KR102047764B1 - Method of processing mmt signaling message for sending feedback information selestively - Google Patents

Abstract

Disclosed is a method of processing an MMT signaling message for selectively transmitting feedback information. An MMT signaling message processing method for selectively transmitting feedback information according to the present invention may include: determining, by a media terminal, a type of network context information to be reported to a media server; Generating a NAMF message including a flag value according to the type of network context information; Setting network status information corresponding to the flag value in the NAMF message and transmitting the same to the media server; And determining the type of the network condition information set in the NAMF message through the flag value, and processing the transmitted NAMF message according to the determined type of the network condition information.

Description

Method for processing MMT signaling message for selectively transmitting feedback information {METHOD OF PROCESSING MMT SIGNALING MESSAGE FOR SENDING FEEDBACK INFORMATION SELESTIVELY}

The present invention relates to a method for selectively transmitting network context information, and more particularly, to a technique for selectively transmitting and processing network context information through a flag value in transmitting an MMT signaling message.

MPEG Media Transport (MMT) is a new media transport standard technology that began development in the ISO / IEC JTC1 / SC29 / WG11 system division. The existing MPEG-2 system has standardized and widely used MPEG-2 Transport Stream (TS) technology as a standard for functions such as packetization, synchronization, and multiplexing required for transmitting AV (Audio Video) content in a broadcasting network. However, MPEG-2 TS is inefficient in a packet transmission environment in which the network is IP-based. Therefore, ISO / IEC / JTC1 / SC29 / WG 11 MPEG recognized the necessity of a new media transmission standard in consideration of the new media transmission environment and the expected media transmission environment, and started to standardize MMT.

In Amendment 2, which covers the current MMR standard specification, in particular, the cross layer interface (CLI), a NAMF message generated by a media terminal (MMT receiving entity) to report network status information to a media server (MMT sending entity). ) Is defined. Network abstract for media (NAM) information, which is network context information, is network information of a lower layer view obtained through CLI and can be roughly divided into absolute NAM information and relative NAM information. Currently defined NAMF messages are defined so that only absolute NAM information can be delivered.

At this time, if it is possible to selectively transmit absolute NAM information and relative NAM information as needed instead of delivering only absolute NAM information as currently defined NAMF message, it is possible to reduce network resources required for reporting network status information.

Therefore, in the present invention, when the media terminal reports its network status information, it may optionally provide absolute NAM information or relative NAM information, and the media server (MMT sending entity) may provide some kind of information in the received MMT signaling message. An MMT signaling message processing technique for determining and processing the presence of a packet is disclosed.

Related prior arts include Korean Patent Publication No. 2012-0138310 relating to an apparatus and method for providing an adaptive multimedia service.

An object of the present invention is to optionally provide absolute network context information or relative network context information when a media terminal reports its network context information.

It is also an object of the present invention to determine and process what kind of information is present in the MMT signaling message received by the media server.

MMT signaling message processing method for selectively transmitting the feedback information according to the present invention for achieving the above object comprises the steps of determining the type of network status information to be reported to the media server to the media server; Generating a NAMF message including a flag value according to the type of network context information; Setting network status information corresponding to the flag value in the NAMF message and transmitting the same to the media server; And determining the type of the network condition information set in the NAMF message through the flag value, and processing the transmitted NAMF message according to the determined type of the network condition information.

In this case, the generating may generate a NAMF message including a NAM_flag field for indicating the flag value.

In this case, the determining may determine the type of the network status information as one of absolute network status information and relative network status information.

In this case, the generating may include setting the flag value to 1 when the type of the network status information is the absolute network status information, and setting the flag value when the type of the network status information is the relative network status information. Can be set to 0.

In this case, the transmitting may transmit the NAMF message using the MMT protocol.

In this case, the processing may determine that the absolute network status information is set in the NAMF message when the flag value is 1, and that the relative network status information is set in the NAMF message when the flag value is 0. It can determine and process the NAMF message.

