of the present invention By using the method or its system or apparatus, the video delay time can be automatically measured, the fluctuation of the video delay time can be measured in time series, and the video delay time can be measured in real time. It can contribute to quality improvement.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a video delay time measuring system according to an embodiment of the present invention. In the figure, 1 is a video delay time measuring system, 2 is a receiving terminal device, 3 is an Internet service provider (hereinafter referred to as ISP-A), 4 is an Internet service provider (hereinafter referred to as ISP-B), and 5 is a communication. The Internet as a network.

  The video delay time measurement system 1 includes an original image generation device 10 and a video delay time measurement device 20, and the original image generation device 10 includes a personal computer (hereinafter simply referred to as a PC) 11 that generates an original image, and A video camera (hereinafter simply referred to as a camera) 12 and a transmission terminal device 13 are included.

  The PC 11 generates an original image for measuring the video delay time and displays the original image on the display. As shown in FIG. 2, an original image 61 generated by the PC 11 is a reference video signal (hereinafter simply referred to as a reference video) before and after a predetermined evaluation video signal (hereinafter simply referred to as an evaluation video) 81 in the time axis direction. The time length of the evaluation video is set to T1, and the time length of the reference video 82 is set to T2. Each of the time lengths T1 and T2 is a time set so as to include a plurality of frames. In the present embodiment, the video frame is set to 33 ms. Further, the reference image 82 preferably has a constant signal level such as a gray signal or a black signal. In addition, an image obtained by connecting the reference image 82 to any one of the evaluation image 81 before and after the time axis direction may be used as the original image 61.

  The camera 12 captures an original image displayed on the display of the PC 11 and converts it into an electrical signal, and outputs the converted video signal to the transmission terminal device 13.

  The transmission terminal device 13 transmits the video signal input from the camera 12 to the reception terminal device 2 via ISP-A (3), the Internet 5, and ISP-B (4) in this order. The original image 61 generated by the PC 11 may be sent directly to the transmission terminal device 13 without going through the camera 12, or the PC 11 may have the function of the transmission terminal device 13. Further, the evaluation video 81 may include sound.

  The receiving terminal device 2 receives the video signal from the original image generating device 10 and displays the video represented by the video signal as a measurement target image on the display.

  The video delay time measuring device 20 includes a video camera (hereinafter simply referred to as a camera) 21, an information amount measuring device 22, a video delay time arithmetic processing device 23, and an output device 24.

  The camera 21 captures both the original image 61 displayed on the display of the PC 11 and the measurement target image 62 displayed on the display of the receiving terminal device 2 so as to enter the same screen, and converts this into an electrical signal. And output to the information amount measuring device 22 as a measurement video signal. As a result, it is only necessary that the information amount measuring device 22 is input with a video image in which the original image 61 and the measurement target image 62 are projected on the same screen 6 as shown in FIG. 3. For example, as shown in FIG. The video imaged at 21 may be recorded once by the recording device 25, and the recorded video image may be input to the information amount measuring device 22. Further, as shown in FIG. 5, the video signal of the original image 61 is input from the PC 11 to the personal computer 26 and the video signal of the measurement target image 62 is input from the receiving terminal device 2 to synthesize these videos and display the same screen. 6, an image in which the original image 61 and the measurement target image 62 are displayed may be created, the image synthesized in this way may be recorded by the recording device 25, and the recorded image may be input to the information amount measuring device 22.

  Based on the input video signal, the information amount measuring device 22 detects the level of information such as the level of the luminance signal of the video, the level of the waveform signal by the spectrum analyzer, or the level of both of these information. Information level data is output to the video delay time arithmetic processing unit 23. The information amount measuring device 22 determines whether the input video signal is a signal including only the reference video 82, whether the input video signal is a signal including the reference video 82 and the evaluation video 81, or a signal including two evaluation videos 81. Any device can be used as long as it can measure the amount of information that can be determined. Here, when the video signal input to the information amount measuring device 22 is a signal including the reference video 82 and the evaluation video 81, the original image 61 is the evaluation video 81 and the measurement target image 62 is the reference video 82. In some cases, the original image 61 is the reference image 82 and the measurement target image 62 is the evaluation image 81. Further, when the video signal input to the information measuring device 22 is a signal including two evaluation videos 81, the original image 61 is the evaluation video 81 and the measurement target image 62 is also the evaluation video 81.

