JPH06125535A - Image data compression transmitting method - Google Patents

Abstract

PURPOSE:To control the data generated quantity of an image data compression device for normally generating data quantity which coincides the data rate of a transmission line. CONSTITUTION:The number of bits of the data stored in a buffer memory 12 from an image data compressor 11 is counted by counters 13, 14 for every frame, and a certain frame, the previous frame and the frame previous to the previous frame are recorded. The increase/decrease of the data quantity of these frames is discriminated and data generated quantity is controlled by a control means 15 according to the status. The difference of the difference of each frame and the proper value of buffer capacity is positively and negatively encoded and the generation of a control signal is enabled by the gate output by the code.

Description

Detailed Description of the Invention [Industrial applications]

The present invention relates to an image data compression transmission method used in an image compression apparatus or the like for multiplexing, compressing and transmitting encoded image data, and particularly controlling the generation amount of compressed data. It is about how to do it.

[0002]

2. Description of the Related Art In a video conference / telephone, etc., a method and apparatus for encoding an image signal, transmitting it as multiplexed and compressed image data, and decoding this image data to obtain an image signal are conceivable. Has become. As a standard for such image compression, CCITT Recommendation H.264. Standardization such as 261 is also in progress.

In the case of performing such image compression, when the data generation amount is measured in a unit time (for example, frame unit), as shown in FIG. 4, it largely changes depending on the image content (spatial frequency) and the image movement. To do.

Image data generated irregularly in this way cannot be directly output to a fixed-rate transmission line. Therefore, it is considered to arrange a transmission buffer memory at the output stage and smooth the image data so that the image data is output to the transmission line by a predetermined amount.

[0005]

Even if the output rate is smoothed by using the transmission buffer memory as described above, the amount of data per frame is constant, but the amount of data per unit time (for example, second) is fixed. Since the generation amount changes, it is necessary to control the data generation amount at the same time as smoothing.

The present invention provides a method for compressing and transmitting image data, which makes it possible to easily control the generation amount of image data accumulated in a buffer memory.

[0006]

According to the present invention, the increase / decrease of image data is discriminated by comparing it with the data generation amount of past frames, and the generation amount of image data is compared with the optimum capacity of the buffer memory. By controlling, the above-mentioned subject is solved.

That is, in the image data compression transmission method of storing coded and compressed image data in a buffer memory and sending a fixed amount of data to a transmission line, the amount of generated data stored in the buffer memory is counted. By counting the amount of generated data for each frame by means,
Record the counts of a certain frame, the previous frame and the previous frame, compare the counts and compare the data generation amount to determine the increase / decrease, and determine the count of the frame and the optimum value of the buffer memory capacity. Are compared with each other to determine a certain amount, and the generation amount of the image data is controlled according to the determination results.

Alternatively, in an image data compression transmission method in which encoded and compressed image data is stored in a buffer memory and a fixed amount of data is sent to a transmission line, the amount of generated data stored in the buffer memory is calculated for each frame. The recorded amount of generated data of a certain frame, the previous frame and the frame before two is recorded and the difference between them is generated to generate a signal according to the positive / negative sign, and the counted data generation of the frame is generated. It is characterized in that the difference between the amount and the optimum value of the capacity of the buffer memory is taken to generate signals according to the positive and negative signs, and the data generation amount control signal of the control means is obtained by these signals.

[0009]

The amount of data generated in the current frame and the previous frame, and the amount of data generated in the previous frame and the frame before the previous frame are counted, and the difference is used as a positive and negative encoded signal, and the difference between the current frame and the optimum capacity of the buffer memory is also calculated. The signal is similarly encoded.
These signals corresponding to the positive and negative signs increase the data generation amount and suppress the data generation amount when it exceeds the capacity optimum value, and increase the data generation amount in the opposite case.

[0010]

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

FIG. 1 is a block diagram showing an embodiment of the present invention. The image signal encoded from the pre-processing circuit through the source encoding circuit is multiplexed into a code string having a structure determined by the image data compression device 11, accumulated in a buffer memory 12 for transmission, and a fixed amount of data. Is transmitted to the transmission line. In the present invention, the bit counter 13 is arranged between the image data compression device 11 and the buffer memory 12 to count the data generation amount of each frame.

