KR20090017924A - Method and apparatus for reusing slconfigdescriptor in mpeg-4 system - Google Patents

Abstract

An ES_Descriptor configuration and SLConfig Descriptor reusing method is provided to improve transmission efficiency by minimizing transmission overhead during a process of transmission to a receiving party by reducing capacity of an ES_Descriptor. A reuse object ES Descriptor includes an SLConfigDescrip-tor as internal information(S-7). An ES Descriptor includes a dependsOn SL ES ID which does not include the SLConfigDescriptor and indicates the reuse object ES Descriptor. The dependsOn SL ES ID describes the ES ID of the reuse object ES Descriptor(S-6).

Description

ES_Ｄｅｓｃｒｉｐｔｏｒ construction and sＬＣｏｎｆｉｇＤｅｓｃｒｉｐｔｏｒ in MPEG4 system {Method and apparatus for reusing SLConfigDescriptor in MPEG-4 system}

The present invention relates to a stream in an MPEG-4 (Moving Pictures Expert Group) system. More specifically, in the configuration of an ES_Descriptor, the SLConfigDescriptor is not configured for each ES_Descriptor. The present invention relates to an ES_Descriptor configuration and an SLConfigDescriptor reuse method in an MPEG4 system to be reused by referring to an ES_Descriptor including a SLConfigDescriptor.

Today, the transfer of information using mobile media is becoming increasingly important, coupled with the trend of new information transfer, the integration of communication and multimedia services. The delivery of information using MPEG4 in the delivery of multimedia information through such a mobile medium has been applied to various digital multimedia services. In addition, such a multimedia service is a trend that is actively made, such as editing and storage reuse of content. In addition, as the tendency to send streams with a large amount of data and diverse contents within limited communication resources increases, the use of MPEG 4 is gradually expanding. In particular, the use of the MPEG-4 system for transmitting a variety of content is also increasing actively.

In the MPEG4 system, streams are distinguished in units called elementary streams (hereinafter referred to as ESs), and each stream is given a unique ES_ID. Each ES has an ES_Descriptor in which information about the corresponding stream is described. The ES_Descriptor includes a DecoderConfigDescript-or having decoder information for decoding the stream and a SLConfigDescriptor having transmission information for transmitting the stream.

Here, FIG. 1 is a simplified diagram of a configuration of a general ES_Descriptor, and FIGS. 2 and 3 are diagrams showing a syntax of ES_Descriptor and SLConfigDe-scriptor in a general MPEG4 system (ISO / IEC 14496-1).

Referring to FIG. 1, the configuration of the ES_Descriptor having an ES_ID of 1 and the ES_Descriptor having an ES_ID of 2 has the same configuration including DecoderConfigDescriptor and SLConfigDescriptor as described above, and the total number of bits of each ES_Descriptor is 288 bits.

Meanwhile, in the MPEG4 system, SL packetizing is performed to transmit a stream.

4 is a diagram illustrating a SL packetizing method for transmitting an ES in a general MPEG 4 system.

Referring to FIG. 4, a general SL packetizing method forms an SL packet by creating an SL packet header for each of a plurality of AUs (Access Units) constituting each ES, and configures an SL packet in front of the AU. 4 data is included, and the SL packet header transmits information using the information described in the SLConfigDescriptor in the ES_Descriptor (for example, the start and end of the AU indicating what data the AU is, time information, bitrate information, and AU length). Information is included.

In this case, each SL Packet Payload is configured for each SL Packet Payload, because the decoder information of each SL Packet Payload is described in the SLConfigDescriptor of the SL Packet Header.

That is, the transmitting side separates and transmits each ES into a plurality of AUs, but transmits the decoder information including the ES information to which the corresponding AU belongs in the SLConfigDescriptor of the SL Packet Header so that the receiving side uses the decoder information. The AU decodes back to the subordinate ES.

Here, in order to decode the information received from the receiving side, the same SLConfigDescriptor as the SLConfigDescriptor used for the SL packetizing of the transmitting side must exist.

Therefore, the ES_Descriptor of the ES is required not only on the transmitting side but also on the receiving side. In particular, in order to decode the stream, ES_Descriptors must be transmitted to the receiving side in advance by the number of ESs to be received.

Therefore, the ES_Descriptor is transmitted to the receiving side separately from the SL packet. In this case, the contents of the SLConfig-Descriptor in the transmitted ES_Descriptor are often the same, and the same SLConfigDescr-iptor is transmitted. There is a problem that decreases network efficiency during transmission.