  The video delay time arithmetic processing unit 23 is composed of a well-known personal computer and operates based on a video delay time arithmetic processing program installed in advance. The video delay time arithmetic processing unit 23 observes fluctuations in the amount of information input from the information amount measuring device 22 and is also an original. The video delay time of the measurement target image 62 with respect to the image 61 is calculated and output to the output device 24. That is, the video delay time calculation processing device 23 includes a video signal information amount threshold excess determination device 71 having a threshold determination table 72, a video signal information amount threshold excess determination function unit 73, and a frame number integrator 74. The video signal information amount threshold excess determination device 71 is configured by both hardware and software.

  The threshold determination table 72 includes a reference video threshold table 721, a reference video type designation unit 722, an evaluation video type threshold table 723, and a video type designation unit 724.

  The reference video threshold table 721 stores the information level L0 of the reference video 82 in association with the type of the reference video 82. In this embodiment, three types of “reference video 1”, “reference video 2”, and “reference video 3” are set in advance as the reference video 82 in the PC 11 and the reference video threshold table 721, and these reference videos are set. Which one of 82 is to be used can also be designated for the PC 11 by the reference video type designation unit 722 based on an instruction of an operator input via an input means such as a keyboard or a mouse. .

  The evaluation video type threshold table 723 is provided for each type of evaluation video provided in the PC 11, and each evaluation video type threshold table 723 includes an evaluation video 81 and a reference video 82 for each type of the reference video 82. The difference L1 of the video information amount level and the fluctuation range ΔL of the video information amount level of the evaluation video 81 are stored. In the present embodiment, the three types of reference video 82 can be used as described above. Therefore, in the threshold value table 723 for each evaluation video type, the types of the reference video 82 are “video 1”, “video 2”, “video 3”. The difference L1 and the fluctuation range ΔL are stored in correspondence with each other. Further, the PC 11 is provided with two or more types of evaluation images 81. Which of the plurality of evaluation images 81 is used is indicated by an operator input via an input means such as a keyboard or a mouse. Based on the above, the video type designation unit 724 can also designate the PC 11. Note that the number of types of the evaluation video 81 and the reference video 82 is not limited to the above, and a plurality of types may be appropriately provided and arbitrarily selected.

  The video signal information amount threshold excess determination function unit 73 uses the threshold L0, the difference L1, and the fluctuation width ΔL selected by the video signal information amount threshold excess determination device 71 to input the video input from the information amount measurement device 22. The video delay time of the measurement target image 61 with respect to the original image 61 is measured based on the information level data. In this embodiment, the video delay time is detected based on the number of video frames.

  That is, the video signal information amount threshold excess determination function unit 73 has a video information level input from the information amount measuring device 22 per unit time exceeding the reference video information amount level L0 to L1 and exceeding L0 to L1. If the fluctuation range of the signal is within ΔL, the counter of the frame number integrator 74 is incremented by one every unit time. Further, the video signal information amount threshold excess determination function unit 73 outputs the integrated value to the output device 74 to the frame number integrator 74 and resets the counter to 0 when the fluctuation width exceeds ΔL. Instruct. Here, the integrated value of the number of frames given from the frame number integrator 74 to the output device 74 corresponds to the video delay time. In this embodiment, since the unit time of one frame is 33 ms, a value obtained by multiplying this unit time by the frame number integrated value is the video delay time.

  Further, the video signal information amount threshold excess determination function unit 73 increments the counter of the frame number integrator 74 by one per unit time when the fluctuation range exceeds ΔL and then returns to within ΔL again from L1. When the video information amount level drops to L0, the frame number integrator 74 is instructed to output the integrated value to the output device 74 and reset the counter to zero. At this time, the integrated value of the number of frames given from the frame number integrator 74 to the output device 74 also corresponds to the video delay time.