The result counted by the bit counter 13 is stored in the count register 14. At that time, the count of the current frame, the count of the previous frame, and the count of the previous frame are sequentially stored. As for the count of each frame, as shown in the time chart of FIG. 2, the data generation state is generated by the frame pulse, and the generated data in the data generation period is counted and stored in the bit counter. This count value is cleared after the count value is read and stored in the count register 14.

The above-mentioned changes in the counter value for three frames show an increasing tendency, a decreasing tendency, a trough type, a mountain type, and the like. As shown in FIG. And a signal indicating whether the difference is positive or negative or zero. That is, it is determined whether the difference BC between the data amount C of the current frame and the data amount B of the previous frame is positive or negative. In addition, the difference between the data amount B of the previous frame and the data amount A of the previous frame is AB. Further, the difference MC between the data amount C of the current frame and the optimum buffer capacity value M-C
Also judge.

The control method by the controller is determined based on the combination of the signs of the respective parameters obtained as described above, and the result is fed back to the image data compression device 11. Table 1 shows the relationship between the sign of each parameter and the control method.

[0015]

[Table 1]

In order to obtain the control signal from each sign, the positive and negative outputs of the respective parameters are input to the controller 15 having a gate circuit, and a predetermined output (control signal) is obtained by the combination of the gate circuits. You can do it like this.

The present invention can be applied not only to image data but also to an apparatus that requires fixed rate transmission of variable generation amount data, and can also be applied to data recording on a medium having a limited writing speed.

[0018]

According to the present invention, the history of the amount of generated data can be fed back to control the amount of data to the buffer memory, enabling data output at a constant rate and matching the data rate of the transmission line. It is possible to constantly output the amount of data.

Further, by changing the setting of the buffer capacity optimum value, it is possible to deal with a large number of transmission rates, and since the judgment is performed by converting into the positive and negative signs, there is no need for complicated processing and the circuit is small in size. It also becomes easy.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is an explanatory diagram of counting data amount.

FIG. 3 is an explanatory diagram showing a difference between frames.

FIG. 4 is an explanatory diagram of temporal changes in data amount.

[Explanation of symbols]

 11: Image data compression device 12: Buffer memory 13: Bit counter 14: Count register 15: Controller

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[Procedure amendment]

[Submission date] June 25, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Detailed explanation of the invention

[Correction method] Change

[Correction content]

Detailed Description of the Invention

[Industrial applications]

The present invention relates to an image data compression transmission method used in an image compression apparatus or the like for multiplexing, compressing and transmitting encoded image data, and particularly controlling the generation amount of compressed data. It is about how to do it.

[0002]

2. Description of the Related Art In a video conference / telephone, etc., a method and apparatus for encoding an image signal, transmitting it as multiplexed and compressed image data, and decoding this image data to obtain an image signal are conceivable. Has become. As a standard for such image compression, CCITT Recommendation H.264. Standardization such as 261 is also in progress.

In the case of performing such image compression, when the data generation amount is measured in a unit time (for example, frame unit), as shown in FIG. 4, it largely changes depending on the image content (spatial frequency) and the image movement. To do.

Image data generated irregularly in this way cannot be directly output to a fixed-rate transmission line. Therefore, it is considered to arrange a transmission buffer memory at the output stage and smooth the image data so that the image data is output to the transmission line by a predetermined amount.

[0005]

Even if the output rate is smoothed by using the transmission buffer memory as described above, the amount of data per frame is constant, but the amount of data per unit time (for example, second) is fixed. Since the generation amount changes, it is necessary to control the data generation amount at the same time as smoothing.

The present invention provides a method for compressing and transmitting image data, which makes it possible to easily control the generation amount of image data stored in a buffer memory.

[0007]

According to the present invention, the increase / decrease of image data is discriminated by comparing it with the data generation amount of past frames, and the generation amount of image data is compared with the optimum capacity of the buffer memory. By controlling, the above-mentioned subject is solved.

That is, in the image data compression transmission method of storing encoded and compressed image data in a buffer memory and sending a fixed amount of data to a transmission line, the amount of generated data stored in the buffer memory is counted. By counting the amount of generated data for each frame by means,
Record the counts of a certain frame, the previous frame and the previous frame, compare the counts and compare the data generation amount to determine the increase / decrease, and determine the count of the frame and the optimum value of the buffer memory capacity. Are compared with each other to determine a certain amount, and the generation amount of the image data is controlled according to the determination results.