For example, as shown in FIG. 1, since the configuration and size of all ES_Descriptors are the same, 288 bits are increased in proportion to the number of ESs to be transmitted.

In addition, the conventional MPEG-4 transmission method has a problem in that it is not easy to remove the same SLConfigDescriptor transmission overhead because the SLConfigDescriptor is transmitted for each ES.

The present invention is to solve the problems of the prior art as described above, in the step of generating the ES_Descriptor of the MPEG4 stream, one SLConfigDescriptor must be present in each ES_Descriptor to use the SLConfigDescriptor included in the other ES_Descriptor for the same SLConfigDescriptor It is possible to reduce the capacity of ES_Descriptor, and to provide an MPEG4 system that can increase the transmission efficiency by minimizing the transmission overhead in the process of transmitting to the receiving side.

Another object of the present invention is to allow the user to reuse the SLConfigDescriptor or to allow the user to select the use of each SLConfigDescriptor for each ES_Descriptor as in the prior art, so that the user can conveniently use it according to an environment or a situation.

In order to achieve the above object, the present invention provides the ES_Descriptor configuration of the MPEG4 system, wherein the ES_Descriptor includes a reuse target ES_Descr-iptor including the SLConfigDescriptor as the internal information, and a SLConfigDescriptor but dependsOn_SL_ES_ID indicating the reuse target ES_Descriptor. Is made of.

Preferably, the ES_ID in each ES_Descriptor is used as a means for indicating the reuse target ES_Descriptor.

Preferably, the ESDependencyFlag is further provided in each ES_Descriptor to reuse the SLConfigDescriptor only when there is a user input.

As described above, according to the present invention, since the SLDependenceFlag receiving the reuse of the SLConfigDescriptor from the user and dependsOn_SL_ES_ID indicating the ES_ID of the ES_Descriptor to be reused, the capacity of the ES_Descriptor can be reduced, thereby minimizing the transmission overhead in the process of transmitting to the receiving side. Along with the effect of increasing the transmission efficiency, there is an effect that the user can select whether to reuse and conveniently use it according to the environment or situation.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 is a simplified diagram of the configuration of an ES_Descriptor representing a preferred embodiment of the present invention. FIG. 6 is a flowchart illustrating an embodiment of the present invention, and FIG. 7 is a diagram of an ES_Descriptor representing a preferred embodiment of the present invention. It is a figure which shows Syntax.

Referring to FIG. 5, an ES_Descriptor according to a preferred embodiment of the present invention is largely divided into an ES_Descriptor (hereinafter referred to as reuse target ES_Descriptor) having ES_ID = 1 and an ES_Descriptor citing ES_ID = 2.

Here, the ES_Descriptor to be reused with ES_ID = 1 includes SLDependDescriptor including a normal SLConfigDe-scriptor, and further including a SLDependenceFlag for receiving the SLConfigDescriptor input from the user, and a reserved for byte alignment, and the ES_Descriptor with ES_ID = 2 is The SLDependenceFlag and reserved are included in the same manner as the reused ES_Descriptor, but it further includes dependsOn_SL_ES_ID indicating the ES_ID of the reused ES_Descriptor instead of the SLConfigDescriptor.

In this case, the SLDependenceFlag is '1' bit, the default value is set to '0', and when the user selects, '1' is set, the reserved is '7' bit, dependsOn_SL_ES_ID is '16' bit and the ES_ID The total number of bits of = 1 is '296' bits, and the total number of bits of ES_ID = 2 is '168' bits.

Therefore, according to the above configuration, the ES_Descriptor is changed to '464' bits, which is reduced to '112' bits, compared to the prior art having to transmit '576' bits in order to transmit two ESs having ES_ID = 1, 2 of the present invention. Can be transferred.

Although two ES transmissions having ES_ID = 1 and 2 are compared, the number of bits can be saved in proportion to '112' bits as the number of ESs transmitted to the receiver increases.

Next, a description method of the ES_Descriptor for reusing the SLConfigDescriptor of the present invention will be described with reference to FIGS. 6 and 7.

In the method of describing ES_Descriptor according to the present invention, the ES_ID of the reuse target ES_Descriptor having the SLConfigDescriptor to be reused is set when the SLDependenceFlag is set to '1' in the process of describing the information on the stream as in the related art. DependsOn_SL_ES_ID on behalf of the SLConfigDe-scriptor.