  The output device 74 outputs the number of frames corresponding to the video delay time and the value of the video delay time calculated as described above by screen display or printing by a printer.

  Specifically, as shown in FIG. 7, the state of the input video to the information amount measuring device 22 changes, and five states occur in the reproduction of the original image 61 and the measurement target image 62. The first is a case where both the original image 61 and the measurement target image 62 are reference images 82 (A). Second, the evaluation image 81 starts to be reproduced in the original image 61, and the measurement target image 62 is still the reference image 82 (B). The third case is a case where the reproduction of the evaluation video 81 in the measurement target image 62 starts following the reproduction of the evaluation video 81 in the original image 61 (C). Fourthly, the reproduction of the evaluation video 81 in the original image 61 is completed to become the reference video 82, and the evaluation video 81 of the measurement target image 62 is still being reproduced (D). The fifth is a case where both the original image 61 and the measurement target image 62 become the reference video 82 (E). FIG. 8 is a graph showing these states with the elapsed time on the horizontal axis and the video information amount level on the vertical axis. Here, the video delay time can be measured by measuring the duration of the second (B) or fourth (D) state.

  FIG. 9 shows the parameters of the video information amount level necessary for video delay time measurement in correspondence with FIGS. As described above, L0 is the video information amount level of the reference video 82, and L1 is the difference between the video information amount levels of the evaluation video 81 and the reference video 82. ΔL is a fluctuation range of the video information amount level of the evaluation video 81. Here, when the first state (A) is changed to the second state (B), or the third state (C) is changed to the fourth state (D), the fluctuation range is within ΔL. Accumulate the number of frames.

  FIG. 10 is a graph showing the effectiveness of the video delay time measurement result in the present embodiment. The vertical axis represents the result of the number of video delay frames measured by this method and apparatus, and the horizontal axis represents the value of the number of video delay frames measured visually (manually). As can be seen from the figure, there is a strong correlation between the number of video delay frames measured using the measurement method and measurement apparatus in the present embodiment and the number of video delay frames obtained visually (manually). It can be seen that automatic measurement is possible without the need.

  11 and 12 show an example of a method for creating the original image 61 in accordance with the measurement purpose in the PC 11. An original image 61 shown in FIG. 11 is an original image used for periodically measuring the video delay time. The time length T1 of the evaluation video 81 and the time length of the reference video 82 such as a gray signal or a black signal are shown. The measurement unit time length can be set by T2, and it is possible to measure for a long time by generating the original image 61 in which the evaluation video 81 and the reference video 82 are repeated a plurality of times. An original image 61 shown in FIG. 12 is an example of an original image for observing a difference in video delay time due to a difference in video type (for example, a difference between a soccer video and a sea video, for example). A video delay time for each type of the evaluation video is measured by connecting the evaluation video 1 to the evaluation video 5 having different time lengths T1 with the reference video 82 having the predetermined time length T2 interposed therebetween to generate the original image 61. be able to. When such an original image is used, when the output device 74 displays the number of frames corresponding to the video delay time and the value of the video delay time calculated as described above, when these values are displayed on the screen or printed by a printer, these values are used. At the same time, the time and the type of evaluation video may be output simultaneously.

  Conventionally, when a video distribution company grasps the quality state of the video delivered to the user, it has been necessary to visually measure the video frame difference in order to grasp the video delay time at the application level. By using the video delay time measuring method or system or apparatus thereof according to the embodiment, the video delay time can be automatically measured, the fluctuation of the video delay time can be measured in time series, and further measured in real time. Is also possible. As a result, the time and labor required for the conventional manual work can be reduced, and measurement over a long period of time can be performed.

  In addition, this invention is not limited only to the structure of the said embodiment. For example, in the above-described embodiment, the case of measuring the video delay time due to the transmission delay when passing through the Internet 5 as the signal processing unit has been described as an example. For example, as illustrated in FIG. It goes without saying that the video delay time can be easily measured by the encoding processing device 91 that encodes the signal and the decoding processing device 92 that decodes the encoded signal.