In addition, the MMT signaling message according to an embodiment of the present invention includes a NAM_flag field indicating the type of network context information set in the message.

According to the present invention, when the media terminal reports its network context information, it may optionally provide absolute network context information or relative network context information.

In addition, the present invention may determine and process what kind of information is present in the MMT signaling message received by the media server.

1 is a flowchart illustrating a method of processing an MMT signaling message for selectively transmitting feedback information according to an embodiment of the present invention.
2 is a view showing a functional area constituting an MMT system.
3 is a diagram illustrating a conventional NAMF message.
4 illustrates a NAMF message according to an embodiment of the present invention.
5 is a flowchart illustrating a method of generating a NAMF message in a media terminal according to an embodiment of the present invention.
6 is a flowchart illustrating an NAMF message processing method of a media server according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Here, the repeated description, well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity.

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

1 is a flowchart illustrating a method of processing an MMT signaling message for selectively transmitting feedback information according to an embodiment of the present invention.

Referring to FIG. 1, in the MMT signaling message processing method for selectively transmitting feedback information according to an embodiment of the present invention, the media terminal may first determine the type of network condition information to be reported to the media server (S110). In this case, the determining may determine the type of network status information as one of absolute network status information and relative network status information. In Amendment 2, which covers the current MMT standard, especially the cross layer interface (CLI), a NAMF message generated by a MMT receiving entity to report network status information to a MMT sending entity. ) Is defined. Network abstract for media (NAM) information, which is network status information, is network information of a lower layer view obtained through CLI and can be roughly divided into absolute NAM information and relative NAM information. However, since the previously defined NAMF message was defined to deliver only absolute NAM information among NAM information, one of the absolute NAM information and the relative NAM information could not be selectively transmitted as needed. If it is possible to send absolute NAM information at regular intervals and only relative NAM information other than that, it is possible to reduce network resources necessary for reporting network status information and thus to utilize network resources more efficiently. According to the present invention, when the media terminal reports its network status information, the media terminal can selectively transmit absolute NAM information and relative NAM information.

Thereafter, a NAMF message including a flag value according to the type of network status information may be generated (S120). At this time, a NAMF message including a NAM_flag field for indicating a flag value may be generated. In addition, when the type of network status information is absolute network status information, the flag value may be set to 1, and when the type of network status information is relative network status information, the flag value may be set to 0 to generate a NAMF message. . If the NAM_flag field does not exist in the existing NAMF message and the media terminal cannot select network condition information to be reported to the media server, the NAM_flag field is present in the NAMF message according to the present invention, and thus the NAM_flag field is present in the type of network condition information reported by the media terminal. The flag value can be determined accordingly.

Thereafter, network condition information corresponding to the flag value may be set in the NAMF message and transmitted to the media server (S130). At this time, the NAMF message may be transmitted using the MMT protocol. When sending a NAMF message, if the flag value set in the NAM_flag field of the NAMF message is 0, the relative network condition information can be set and transmitted in the NAMF message. If the flag value set in the NAM_flag field of the NAMF message is 1, the absolute network condition is displayed in the NAMF message. Information can be set and transmitted.

Thereafter, the type of network condition information set in the NAMF message may be determined through the flag value, and the transmitted NAMF message may be processed according to the determined type of network condition information (S140). The media server that received the NAMF message checks the flag value of the NAMF message. When the flag value is 1, the media server determines that the absolute network status information is set in the NAMF message, and processes the message. When the flag value is 0, the NAMF message is processed. It may be determined that the relative network status information is set at, and the message may be processed.

In this way, by selectively reporting the network status information to the media server through the NAMF message generated using the flag value in the media terminal, it is possible to reduce the network resources required to report the network status information, thereby enabling efficient use of network resources. Can be.

2 is a view showing a functional area constituting an MMT system.

