KR20100123808A - Method and apparatus for broadcast data reception - Google Patents

Abstract

PURPOSE: A method and a device for receiving broadcast data are provided to supply the first mapping information to quickly access only a desired IP packet, thereby increasing data processing speed. CONSTITUTION: The first mapping information is received(S910). The first mapping information comprises mapping information between an IP address and a transmitting channel. The IP address corresponds to an IP packet group including at least one IP packet. The IP packet group is loaded in the transmitting channel. The transmitting channel in which the IP packet group is loaded is accessed based on the first mapping information. The IP packet group is obtained from the accessed transmitting channel(S930). The IP packet group is transmitted through a data transmitting channel.

Description

Method and apparatus for receiving broadcast data {Method and apparatus for broadcast data reception}

The present invention relates to a broadcast data transmission method, a transmission device and a broadcast data reception method and a reception device, and more particularly, to a broadcast data transmission method, a transmission device and a broadcast data reception method and a reception device for providing a broadcast service according to the OMA BCAST standard. It is about.

Today, digital broadcasting, which provides not only CD-quality high-quality audio services but also various additional data services such as weather, traffic, entertainment and video, is popular. In particular, broadcast technologies that enable digital broadcasting on mobile devices are in the spotlight.

The Advanced Television System Committee (ATSC) defines an 8-VSB (8-level Vestigial SideBand) transmission system for digital broadcasting, and is a more advanced form of 8-VSB used by the Advanced-Vestigial SideBand (A-VSB) system. do. The 8-VSB transmission system uses eight levels of modulated signal levels and residual sideband modulation technology. The video signal is compressed according to the MPEG-2 standard, and the audio signal is compressed according to the AC-3 standard. Compressed signals are multiplexed and transmitted. This method has a merit of being able to transmit broadcasts of several channels at the same time since the signal formats vary from 18 to 18.

Meanwhile, thanks to the development of digital transmission technology, a broadcast communication convergence service that provides a broadcast service and a communication service using the same terminal has been in the spotlight. In the OMA-BCAST (Open Mobile Alliance-BroadCAST) standard, content is provided to a terminal through an IP-based packet, and the provided content may be transmitted through a communication network as well as a broadcasting network.

However, unlike the case where the packet is transmitted through the communication network, when the packet is transmitted through the broadcasting network, the location of the packet to be obtained cannot be easily known. Therefore, since the broadcast receiving apparatus receives all packets once and extracts and processes the desired packets using header information of each packet, it is very inconvenient in a broadcast system that needs to quickly search for and process a desired data position.

In particular, the OMA-BCAST standard defines SG (Service Guide) that provides additional information about broadcasting services such as EPG and SG Service Guide Announcement that provides metadata about SG. In order to receive, the packet including the SG announcement and the packet including the SG must be sequentially processed. However, it is very inconvenient to receive a broadcast service based on the OMA-BCAST standard in a conventional broadcast system in which the location of a desired packet cannot be easily known.

An object of the present invention for solving the above problems is to provide a method and apparatus for efficiently providing an Internet Protocol (IP) service in an ATSC transmission system.

One feature of the present invention for achieving the above object is a broadcast data transmission method for providing a broadcast service using an Internet Protocol (IP) packet, at least one classified based on the service provided by the IP packets Receiving an IP packet group; Generating first mapping information indicating mapping information between an IP address corresponding to each of the at least one IP packet group and an address in a transport channel on which each of the at least one IP packet group is to be mounted; And transmitting the first mapping information and the at least one IP packet group through the transport channel.

The transmission channel may be a channel for transmitting data in the A-VSB system.

The transport channel is a data transport channel for transmitting data, and the at least one IP packet group to be transmitted through the data transport channel includes an additional information IP packet group for providing additional information about a broadcast service and the additional information. It may include at least one of the metadata IP packet group for providing metadata about the IP packet group.

Generating second mapping information indicating mapping information between an IP address corresponding to the metadata IP packet group and the data transmission channel on which the metadata IP packet group is to be mounted; And transmitting the second mapping information through a signaling information transmission channel for transmitting signaling information which is information necessary for transmission and reception of a broadcast.

First additional information IP packet groups including additional information about a first broadcast service provided through a first data transmission channel and additional information about a second broadcast service provided through a second data transmission channel. The method may further include transmitting the second additional information IP packet groups together through an integrated additional information transmission channel for transmitting integrated additional information about a broadcast service.

The additional information IP packet group may provide a service guide on the OMA BCAST standard, and the metadata 2 IP packet group may provide a service guide announcement on the OMA BCAST standard.

The transport channel includes at least one sub data channel on which at least one IP packet is to be mounted, and an address in the data transport channel indicates an LMT indicating a location of a sub data channel on which each of the at least one IP packet group is to be mounted. It may be an index number.

