JPH0955926A - Video information supply system and encoding control information generation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain optimum display resolution adjusted to the visual characteristic of humans when the display screen size and the visual distance of a display device is varied, to hold necessary and sufficient picture quality, to suppress unnecessary code transmission and to realize economic video information supply. SOLUTION: A video information supply system consists of an encoding device 1 encoding video information and a decoding device 3 receiving, decoding and displaying encoded video information. The decoding device 3 consists of a display screen size information generation part 7 generating display screen size information, a visual distance information generation part 8 generating visual distance information and an encoding control information generation part 9 generating encoding control information based on display screen size information and visual distance information. The encoding device 1 consists of an encoding part 4 encoding inputted video information in accordance with an encoding parameter value and an encoding control part 5 deciding the encoding parameter value in accordance with encoding control information transmitted from the decoding device 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video-on-demand system having a coding device for coding and transmitting video information and a decoding device for receiving, decoding and displaying the coded video information. Such as the video information providing system.

[0002]

2. Description of the Related Art It is known that the relationship between the display screen size and display resolution of a display device and the viewing distance, that is, the distance between the screen and an observer has an optimum relationship according to human visual characteristics. In the conventional video information providing system, the encoding resolution is fixedly set regardless of the display screen size and the viewing distance of the display device.

[0003]

Therefore, when a person views the display screen closely, the resolution is insufficient for a short viewing distance, and a satisfactory image quality cannot be obtained. When viewed at a distant position, the resolution becomes unnecessarily large for a long viewing distance, and an unnecessarily large amount of code is transmitted, which is uneconomical. The above is a problem caused by the perspective of the observer's viewing position with respect to the screen with a fixed display size, but this is a problem caused by the relative relationship between the display screen size and the viewing position. Even if it is constant, it may occur when the display size is arbitrarily changed like a video window in a computer screen display or when both the display screen size and the viewing distance are changed.

An object of the present invention is to obtain an optimum display resolution in accordance with human visual characteristics when the display screen size or viewing distance of the display device changes, and to maintain necessary and sufficient image quality. Another object of the present invention is to provide a video information providing system and an encoding control information generating method that realizes economical video information provision by suppressing unnecessary code transmission.

[0005]

In the video information providing system of the present invention, the decoding device has coding control information generating means for generating coding control information using the display screen size and the viewing distance as parameters, The encoding device has an encoding parameter value changing means for changing the encoding parameter value of the video information according to the encoding control information.

According to a second aspect of the present invention, the encoding control information generating means has a timer, the timer is started when either or both of the display screen size and the viewing distance are changed, and then the display screen size and the viewing distance are changed. The coding control information is generated when the state in which both do not change continues until a predetermined time is exceeded.

In the third aspect, the coded information generating means has means for predicting the future display screen size and the visual distance from the past display screen size and the visual distance, and the present display screen size and the visual distance. By predicting the value at the time when the change is stopped while the display screen size and / or the viewing distance are being changed, the coding control information is generated before the change is stopped. The encoding control information generation method according to claim 4, wherein a reading step of reading the values of the display screen size and the viewing distance, a comparing step of comparing the read values of the display screen size and the viewing distance with respective current values, and displaying If there is no change in both the screen size and the viewing distance value, the process returns to the reading step, and if there is a change in either or both of the display screen size and the viewing distance value, the current value of the changed information is read. And an updating step of updating with, and a calculating step of calculating the coding control information based on the current values of the display screen size and the viewing distance, and then returning to the reading step.

According to a fifth aspect of the encoding control information property method, the first reading step of reading the values of the display screen size and the viewing distance, and the reading of the display screen size and the viewing distance as the respective current values. If there is no change in both the display screen size and the viewing distance value, the process returns to the first reading step and if there is a change in either or both of the display screen size and the viewing distance value. A first updating step of updating the current value of the changed information with the read value, a counter resetting step of resetting the counter value of the timer to 0, and a second reading step of reading the values of the display screen size and the viewing distance. A reading step, a second comparison step of comparing the read display screen size and viewing distance values with the current values, and a change in either or both of the display screen size and viewing distance values Ah The second update step of updating the current value of the information with the read value and returning to the counter reset step, and if there is no change in both the display screen size and the viewing distance, update the counter value And the counter value is compared with the set value, and if it is less than the set value, it returns to the second reading step. There is a calculation step of calculating the coding control information based on the value of and returning to the first reading step.

