KR20150068664A - Method of processing mmt signaling message for sending feedback information selestively - Google Patents

Abstract

Disclosed is a method for processing a MMT signaling message to selectively transmit feedback information. A method for processing a MMT signaling message to selectively transmit feed information according to the present invention comprises the steps of: determining a type of network status information to be reported by a media terminal to a media server; generating a NAMF message containing a flag value depending on the type of the network status information; setting the network status information corresponding to the flag value in the NAMF message so as to transmit to the media server; and determining the type of the network status information set in the NAMF message through the flag value and processing the transmitted NAMF message depending on the type of the determined network status information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an MMT signaling method for selectively transmitting feedback information,

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

MMT (MPEG Media Transport) is a new media transmission standard technology developed by the ISO / IEC JTC1 / SC29 / WG11 system division. 2. Description of the Related Art Conventional MPEG-2 systems have standardized MPEG-2 transport stream (TS) technology as a standard for functions such as packetization, synchronization and multiplexing necessary for transmitting AV (Audio Video) contents in a broadcasting network. However, MPEG-2 TS is inefficient in packet transmission environments where the network is IP-based. Therefore, ISO / IEC / JTC1 / SC29 / WG 11 MPEG became aware of the need of new media transmission standard considering new media transmission environment and expected media transmission environment, and started MMT standardization.

In Amendment 2, which deals with the current MMR standard specification, especially the CLI (Cross layer interface), the NAMF message (NAMF message) generated by the MMT receiving entity to the MMT sending entity ). The Network Abstract for media (NAM) information, which is network status information, can be divided into absolute NAM information and relative NAM information. The currently defined NAMF message is defined to be able to transmit only absolute NAM information among the NAM information.

At this time, if the absolute NAM information and the relative NAM information can be selectively transmitted as needed without transmitting only the absolute NAM information as in the currently defined NAMF message, the network resources required for reporting the network status information can be reduced.

Accordingly, in the present invention, when the media terminal reports its network status information, it may selectively provide absolute NAM information or relative NAM information, and the media server (MMT sending entity) may notify the MMT signaling message of any kind An MMT signaling message processing technique for judging whether or not there is an MMT signaling message.

A related prior art is Korean Patent Laid-Open Publication No. 2012-0138310 for an apparatus and method for providing adaptive multimedia services.

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

According to another aspect of the present invention, there is provided a method of processing an MMT signaling message for selectively transmitting feedback information according to the present invention includes: determining a type of network status information to be reported to a media server by a media terminal; Generating a NAMF message including a flag value according to the type of the network status information; Setting network status information corresponding to the flag value in the NAMF message and transmitting the network status information to the media server; And determining the type of the network status information set in the NAMF message based on the flag value and processing the transmitted NAMF message according to the type of the determined network status information.

At this time, the generating step may generate the NAMF message including the NAM_flag field for displaying the flag value.

At this time, the determining step may determine the type of the network status information as one of the absolute network status information and the relative network status information.

In this case, the generating step sets the flag value to 1 when the type of the network status information is the absolute network status information, and sets the flag value when the type of the network status information is the relative network status information 0 ".

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

In this case, the step of processing determines that the absolute network status information is set in the NAMF message when the flag value is 1, and the relative network status information is set in the NAMF message when the flag value is 0 And can process the NAMF message.

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

According to the present invention, when the media terminal reports its network status information, it can selectively provide absolute network status information or relative network status information.

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

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

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

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

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

Referring to FIG. 1, an MMT signaling message processing method for selectively transmitting feedback information according to an exemplary embodiment of the present invention may first determine the type of network status information to be reported to the media server by the media terminal (S110). At this time, the determining step may determine the type of the network context information as one of the absolute network context information and the relative network context information. In Amendment 2, which deals with current MMT standard specification, especially CLI (Cross layer interface), NAMF message (NAMF message) generated by MMT receiving entity to MMT sending entity to report network status information ). Network Abstract for media (NAM) information, which is network status information, can be divided into absolute NAM information and relative NAM information. However, since the previously defined NAMF message is defined to transmit only absolute NAM information among the NAM information, it is not possible to selectively transmit either the absolute NAM information nor the relative NAM information as needed. If only the relative NAM information can be sent in a certain period and the absolute NAM information can be transmitted in other periods, the network resources required for reporting the network status information can be reduced, so that the network resources can be utilized more efficiently. According to the present invention, in order to solve such a problem, the media terminal can selectively transmit the absolute NAM information and the relative NAM information when reporting its network status information.

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

Thereafter, the network status 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 can be transmitted using the MMT protocol. If the flag value set in the NAM_flag field of the NAMF message is 0 when transmitting the NAMF message, relative network situation 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, Information can be set and transmitted.

