KR20120060014A - Method and apparatus for allocating channel for massive contents - Google Patents

Abstract

PURPOSE: A channel allocation method and an apparatus thereof are provided to dynamically allocate necessary transmission band in order to transmit mass broadcasting content. CONSTITUTION: Input content is decoded(S210). A transmission band is allocated for transmitting content based on a transmission parameter(S230). The transmission parameter includes the kind of the content, necessary transmission band, and a QoS(Quality of Service) parameter. Transmission band and channel information is transmitted to program service information(S240).

Description

Method and device for allocating channel for large contents {METHOD AND APPARATUS FOR ALLOCATING CHANNEL FOR MASSIVE CONTENTS}

The present invention relates to channel allocation, and more particularly, to a channel allocation method and apparatus for transmitting a large amount of content.

In general, digital broadcasting uses a method in which content is allocated to one channel and transmitted, and the content is received through one channel.

A channel refers to one physical channel or one or more logical virtual channels allocated within one physical channel.

One broadcast channel does not physically exceed the range of one radio frequency (RF) channel. In addition, it is common to configure a transport channel according to a predetermined channel assignment regardless of the amount of content to be transmitted through one physical broadcast channel.

Consider the case where the available transmission bandwidth is larger than the predetermined bandwidth. At this time, despite the remaining bandwidth, there is no choice but to use a predetermined bandwidth. Thus, an inefficient problem of not using the remaining resources may result.

Recently, there has been an increasing demand for and production of high-volume content such as multi-view 3D or Ultra High Definition Television (UHDTV).

As a large amount of content appears, the existing static channel allocation method may not have sufficient transmission capacity or may not use enough available resources.

The present invention provides a method and apparatus for dynamically allocating a transmission band required for transmitting a large amount of broadcast content.

The present invention also provides a method and apparatus for efficiently using transmission resources in consideration of available transmission bands.

A channel allocation method for transmitting a large amount of content is provided. The method includes decoding input content, allocating a transmission band for transmission of the content based on a transmission parameter, and transmitting the program service information regarding the transmission band allocated for transmission of the content. Include.

The transmission parameter may include a type of the content, a required transmission band, and a quality of service (QoS) parameter.

Dynamically allocating available transmission bands for large content, such as multi-view 3D and UHDTVs, whose transmission bands exceed a single channel capacity, allowing more efficient use of transmission resources.

Even if the transmission capacity of a large amount of content exceeds the transmission capacity of a single channel, the transmission can be made possible. In addition, it is possible to efficiently use the transmission resources by making the most of the remaining transmission band in the channel.

1 is a block diagram illustrating a system according to an embodiment of the present invention.
2 is a flowchart illustrating a channel allocation method according to an embodiment of the present invention.
3 is a flowchart illustrating a content receiving method according to an embodiment of the present invention.

1 is a block diagram illustrating a system according to an embodiment of the present invention.

The transmission device 100 includes an encoder 110, a channel allocator 120, and a transmitter 130.

The encoder 110 encodes the input content. The content may be for multi-view 3D or UHDTV programs.

The channel allocator 120 allocates a transmission channel for content transmission based on the transmission parameter. The transmission parameter includes the type of content, transmission capacity and / or quality of service (QoS) parameters. The assignment of the transport channel includes the transport band assignment for content delivery. The channel allocator 120 may allocate one or more transport channels. The channel allocator 120 calculates a transmission band required for transmission of the content based on the transmission capacity and the QoS parameters of the content. After calculating a transmission band required for content transmission, the transmission band for transmitting the content is allocated to the currently available transmission band and channels.

The transmitter 130 transmits transport streams allocated to each transport band through each transport channel. The transmitter 130 may perform transport stream (TS) multiplexing.

The reception device 300 includes a receiver 310 and a display 320.

The receiver 310 receives transport streams containing content via the network 200. To receive the transport stream, the receiver 310 may use transport information including service information.

The receiver 310 may be a set top box or may decode content.

The display 320 displays the decoded content.

The following table is an example of information required for dynamically allocating a transmission band and a channel according to content type.

Type Peak bandwidth Average Bandwidth Delay Bound Inter-Channel Jiter Bound 3DTV 1 80 Mbps 70 Mbps 50 ms 50 ms 3DTV 2 60 Mbps 50 Mbps 50 ms 50 ms UHDTV 1 120 Mbps 100 Mbps 100 ms 100 ms UTHDTV 2 80 Mbps 70 Mbps 100 ms 100 ms

Each piece of information is identified by dynamic transmission band and channel allocation equipment and used for transmission band allocation.

For example, in the case of 3DTV 1 content, the maximum transmission capacity required for transmission requires 80 Mbps, and the average transmission capacity required is 70 Mbps. In addition, when a maximum delay time is 50ms in a channel and transmitted through a plurality of channels, it means that a delay variation time between channels is at most 50ms.

The channel allocator 120 dynamically allocates a transmission band from the available transmission bands by using the inputted content information.

2 is a flowchart illustrating a channel allocation method according to an embodiment of the present invention.

Multi-view 3DTV, UHDTV, HDTV content, etc. are received and decoded (S210).

A transmission parameter including the type of input content, a required transmission band, and a QoS parameter is checked (S220).

The transmission band and the like are calculated for the transmission of the corresponding content based on the transmission parameter, and the transmission band and the channel are allocated using the available transmission band information (S230).

The transmission band and channel information allocated for transmission of the corresponding content are updated in the program service information and periodically transmitted (S240).

Large broadcast contents are large programs that are difficult to transmit through existing statically allocated transmission channels. Two or more transport channels may be required to transfer these programs. In addition, when transmitting through two or more transmission channels, it is possible to more efficiently utilize transmission resources by grasping the situation of the transmission band of each channel and transmitting the corresponding contents to an RF channel having an available transmission band.

3 is a flowchart illustrating a content receiving method according to an embodiment of the present invention.

Program service information regarding a multiview 3DTV, UHDTV, HDTV content, etc. is received (S310).

When the viewer selects specific content, the channel is transmitted using the content service information (S320).

Receives a transport stream transmitted through the tuned transport channels (S330)

The received transport stream is decoded and displayed on a TV or the like (S340).

In the exemplary system described above, the methods are described based on a flowchart as a series of steps or blocks, but the invention is not limited to the order of steps, and certain steps may occur in a different order or concurrently with other steps than those described above. Can be. In addition, those skilled in the art will appreciate that the steps shown in the flowcharts are not exclusive and that other steps may be included or one or more steps in the flowcharts may be deleted without affecting the scope of the present invention.

Claims (1)

In the channel allocation method for transmitting a large amount of content,
Decoding the input content;
Allocating a transmission band for transmission of the content based on a transmission parameter, wherein the transmission parameter includes a type of the content, a required transmission band, and a quality of service (QoS) parameter; And
And transmitting the program service information about the transmission band allocated for the transmission of the content.

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