Referring to FIG. 2, there is shown a protocol stack including each functional area of an MMT system of the MPEG ISO / IEC DIS 23008-1 standard, which includes an encapsulation layer, a delivery layer, and a signaling layer. It consists of a functional area of a signaling layer.

Encapsulation layer 210 defines a logical structure of the format of the media content, the MMT package, and the data unit to be processed by the MMT entity, and an implementation example in the ISO base media file format (ISOBMFF). do. In order to provide the necessary information for adaptive delivery, the MMT package specifies the components that contain the media content and the relationships between them. The format of the data units is defined to encapsulate the encoded media for storage or delivery and to easily convert between the two formats. The encapsulation layer 210 may be responsible for, for example, packetization, fragmentation, synchronization, multiplexing, and the like of transmitted media. Various kinds of multimedia components may be encapsulated and combined with each other for transmission and consumption by the functionality provided in the encapsulation layer. Encapsulated media components and configuration information of the media components are provided in the functional area of the encapsulation layer 210. Main information about the encapsulated media components may include integration, priority, dependency of media fragments, timing information and structure information of the MPU, identification information of the MMT asset, initialization information, and codec information. The configuration information of the media components may include identification information of the MMT package and the MMT asset, configuration information having a list of MMT assets, composition information of the MMT assets in the MMT package, and asset delivery characteristics.

The transport layer 220 defines the payload format and the application layer transport protocol. Payload format is defined to carry coded media data regardless of media type or encoding method. Application layer transport protocols provide enhanced features for package delivery, including multiplexing and cross-layer communication. The transport layer 220 may perform, for example, network flow multiplexing, network packetization, QoS control, and the like of media transmitted over a network. The transport layer 220 also provides multiplexing, packet level consolidation and segmentation, network packetization, QoS control, and synchronization functions between the transport layer and the encapsulation layer, such as video and audio transmitted over the network. It is responsible for the transport layer such as RTP, transport layer such as UDP, TCP, encapsulation layer, and signaling layer. The delivery layer 220 identifies different types of payloads from encapsulation layer 210 to handle payloads from encapsulation layer 210. The transport layer 220 may handle a temporary relationship between packets transmitted through different networks and different channels. The synchronization function may include hybrid network synchronization using a time stamp or the like. In addition, delivery layer 220 may handle timing constraints of MMT delivery packets for real-time media transmission. The transport layer 220 may perform error control of MMT media packets such as omnidirectional error correction and retransmission. The transport layer 220 may perform flow control of the MMT media packet. The transport layer 220 may perform interaction with other MMT layers as well as lower layers through a cross layer design to maintain a predetermined level of QoS for delivery of MMT media packets. In addition, the transport layer 220 may provide a function for performing group communication.

The signaling layer 230 performs a signaling function. For example, session initiation / control / management of transmitted media, server-based and / or client-based trick modes, service discovery, synchronization and interfaces with other layers, namely delivery layer 220 and encapsulation layer 210. Signaling functions for functions and the like may be performed. Synchronization may include synchronization control in a hybrid network. In addition, the signaling layer 230 defines the format of the message that manages delivery and consumption of the MMT package. The message for consumption management is used to inform the structure of the MMT package, and the message for delivery management is used to inform the structure of the payload format and the configuration of the protocol.

3 is a diagram showing a conventional NAMF message, Figure 4 is a diagram showing a NAMF message according to an embodiment of the present invention.

3 and 4, a NAMF message according to an embodiment of the present invention includes a 1-bit NAM_flag field and a field for indicating relative network status information. The NAM_flag field may be set according to what kind of network status information the media terminal should send. If the value of NAM_flag is set to 0, the NAMF message may include relative network status information. If the value of NAM_flag is set to 1, the NAMF message may include absolute network status information.

5 is a flowchart illustrating a method of generating a NAMF message in a media terminal according to an embodiment of the present invention.

Referring to FIG. 5, the method for generating a NAMF message of a media terminal according to an embodiment of the present invention may first generate an event for transmitting a NAMF message (S510).