Alternatively, in an image data compression transmission method in which encoded and compressed image data is stored in a buffer memory and a fixed amount of data is sent to a transmission line, the amount of generated data stored in the buffer memory is calculated for each frame. The recorded amount of generated data of a certain frame, the previous frame and the frame before two is recorded and the difference between them is generated to generate a signal according to the positive / negative sign, and the counted data generation of the frame is generated. It is characterized in that the difference between the amount and the optimum value of the capacity of the buffer memory is taken to generate signals according to the positive and negative signs, and the data generation amount control signal of the control means is obtained by these signals.

[0010]

The amount of data generated in the current frame and the previous frame, and the amount of data generated in the previous frame and the frame before the previous frame are counted, and the difference is used as a positive and negative encoded signal, and the difference between the current frame and the optimum capacity of the buffer memory is also calculated. The signal is similarly encoded.
These signals corresponding to the positive and negative signs increase the data generation amount and suppress the data generation amount when it exceeds the capacity optimum value, and increase the data generation amount in the opposite case.

[0011]

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

FIG. 1 is a block diagram showing an embodiment of the present invention. The image signal encoded from the pre-processing circuit through the source encoding circuit is multiplexed into a code string having a structure determined by the image data compression device 11, accumulated in a buffer memory 12 for transmission, and a fixed amount of data. Is transmitted to the transmission line. In the present invention, the bit counter 13 is arranged between the image data compression device 11 and the buffer memory 12 to count the data generation amount of each frame.

The result counted by the bit counter 13 is stored in the count register 14. At that time, the count of the current frame, the count of the previous frame, and the count of the previous frame are sequentially stored. As for the count of each frame, as shown in the time chart of FIG. 2, the data generation state is generated by the frame pulse, and the generated data in the data generation period is counted and stored in the bit counter. This count value is cleared after the count value is read and stored in the count register 14.

The change in the counter value for the above three frames shows an increasing tendency, a decreasing tendency, a valley type, a mountain type, and the like. As shown in FIG. 3, this is the difference in the number of bits from the previous frame. And a signal indicating whether the difference is positive or negative or zero. That is, it is determined whether the difference BC between the data amount C of the current frame and the data amount B of the previous frame is positive or negative. In addition, the difference between the data amount B of the previous frame and the data amount A of the previous frame is AB. Further, the difference MC between the data amount C of the current frame and the optimum buffer capacity value M-C
Also judge.

The control method by the controller is determined based on the combination of the signs of the respective parameters obtained as described above, and the result is fed back to the image data compression device 11. Table 1 shows the relationship between the sign of each parameter and the control method.

[0016]

[Table 1]

In order to obtain the control signal from each sign, the positive and negative outputs of the respective parameters are input to the controller 15 having a gate circuit, and a predetermined output (control signal) is obtained by the combination of the gate circuits. You can do it like this.

The present invention can be applied not only to image data but also to an apparatus that requires fixed rate transmission of variable generation amount data, and can also be applied to data recording on a medium having a limited writing speed.

[0019]

According to the present invention, the history of the amount of generated data can be fed back to control the amount of data to the buffer memory, enabling data output at a constant rate and matching the data rate of the transmission line. It is possible to constantly output the amount of data.

Further, by changing the setting of the buffer capacity optimum value, it is possible to cope with a large number of transmission rates, and since the judgment is made by converting into the positive and negative signs, there is no need for complicated processing and the circuit is small in size. It also becomes easy.

Claims (2)

[Claims] 1. A method for compressing and transmitting image data, wherein encoded and compressed image data is stored in a buffer memory and a fixed amount of data is sent to a transmission line, and the amount of generated data stored in the buffer memory is counted. By counting the amount of generated data for each frame by means, record the count of a certain frame and the previous frame and the previous frame, and compare the counts to determine the increase or decrease by comparing the data generation amount, A method for compressing and transmitting image data, characterized in that the count of the frame is compared with an optimum value of the capacity of the buffer memory to judge whether or not there is any, and the generation amount of image data is controlled according to the judgment results. 2. An image data compression transmission method in which encoded and compressed image data is stored in a buffer memory and a fixed amount of data is sent to a transmission line. The recorded amount of generated data of a certain frame, the previous frame and the frame before two is recorded and the difference between them is generated to generate a signal according to the positive / negative sign, and the counted data generation of the frame is generated. A method for compressing and transmitting image data, characterized in that a signal corresponding to a positive or negative sign is generated by taking a difference between the amount and an optimum value of the capacity of the buffer memory, and the data generation amount control signal of the control means is obtained by these signals.