According to a sixth aspect of the encoding control information property method, a reading step of reading the values of the display screen size and the viewing distance,
The comparison step of comparing the read display screen size and viewing distance values with the respective current values, and if there is no change in the display screen size and viewing distance values, return to the reading step described above to display the display screen size and viewing distance. If either or both of the values change, a step of calculating a difference value that is the degree of change of the changed information, and an updating step of updating the current value of the changed information with the read value, There is a step of calculating coding control information based on the display screen size, the current value of the viewing distance, and the difference value.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION The video information providing system of the present invention generates coding control information by using a display screen size and a viewing distance as parameters, and a decoding device determines a coding parameter value according to the coding control information. The video information is encoded.

According to the second and fifth aspects of the invention, the encoding control information is generated when the value of one or both of the display screen size and the viewing distance changes and then the state where these values do not change continues for a certain time. This is to prevent the display resolution from being frequently changed and making the screen difficult to see.

According to claims 3 and 6, the value when the change is stopped while one or both of the display screen size and the viewing distance is changing is predicted, and the coding control information is provided before the change is stopped. By generating, if the system reaction speed is slow and the encoding process takes a long time, the encoding is performed in advance with the future predicted value, and the display resolution is adjusted without delay from the change of the display screen size. It was changed.

[0013]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a block diagram of a video information providing system according to an embodiment of the present invention.

In this embodiment, video information generated from a camera, a VTR device, a magnetic disk device or the like is coded by a coding device 1, transmitted to a decoding device 3 via a transmission line 2, and then decoded by the decoding device 2. The video information is decoded, reproduced, and displayed.

The encoding device 1 encodes the input video information according to the encoding parameter value, and the code for determining the encoding parameter value according to the encoding control information sent from the decoding device 3. The encoding control unit 5 and the transmission / reception control unit 6 for transmitting the encoded video information to the decoding device 3 and receiving the encoding control information transmitted from the decoding device 3.
It is composed of Here, the “encoding parameter value” is the number of images when sampling the analog input video,
The quantization size per image, the number of frames (the number of frames) per second, and the like.

The decoding device 3 uses a display screen size information generating section 7 for generating display screen size information, a visual distance information generating section 8 for generating visual distance information, and a code based on the display screen size information and the visual distance information. An encoding control information generator 9 for generating encoding control information, and transmitting the encoding control information to the encoding device 1.
A transmission / reception control unit 10 that receives encoded video information from the encoding device 1, a decoding unit 11 that decodes the encoded video information, and a display unit 1 that displays the decoded video information.
It is composed of two. The encoding control information generation unit 9 can be realized by a general-purpose arithmetic unit (CPU) and a known means such as a storage program.

The encoding control information generating section 9 and the encoding control section 5 respectively constitute the encoding control information generating means and the encoding parameter value changing means of claim 1.

Here, the display screen size information is, for example, the length of a diagonal line of the display screen of the display unit 12, and the visual distance information is the linear distance between the observer and the display screen. The display screen size information may be stored in advance in a ROM or the like when the size is fixed such as in a TV monitor, or when the size can be arbitrarily changed like the video window of a personal computer. May be detected and set by reading the output of a change instruction input device such as a mouse. The viewing distance information is stored in the ROM when the observation position is fixed.
It may be stored in advance, etc., or if the value fluctuates due to movement of the observer or display device, it may be detected and set by a known distance measuring means such as an infrared ray or ultrasonic sensor. Good. The coding control information is, for example, a value calculated according to the following equation D = 6S / H (1). Here, S is the length of the diagonal line of the display screen (the vertical to horizontal ratio of the screen is 3: 4),
It is the largest one among those displayed simultaneously on a plurality of display devices. H is a linear distance from the display screen to the position of the eyes of the observer, and when there are a plurality of observers, it is the smallest of them, and D is a relative ratio when 480 vertical pixels x 720 horizontal pixels are used. is there.

