KR20000074709A - Reception data structure and apparatus for image communication apparatus - Google Patents

Abstract

PURPOSE: A received data structure in an image communication apparatus and apparatus for receiving data is to easily discriminate a kind of received data using a header contained the received data. CONSTITUTION: The received data structure comprises: a header part including information about a position depending on kinds of data at the uppermost position of a data frame having a reference of an audio compression unit time; and a data part corresponding to the remaining portion except the header part, and including an audio sector, an image sector, and a control data sector. An apparatus for receiving data comprises: a header detecting part(30) for detecting a header placed at the uppermost level of a data frame for the discrimination of received data frames; a control part(40) outputting a memory control signal for selectively reading or writing data every when the header detecting part detects; and a buffer(50,60) for alternatively writing or reading a received data by the memory control signal output from the control part.

Description

RECEIVE DATA STRUCTURE AND RECEIVE DEVICE OF VIDEO COMMUNICATION DEVICE {{RECEPTION DATA STRUCTURE AND APPARATUS FOR IMAGE COMMUNICATION APPARATUS}

The present invention relates to a receiving data structure and a receiving apparatus of a video communication device, and in particular, to receive data in unit time so that data input, compression, decompression and output can be performed in real time between the video communication devices. Reduce the cost of device configuration by assigning two buffers of minimum capacity for reception so that reads and writes alternate between each time a new data frame is received, and the type of received data can be easily distinguished by a header. The present invention relates to a reception data structure and a reception device of a video communication device capable of improving data processing time.

1 is a block diagram showing a structure of data to be transmitted according to the prior art, in which a sequence number (SN) 1, in which numbers for distinguishing types of data and input order, are listed; A data unit 2 including audio or video data to be actually transmitted; It consists of an error detector (CRC) 3 for checking whether data is correctly transmitted to the other side without an error in data transmission.

The data configured as described above is divided into audio, video, and control data to be transmitted together for a predetermined audio compression unit time (30 ms) determined by the transmission standard, and the number SN is set and transmitted in each successive order.

At this time, as described above, a side receiving data transmitted in serial has one first-in first-out buffer (not shown), and the data is sequentially received and stored at the input side of the buffer and then the data is output through the output side. The data is output in the order of input, and the data types (audio, video, and control data) are distinguished by the serial number SN, and they are output in combination in the order of the number set for each type.

However, in the prior art as described above, the structure of the data is configured only in consideration of the transmitting side, and the receiving side stores several data such as audio and video sequentially by one first-in first-out buffer, which makes the management of the buffer more complicated. Not only does the capacity increase, but the cost of device configuration increases, and the delay time increases by the size of the buffer for the first input data to be output, and the property of the data is not known when the serial number of each data type is lost. There is a problem that it is difficult to restore the data because it can not distinguish the type of transmission data.

Accordingly, the present invention has been created to solve the above-described problems, and allocates two buffers for reception in order to allow data input, compression, restoration, and output to be performed in real time. The present invention provides a receiving data structure and a receiving device of a video communication device, which makes the configuration of the device simpler and improves the data processing time by enabling the write operation and the write operation to be easily distinguished by the header. There is a purpose.

1 is a block diagram showing the structure of data transmitted by the prior art;

2 is a block diagram showing an example of the structure of received data according to the present invention;

3 is a block diagram showing the configuration of a data receiving apparatus according to the present invention;

*** Description of the symbols for the main parts of the drawings ***

10: header portion 20: data portion

30: header detection unit 40: control unit

50,60 buffer

The structure of the received data according to the present invention for achieving the above object includes a header unit including information on the position of each type of data at the top of the data frame based on a predetermined audio compression unit time; The remaining sections excluding the header section may include a data section divided into any section in which audio, video, and control data are located.

In addition, the apparatus for receiving data having the above structure includes a header detecting unit for detecting a header at the top of the data frame to distinguish the position information of each data and the data frame received in a predetermined unit; A control unit for selectively outputting a memory control signal for reading and writing data among two buffers whenever a header is detected by the header detecting unit; It is characterized by consisting of two buffers to write or read received data alternately by the memory control signal output from the control unit.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 2 is a block diagram showing an example of the structure of the received data according to the present invention. As shown in this figure, a header portion 10 including information on the position of each type of data at the top of a fixed predetermined audio compression unit time is shown. Wow; The remaining section except for the header section 10 is composed of a data section 20 divided into any section in which audio, video and control data are located.