Thereafter, the type of the network status information set in the NAMF message is determined through the flag value, and the transmitted NAMF message may be processed according to the determined network status information (S140). The media server that receives the NAMF message checks the flag value of the NAMF message and processes the message by determining that the absolute network status information is set in the NAMF message when the flag value is 1. If the flag value is 0, It is determined that the relative network situation information is set and the message can be processed.

In this way, the media server can selectively report the network status information to the media server through the NAMF message generated using the flag value, thereby reducing the network resources required for reporting the network status information, thereby enabling efficient use of network resources .

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

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

The encapsulation layer 210 defines a logical structure of the format of the data unit to be processed by the media content, the MMT package, and the MMT entity, and an implementation of the ISO base media file format (ISOBMFF) do. 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 be easily converted between the two formats. The encapsulation layer 210 may perform functions such as packetization, fragmentation, synchronization, and multiplexing of media to be transmitted, for example. Various types of multimedia components may be encapsulated and combined to be transmitted and consumed by the functionality provided in the encapsulation layer. The configuration information of the encapsulated media component and the media component is provided in the functional area of the encapsulation layer 210. The main information for 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 MMT asset, configuration information having a list of MMT assets, composition information of the MMT assets in the MMT package, and asset transfer characteristics.

The transport layer 220 defines a payload format and an application layer transport protocol. The payload format is defined to carry encoded media data regardless of the media type or encoding method. The application layer transport protocol provides enhanced features for delivery of packages including multiplexing and cross-layer communication. The transport layer 220 may perform, for example, network flow multiplexing, network packetization, QoS control, etc. of media transmitted over the network. In addition, the transport layer 220 may perform various functions such as multiplexing of media such as video and audio transmitted through a network, integration and division of packet levels, network packetization, QoS control, and synchronization between the transport layer and the encapsulation layer , Transport layer such as existing RTP, transport layer such as existing UDP and TCP, encapsulation layer, and interface with signaling layer. The transport layer 220 identifies the different types of payloads from the encapsulation layer 210 to handle the payload from the encapsulation layer 210. The transport layer 220 can handle temporary relationships between packets transmitted over different networks and different channels. The synchronization function may include hybrid network synchronization using a time stamp or the like. In addition, the transport layer 220 may handle the timing constraints of the MMT delivery packet for real-time media transmission. The transport layer 220 may perform error control of MMT media packets such as forward error correction and retransmission. The transport layer 220 may perform flow control of the MMT media packet. The transport layer 220 may perform interactions with other MMT layers as well as a lower layer through a cross layer design in order 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, the interface of the session initiation / control / management of the transferred media, the server based and / or client based trick mode, the service discovery, the synchronization and other layers such as the transport layer 220 and the encapsulation layer 210 Function and so on. Synchronization may include synchronization control in a hybrid network. The signaling layer 230 also defines the format of the message that manages the delivery and consumption of the MMT package. The message for consumption management is used to announce the structure of the MMT package, and the message for the delivery management is used to inform the structure of the payload format and the configuration of the protocol.

FIG. 3 is a diagram illustrating a conventional NAMF message, and FIG. 4 is a diagram illustrating a NAMF message according to an embodiment of the present invention.

Referring to FIGS. 3 and 4, the NAMF message according to an exemplary embodiment of the present invention includes a 1-bit NAM_flag field and a field for displaying relative network status information. The NAM_flag field may be set to a value depending on whether or not the media terminal should send the network status information. If the value of NAM_flag is set to 0, the NAMF message may include relative network status information, and 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 of a media terminal according to an exemplary embodiment of the present invention.

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

Then, it can be determined whether it is necessary to transmit the absolute network status information through the NAMF message to be generated (S515).

If it is determined in step S515 that 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 in step S520.

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

If it is determined in step S515 that 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 situation information is 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 effectively utilizing the network resources according to the network status information report.

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

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

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

If it is determined in step S615 that the value of the NAM_flag field of the NAMF message is 1, the network status information set in the NAMF message may be determined to be the absolute network status information and the NAMF message may be processed in operation S620.

If it is determined in step S615 that the value of the NAM_flag field of the NAMF message is 0, the network status information set in the NAMF message may be determined as the relative network status information and the NAMF message may be processed in operation S630.

In this way, the media server can efficiently utilize the network resources by processing the NAMF message according to the network status 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, All or some of the embodiments may be selectively combined.

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

Claims (1)

Determining a type of network status information to be reported to the media server by the media terminal;
Generating a NAMF message including a flag value according to the type of the network status information;
Setting network status information corresponding to the flag value in the NAMF message and transmitting the network status information to the media server; And
Determining a type of the network status information set in the NAMF message through the flag value, and processing the transmitted NAMF message according to the determined type of the network status information
And transmitting the feedback information to the MMT signaling processing unit.

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