In more detail, first, step S-1 for checking whether there is a user selection; Step S-2 of setting SLDespendenceFlag to '1' when the user selection is confirmed; Step S-3 of setting SLDespendenceFlag to '0' if the user selection is not confirmed; Step S-4 of determining the SLDependenceFlag value; If the SLDependenceFlag value is '1', step S-5 of describing the ES_ID of another ES_Descriptor including the SLConfigDescriptor to be reused in dependsOn_SL_ES_ID; Step S-6 describing information of the remaining components except the SLConfigDescriptor; If the SLDependenceFlag value is '0' as a result of the determination of step S-4, step S-7 describes information on the remaining components including the SLConfigDescriptor in a conventional manner.

According to the above, the SLDependenceFlag is set to '0' by default, and is used in the same manner as before, and when the user specifies reuse of the SLConfigDescriptor, another ES_Descriptor including the SLConfigDescriptor to be reused when the SLDependenceFlag value is set to '1' ES_ID is additionally recorded in dependsOn_SL_ES_ID.

For example, among the two ES_Descriptors having ES_ID = 1 and 2, as shown in FIG. 5, the reuse target ES_Descriptor having ES_ID = 1 has a SLConfigDescriptor, and ES_Descriptor having ES_ID = 2 has an ES_ID number in dependOn _SL_ES_ID instead of SLConfigDescriptor. '1' is recorded.

ES_Descriptor of ES_ID = 1, 2 described above has ES_Descriptor transmitted as '464' bit, which is reduced '112' bit compared to the prior art, so that ES_Descriptor exists on both sides.

Subsequently, when the transmitter generates the SL packet header during the SL packetizing process or when decoding the SL packet header of the SL packet received by the receiver, the SLConfigDescriptor information is used in the ES_Descriptor configured by the present invention.

At this time, since ES_Descriptor with ES_ID = 2 does not have SLConfigDescriptor, it should be processed differently from the conventional one. When the process is described, ES_Descriptor with ES_ID = 2 is recorded in dependsOn_SL_ES_ID when the case where the SLConfigDescriptor information is used later occurs. The ES_Descriptor for ES_ID = 1 corresponding to 1 'can be searched and the SLConfigDescriptor information included therein can be read and used.

1 is a diagram simplified the configuration of a general ES_Descriptor

2 is a diagram illustrating a syntax of an ES_Descriptor in a general MPEG 4 system (ISO / IEC 14496-1).

3 is a diagram illustrating a syntax of a SLConfigDe-scriptor in a general MPEG 4 system (ISO / IEC 14496-1).

4 is a diagram illustrating a SL packetizing method for transmitting a general stream.

5 is a simplified diagram of a configuration of an ES_Descriptor showing a preferred embodiment of the present invention.

6 is a flowchart illustrating an embodiment of the present invention.

7 is a diagram illustrating a syntax of an ES_Descriptor showing a preferred embodiment of the present invention.

Claims (4)

An ES_Descriptor configuration of an MPEG4 system, comprising: a reuse target ES_Descriptor including an SLConfigDescrip-tor as internal information; And ES_Descriptor which does not include SLConfigDescriptor but has an dependsOn_SL_ES_ID indicating the reuse target ES_Descriptor. The method of claim 1, The dependsOn_SL_ES_ID indicates an ES_ID of the reuse target ES_Descriptor. The method of claim 1, Each ES_Descriptor is configured to further include a SLDependenceFlag for receiving whether to use the SLConfigDescriptor from the user ES_Descriptor configuration in the MPEG4 system An ES_Descriptor technique of an MPEG4 system, the method comprising: S-1 checking whether a user selection exists; Step S-2 of setting SLDespendenceFlag to '1' when the user selection is confirmed; Step S-3 of setting SLDespendenceFlag to '0' if the user selection is not confirmed; Step S-4 of determining the SLDependenceFlag value; If the SLDependenceFlag value is '1', step S-5 of describing the ES_ID of another ES_Descriptor including the SLConfigDescriptor to be reused in dependsOn_SL_ES_ID; Step S-6 describing remaining component information of the ES_Descriptor including the SLConfigDescriptor in a conventional manner; If the SLDependenceFlag value is '0' as a result of the determination in step S-4, the method of reusing the SLConfigDescriptor in the MPEG-4 system, comprising the step S-7 describing information of the remaining components except for the SLConfigDescriptor.

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