In other words, the header unit 10 has an address where audio, video, and control data start, respectively, and has the highest compression unit time (30 msec according to H.324 standard) as one frame of transmission data. It is located at and serves as an indicator to distinguish each frame.

In this way, by having the information of the data transmitted together with the header 10 of the uppermost part of the data frame, it is included in the header 10 without having to analyze the serial number from time to time whenever the type of data changes as in the prior art. The data can be classified according to the received information, and the capacity of the buffer for storing the data can be limited to 30 msec in the embodiment of the present invention as long as it can store the data received during the unit time.

Accordingly, in the present invention, by providing two buffers 50 and 60 on the receiving side to store the data received in the unit time as described above, the other buffer while writing the data transmitted to the one buffer 50, respectively. Data stored in the 60 is read into the system buffer, and when the frame to be received is changed again, the data written to the one buffer 50 is read, and the data is written to the other buffer 60 to which all the data are read. This will be described in more detail with reference to FIG. 3 as follows.

3 is a block diagram showing a configuration of a data receiving apparatus according to the present invention. As shown in FIG. 3, a header at the top of a data frame is detected to distinguish the position information of each data and the data frame received in a predetermined unit. A header detection unit 30; A controller 40 which selectively outputs a memory control signal for reading and writing data among two buffers 50 and 60 whenever a header is detected by the header detecting unit 30; It consists of two buffers (50, 60) to write or read received data alternately by the memory control signal output from the control unit 40, the operation process and effect of the present invention configured as described same.

First, since the header unit 10 is located at the top of the data frame, the start of each frame can be known, and the header detection unit 30 controls the header of each data frame by controlling the read / write of the buffer using the header unit 10. The unit 10 is detected.

Next, the controller 40 knows that the data frame is changed as the header unit 10 is detected by the header detector 30, and alternately selects a buffer to write data and a buffer to read, and outputs read and write signals. do.

That is, the controller 40 outputs a write signal so that data can be written to one buffer 50, and at the same time, a read signal so that data stored in the other buffer 60 can be read into the system buffer. Will be applied.

Similarly, if the header portion 10 of the next frame is detected again, this time, contrary to the above, the write signal is applied to the other buffer 60 so that the data can be written, and the data stored through the above process is stored in the one buffer 50. Apply a read signal so that can be read into the system buffer.

On the other hand, the system buffer here is a buffer to be able to combine the data of each frame unit read through the buffers in order by one screen unit.

In addition, since the video communication apparatus is a device for bidirectional multimedia communication, as described above, a pair of buffers provided on the receiving side is also provided on the transmitting side, thereby transmitting and receiving frame-by-frame of the data including the header unit as described above. This becomes possible.

As described above, the receiving data structure and the receiving apparatus of the video communication apparatus of the present invention have two buffers of minimum capacity capable of storing data received in a unit time so that data input, compression, decompression and output can be performed in real time. Dogs are allocated for reception so that reads and writes alternately each time a new data frame is received, and the data at that location is read immediately without distinguishing the type of data by the data position information included in the header. By combining the system buffers sequentially, the data processing time is faster, and the capacity of the buffer for temporarily storing the received data during processing time can be allocated to the minimum, thereby reducing the cost of configuring the device and The configuration of the device is much simpler because you do not have to judge the type. It works.

Claims (4)

A video communication apparatus, comprising: a header unit including information on a position of each type of data at the top of a data frame based on a predetermined audio compression unit time; And a data unit divided into arbitrary sections in which audio, video, and control data are located in the remaining sections except for the header unit. An image communication apparatus, comprising: a header detector for detecting a header at a top of a data frame to distinguish a received data frame; A control unit for selectively outputting a memory control signal for reading and writing data among two buffers whenever a header is detected by the header detecting unit; And two buffers alternately writing or reading received data in response to a memory control signal output from the controller. The apparatus of claim 2, wherein the buffer has a minimum capacity capable of storing only data frames of a predetermined unit time. 4. The data receiving apparatus of claim 2 or 3, wherein the buffer comprises buffer pairs for read and write on the transmitting side and the receiving side, respectively.