  When measuring the relative delay time between reception points in a multipoint video conference, the relative delay time is easily measured by displaying the video of each reception point on the same screen and taking it into the information amount measuring device 22. be able to. Furthermore, when measuring the absolute delay time between the transmission point and reception point in a multipoint video conference, the original image transmitted from the transmission point and the measurement target image received at the reception point are displayed on the same screen. Thus, the absolute delay time at each reception point can be easily measured by taking it into the information amount measuring device 22. Needless to say, when each point is a remote place, the video delay time can be easily measured by recording at each point in synchronization with each other.

1 is a configuration diagram showing a video delay time measurement system according to an embodiment of the present invention. The figure explaining the structure of the original image in one Embodiment of this invention The figure which shows an example of the input image to the information amount measuring apparatus in one Embodiment of this invention The figure explaining the acquisition example of the input image | video to the information amount measuring apparatus in one Embodiment of this invention The figure explaining the acquisition example of the input image | video to the information amount measuring apparatus in one Embodiment of this invention The block diagram which shows the image | video delay time arithmetic processing apparatus in one Embodiment of this invention. The figure explaining the state change of the input image to the information amount measuring apparatus in one Embodiment of this invention The figure explaining the change of the video information amount level which the information amount measuring apparatus in one Embodiment of this invention outputs The figure explaining the parameter of the video information amount level required for video delay time measurement in one embodiment of the present invention The graph which showed the effectiveness of the video delay time measurement result in one embodiment of the present invention The figure which shows the other structural example of the original image in one Embodiment of this invention. The figure which shows the other structural example of the original image in one Embodiment of this invention. The figure which shows the example of a video delay time measurement of the encoding processing apparatus and decoding processing apparatus in one Embodiment of this invention

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Video delay time measuring system, 2 ... Receiving terminal device, 3 ... Internet service provider (ISP-A), 4 ... Internet service provider (ISP-B), 5 ... Internet, 6 ... Video screen, 61 ... Original image, 62 ... Image to be measured, 11 ... Personal computer (PC), 12 ... Video camera, 13 ... Transmission terminal device, 21 ... Video camera, 22 ... Information amount measuring device, 23 ... Video delay time arithmetic processing device, 24 ... Output device , 25 ... Recording device, 26 ... Personal computer, 71 ... Video signal information amount threshold excess determination device, 72 ... Threshold determination table, 73 ... Video signal information amount threshold excess determination function unit, 74 ... Frame number integrator, 81 ... Evaluation video, 82 ... reference video, 91 ... encoding processing device, 92 ... decoding processing device.

Claims (18)