FIG. 2 is a flowchart showing an operation example (corresponding to claim 4) of the encoding control information generating section 9.

First, the display screen size information S and the viewing distance information H are read (step 21) and compared with the values read immediately before, that is, the current respective values (step 2).
2). If there is no change in S and H, the reading is repeated. If one or both of S and H changes, the current values of those changes are updated with the read values (steps 23 to 25), and the calculation of equation (1) is performed to perform coding control information. D is calculated (step 26), and this is output to the transmission / reception control unit 10 (step 27).

As described above, when at least one of S and H changes, the current values are updated with the read values to calculate the encoding control information D. This coding control information D is sent to the coding control unit 5 via the transmission path 2 and the transmission / reception control unit 6. The encoding control unit 5 determines the encoding parameter value according to the encoding control information D, the encoding unit 4 encodes the video information according to this parameter value, and sends it to the decoding device 3 via the transmission / reception control unit 6.

FIG. 3 is a flow chart showing another operation example (corresponding to claims 2 and 5) of the encoding control information generator 9. In this case, the coding control information generator 9 has a timer built therein.

First, the display screen size information S and the viewing distance information H are read (step 31) and compared with the values read immediately before, that is, the current respective values (step 3).
2). If there is no change in S and H, the reading is repeated. If one or both of S and H changes, the current values of those changes are updated with the read values (steps 33 to 35), and the following operation is performed. First, the value of the counter T of the timer is reset to 0 (step 3
6). Next, read the latest S and H values (step 3
7) The value read immediately before, that is, the current value is compared (step 38). If there is a change in one or both of S and H, the current values that have changed are updated with the read values (steps 39 to 41), and the value of the counter T of the timer is reset to 0. (Step 3
6) Read the latest S and H values (step 37),
Repeat the following steps. If there is no change in both S and H, 1 is added to the value of the counter T (step 4
2). The value of the counter T is compared with a preset T1 (step 45), and if smaller than T1, the values of S and H are read (step 37), and the following steps are repeated. When the value of the counter T is T1 or more, the calculation of the equation (1) is performed to calculate the coding control information D (step 4
4) and outputs this to the transmission / reception control unit 10 (step 4)
5).

After one or both values of S and H have changed in this way, the coding control information D is output when there is no change in T1, S, and H for a certain period of time.

FIG. 4 is a flow chart showing still another operation example (corresponding to claims 3 and 6) of the encoding control information generator 9.

First, the display screen size information S and the viewing distance information H are read (step 51) and compared with the values read immediately before, that is, the current values (step 5).
2). If there is no change in both the S and H values, the reading is repeated. If one or both of S and H changes,
The degree of change (difference value) ΔS, ΔH is calculated as the latest S
Value or H value and current S value or H value to future S value
After the values or H values are calculated by linear extrapolation (steps 53, 54, 55), those changed values are updated to the read values (steps 56, 57, 5).
8), when the values of S and H both change, the coding control information D is calculated by performing the following equation D = 6 (S + ΔS) / (H + ΔH) (2) 5
9) If only the value of S changes, the following equation D = 6 (S + ΔS) / H (3) is calculated to calculate the coding control information D (step 6
0) and when only the value of H changes, the following control equation D = 6S / (H + ΔH) (4) is calculated to calculate the coding control information D (step 6
1), and outputs this to the transmission / reception control unit 10 (step 6)
2).

As described above, when one or both values of S and H change, the future value of S or H is predicted and the coding control information D is output.