Thereafter, it may be determined whether absolute network condition information needs to be transmitted through the generated NAMF message (S515).

As a result of the determination in step S515, if the absolute network status information should be transmitted through the NAMF message, the value of the NAMF_flag field of the NAMF message may be set to 1 (S520).

Thereafter, absolute network context information may be set in the NAMF message (S530), and the NAMF message may be transmitted to the media server (S560).

As a result of the determination in step S515, if the relative network status information should be transmitted through the NAMF message, the value of the NAMF_flag field of the NAMF message may be set to 0 (S540).

Thereafter, relative network state information may be set in the NAMF message (S550), and the NAMF message may be transmitted to the media server (S560).

In this way, the media terminal selectively reports the network status information, thereby efficiently utilizing network resources according to the network status information report.

6 is a flowchart illustrating an NAMF message processing method of a media server according to an embodiment of the present invention.

Referring to FIG. 6, the method for processing a NAMF message of a media server according to an embodiment of the present invention may receive a NAMF message transmitted from a media terminal (S610).

Thereafter, it may be determined whether the value of the NAM_flag field of the received NAMF message is 1 (S615).

As a result of the determination in step S615, if the value of the NAM_flag field of the NAMF message is 1, the network context information set in the NAMF message may be determined as absolute network context information and the NAMF message may be processed (S620).

As a result of the determination in step S615, if the value of the NAM_flag field of the NAMF message is 0, the network context information set in the NAMF message may be determined as the relative network context information and the NAMF message may be processed (S630).

In this way, the media server can efficiently utilize network resources by processing NAMF messages according to network context information.

As described above, the MMT signaling message processing method for selectively transmitting the feedback information according to the present invention is not limited to the configuration and method of the above-described embodiments, but the above embodiments may be modified in various ways. All or part of each of the embodiments may be selectively combined to be implemented.

Encapsulation Layer: 210
Delivery layer: 220
Signaling layer: 230

Claims (10)

Determining, by any one of absolute network status information and relative network status information, the media terminal to determine the type of network status information to report to the media server;
Generating a NAMF message including a flag value according to the type of network context information;
Setting network status information corresponding to the flag value in the NAMF message and transmitting the same to the media server; And
Determining the type of the network condition information set in the NAMF message through the flag value, and processing the transmitted NAMF message according to the determined type of the network condition information;
Including,
The NAMF message is
Through the NAM_flag field corresponding to 1 bit, the type of network status information determined by the media terminal corresponds to any one of the absolute network status information and the relative network status information.
When the flag value by the NAM_flag field is 1, it means that the network status information determined by the media terminal is the absolute network status information.
MN signaling message processing method for selectively transmitting feedback information, characterized in that the network context information determined by the media terminal when the flag value by the NAM_flag field is 0, the relative network context information. delete delete delete The method according to claim 1,
The transmitting step
MMT signaling message processing method for selectively transmitting the feedback information, characterized in that for transmitting the NAMF message using the MMT protocol. The method according to claim 1,
The processing step
When the flag value is 1, it is determined that the absolute network condition information is set in the NAMF message, and when the flag value is 0, it is determined that the relative network condition information is set in the NAMF message and the NAMF message is processed. MMT signaling message processing method for selectively transmitting feedback information, characterized in that. Determining the type of network status information to be reported to the media server using any one of absolute network status information and relative network status information, generating a NAMF message including a flag value according to the type of network status information, A processor for setting corresponding network context information in the NAMF message and transmitting it to the media server; And
Memory for storing the NAMF message
Including,
The NAMF message is
Through the NAM_flag field corresponding to 1 bit, the type of network status information determined by the media terminal corresponds to any one of the absolute network status information and the relative network status information.
When the flag value by the NAM_flag field is 1, it means that the network status information determined by the media terminal is the absolute network status information.
And when the flag value of the NAM_flag field is 0, it means that the network context information determined by the media terminal is the relative network context information. delete delete delete

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