Video for measuring the video delay time in a measurement target image having a video delay time with respect to the original image obtained by passing the original image generated by the original image generation device through the signal processing unit by the video delay time measurement device A delay time measuring method,
The original image generation device generates a video signal in which a reference video signal is inserted into at least one of the predetermined evaluation video signal before and after the time axis direction as the original image and passes the signal processing unit,
The video delay time measuring device includes:
While acquiring the original image that has passed through the signal processing unit as the measurement target image,
Obtaining the original image on the same time axis as the measurement target image;
By detecting a boundary between the evaluation video and the reference video in each of the acquired original image and the measurement target image on the same time axis, and calculating a time difference between the boundaries in the original image and the measurement target image. The video delay time measuring method, wherein the video delay time is measured. The video delay time measuring method according to claim 1, wherein the video delay time measuring device detects the boundary based on a change in a predetermined feature amount in a video signal. The video delay time measuring apparatus uses the video information amount level of at least one of a video luminance signal or a video wavelength signal detected by a spectrum analyzer as a feature amount of the video signal, The video delay time measuring method according to claim 2, wherein the boundary is detected on the basis of. 4. The original image generation apparatus generates and outputs an original image obtained by connecting two or more evaluation video signals with a reference video signal having a predetermined time length on a time axis. The video delay time measuring method according to any one of the above. The original image generation device generates and outputs an original image obtained by connecting evaluation video signals of two or more different video types with a reference video signal having a predetermined time length on a time axis. The video delay time measuring method according to claim 3. The video delay time measuring method according to claim 2 or 3, wherein the video delay time measuring device detects a feature amount of the video signal every predetermined time. The video delay time measuring apparatus acquires the original image and the measurement target image by capturing the original image displayed on a display device and the measurement target image with the same camera. 2. The video delay time measuring method according to 1. The video delay time measuring apparatus records the original image and the measurement target image captured by the camera, and measures the video delay time using the recording. Video delay time measurement method. Video for measuring the video delay time in a measurement target image having a video delay time with respect to the original image obtained by passing the original image generated by the original image generation device through the signal processing unit by the video delay time measurement device A delay time measuring system,
The original image generating device generates a video signal in which a reference video signal is inserted into at least one of the predetermined evaluation video signal before and after the time axis direction as the original image;
Means for outputting the generated original image to the signal processing unit,
The video delay time measuring device includes:
Means for acquiring the original image that has passed through the signal processing unit as the measurement target image;
Means for acquiring the original image on the same time axis as the measurement target image;
Means for detecting on the same time axis the boundary between the evaluation video signal and the reference video signal in each of the acquired original image and the measurement target image;
A video delay time measuring system comprising: means for measuring the video delay time by calculating a time difference between the boundaries of the original image and the measurement target image. Video for measuring the video delay time in a measurement target image having a video delay time with respect to the original image obtained by passing the original image generated by the original image generation device through the signal processing unit by the video delay time measurement device The original image generation apparatus in the delay time measurement system,
Original image generation means for generating, as the original image, a video signal in which a reference video signal is inserted in at least one of the predetermined evaluation video signal before and after the time axis direction;
An original image generation apparatus comprising: output means for outputting the generated original image to the signal processing unit. The said original image production | generation means is provided with the means to produce | generate and output the original image which connected the 2 or more evaluation video signal on the time-axis with the reference | standard video signal of predetermined time length. The original image generating device described in 1. The original image generating means includes means for generating and outputting an original image obtained by connecting evaluation video signals of two or more different video types with a reference video signal having a predetermined time length on a time axis. The original image generation apparatus according to claim 10. The original image generation apparatus according to claim 10, wherein the reference video signal is a video signal in which all signal levels have the same predetermined value. The original image generated by the original image generating device that generates a video signal in which the reference video signal is inserted at least before and after the predetermined evaluation video signal in the time axis direction as an original image is obtained through the signal processing unit. A video delay time measuring device for measuring the video delay time in a measurement target image having a video delay time with respect to the original image,
Measurement target image acquisition means for acquiring the original image that has passed through the signal processing unit as the measurement target image;
Original image acquisition means for acquiring the original image on the same time axis as the measurement target image;
Boundary detection means for detecting a boundary between the evaluation video signal and the reference video signal in each of the acquired original image and the measurement target image on the same time axis;
A video delay time measuring apparatus comprising: a time difference calculating means for calculating a time difference between the boundaries in each of the original image and the measurement target image. The video delay time measuring apparatus according to claim 14, wherein the boundary detection means includes means for detecting the boundary based on a change in a predetermined feature amount in the video signal. The boundary detection means detects the boundary based on a video information amount level of at least one of a video luminance signal or a video wavelength signal detected by a spectrum analyzer as a feature quantity of the video signal. The video delay time measuring device according to claim 15, further comprising: The video delay time measuring apparatus according to claim 15 or 16, wherein the boundary detection means includes means for detecting a feature amount of the video signal every predetermined unit time. A unit for generating a measurement video signal for displaying the original image and the measurement target image on the same screen from the acquired video signal of the original image and the measurement target image;
The time difference calculation means collects the feature quantities of the generated measurement video signal, and the video signal feature quantity per unit time with respect to a reference value (L0) of the video signal feature quantity of the reference video signal set in advance. Video delay while the fluctuation of the video signal exceeds the fluctuation threshold (L1) set in advance and the fluctuation of the video signal feature amount per unit time detected is within the fluctuation width (ΔL) of the video signal level. The video delay time measuring device according to any one of claims 15 to 17, further comprising means for determining the duration of the video delay and determining the duration of the video delay.

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