[0029]

As described above, the present invention has the following effects. (1) According to the inventions of claims 1 and 4, satisfactory image quality can always be obtained regardless of changes in screen size and viewing distance, and unnecessary code transmission can be reduced to provide economical video information. to enable. (2) According to the inventions of claims 2 and 5, it is possible to prevent an increase in the nuisance of the screen due to the display resolution being changed more frequently than necessary. (3) The inventions of claims 3 and 6 make it possible to change the display resolution without delay when the reaction speed of the system is slow.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a video information providing system according to an embodiment of the present invention.

FIG. 2 is a flowchart showing an operation example of an encoding control information generation unit 9.

FIG. 3 is a flowchart showing another operation example of the encoding control information generating unit 9.

FIG. 4 is a flowchart showing still another operation example of the encoding control information generating unit 9.

[Explanation of symbols]

 1 Encoding Device 2 Transmission Channel 3 Decoding Device 4 Encoding Unit 5 Encoding Control Unit 6 Transmission / Reception Control Unit 7 Display Screen Size Information Generation Unit 8 Viewing Distance Information Generation Unit 9 Encoding Control Information Generation Unit 10 Transmission / Reception Control Unit 11 Decoding Unit 12 display units 21-27, 31-45, 51-62 steps

Claims (6)

[Claims] 1. A video information providing system having a coding device for coding and transmitting video information and a decoding device for receiving, decoding and displaying the coded video information, wherein the decoding device is a display screen. A coding parameter value for generating coding control information using size and viewing distance as parameters, wherein the coding device changes a coding parameter value of video information according to the coding control information. A video information providing system having a changing unit. 2. The encoding control information generating means has a timer, the timer is started when either or both of the display screen size and the viewing distance change, and then both the display screen size and the viewing distance change. The video information providing system according to claim 1, wherein the encoding control information is generated when the state of not performing continues for more than a predetermined time. 3. The encoded information generating means has means for predicting a future display screen size and a visual distance from a past display screen size and a visual distance, and a present display screen size and a visual distance, The video information provision according to claim 1, wherein the encoding control information is generated before the change is stopped by predicting a value when the change is stopped while one or both of the screen size and the viewing distance are changing. system. 4. A reading step of reading the values of the display screen size and the viewing distance, a comparing step of comparing the read values of the display screen size and the viewing distance with respective current values, and a value of the display screen size and the viewing distance. If there is no change in both, the process returns to the reading step, and if there is a change in either or both of the display screen size and the viewing distance value, an updating step of updating the current value of the changed information with the read value, A coding control information generation method having a calculation step of returning to the reading step after calculating the coding control information based on the current values of the display screen size and the viewing distance. 5. A first reading step of reading the display screen size and the viewing distance value, a first comparing step of comparing the read display screen size and the viewing distance value with the respective current values, and a display screen. If there is no change in both the size and the viewing distance value, return to the first reading step, and if there is a change in either or both of the display screen size and the viewing distance value, read the current value of the changed information. The first update stage of updating the counter value with a constant value, the counter reset stage of resetting the counter value of the timer to 0, the second reading stage of reading the display screen size and viewing distance values, and the read display screen size and visual In the second comparison step that compares the distance value with each current value, and if there is a change in either or both of the display screen size and the viewing distance value, the current value of the changed information is read. A second updating step of returning to the counter resetting step, a counter value updating step of incrementing the counter value if both the display screen size and the viewing distance value do not change, and a counter value of the set value If it is less than the set value, it returns to the second reading step and the counter value comparison step is performed. A coding control information generation method comprising a calculation step of calculating and returning to the first reading step. 6. A reading step of reading the values of the display screen size and the viewing distance, a comparing step of comparing the read values of the display screen size and the viewing distance with respective current values, and a value of the display screen size and the viewing distance. If there is no change in both, the process returns to the reading step, and if there is a change in either or both of the display screen size and the viewing distance value, a difference value that is the degree of change in the changed information is calculated. Coding control information including an updating step of updating the current value of the information that has been read with the read value, and a step of calculating the coding control information based on the difference value and the current value of the display screen size and the viewing distance Generation method.