According to another aspect of the present invention, in a broadcast data receiving method for providing a broadcast service using an Internet Protocol (IP) packet, an IP corresponding to each of at least one IP packet group classified based on a service provided by the IP packets Obtaining first mapping information from the transport channel indicating mapping information between an address and an address in a transport channel on which each of the at least one IP packet group is mounted; And selectively obtaining an IP packet group to be obtained from the at least one IP packet group based on the first mapping information.

The transmission channel may be a channel for transmitting data in the A-VSB system.

The transmission channel is a data transmission channel for transmitting data, and the at least one IP packet group transmitted through the data transmission channel includes an additional information IP packet group for providing additional information about a broadcast service and the additional information. It may include at least one of the metadata IP packet group for providing metadata about the IP packet group.

The selectively acquiring may include acquiring the metadata IP packet group from the data transmission channel using the first mapping information; Processing the obtained metadata IP packet group to obtain an IP address corresponding to the additional information IP packet group; And acquiring the additional information IP packet group from the data transmission channel using the first mapping information and the obtained IP address.

The at least one IP packet group transmitted through the data transmission channel includes at least one data IP packet group for providing a broadcast service, and the selectively acquiring may include obtaining the additional information IP packet group. Processing to obtain an IP address corresponding to the data IP packet group; And selectively acquiring a data IP packet group to be acquired among the at least one data IP packet group by using the first mapping information and an IP address corresponding to the data IP packet group. .

Acquiring second mapping information indicating mapping information between the IP address corresponding to the metadata IP packet group and the data transmission channel from a signaling transport channel for transmitting signaling information which is information necessary for transmitting and receiving broadcasts; And accessing the data transmission channel on which the metadata IP packet group is mounted based on the second mapping information, and wherein acquiring the first mapping information comprises: selecting a predetermined channel in the accessed data transmission channel. The first mapping information may be obtained from a location of.

The additional information IP packet group may provide a service guide on the OMA BCAST standard, and the metadata IP packet group may provide a service guide announcement on the OMA BCAST standard.

The transmission channel is an integrated additional information transmission channel for transmitting integrated additional information about a broadcast service, and the at least one IP packet group transmitted through the integrated additional information transmission channel is provided through a first data transmission channel. A second additional information IP packet group including additional information about a second broadcast service provided over the first additional information IP packet groups and a second data transmission channel, including additional information about the first broadcast service that is made. Can include them.

The transport channel includes at least one sub data channel on which at least one IP packet is mounted, and an address in the transport channel indicates an LMT index indicating a location of a sub data channel on which each of the at least one IP packet group is mounted. It may be a number.

According to another aspect of the present invention, there is provided a broadcast data transmission apparatus for providing a broadcast service using an Internet Protocol (IP) packet, comprising: a receiver configured to receive at least one IP packet group classified based on a service provided by the IP packets; A first mapping information generation unit for generating first mapping information indicating mapping information between an IP address corresponding to each of the at least one IP packet group and an address in a transport channel on which each of the at least one IP packet group is mounted; And a transmitter for transmitting the first mapping information and the at least one IP packet group through the transport channel.

According to another aspect of the present invention, in a broadcast data receiving apparatus for providing a broadcast service using an IP (Internet Protocol) packet, an IP corresponding to each of at least one IP packet group classified based on a service provided by the IP packets A first mapping information obtaining unit obtaining first mapping information from the transport channel, the first mapping information indicating mapping information between an address and an address in a transport channel on which each of the at least one IP packet group is mounted; And an IP packet group acquisition unit for selectively acquiring an IP packet group to be acquired among the at least one IP packet group based on the first mapping information.

According to the present invention, since the first mapping information can be quickly accessed and processed only to desired IP packets, the data processing speed can be improved.

In addition, as it is possible to provide a broadcast service according to the OMA-BCAST standard, there is an effect that the range of utilization of the A-VSB transmission system can be extended.

In addition, there is an effect that the integrated additional information can be effectively delivered to the user by providing the integrated additional information.

In addition, by using the first mapping information and the second mapping information, it is possible to effectively obtain a service guide according to the OMA-BCAST standard.

1 is a diagram illustrating a protocol stack of an A-VSB transmission system providing an Internet Protocol (IP) service according to an embodiment of the present invention.
2 is a diagram illustrating a syntax of IMT according to an embodiment of the present invention.
3 is a diagram illustrating an embodiment of a method for providing a broadcast service according to the present invention.
4 is a diagram illustrating an embodiment of a method for providing a broadcast service on an OMA-BCAST standard.
5 is a diagram illustrating an embodiment of SG acquisition on an OMA-BCAST standard.
6 is a diagram illustrating a broadcast transmission device 600 according to an embodiment of the present invention.
7 is a diagram illustrating a broadcast receiving device 700 according to an embodiment of the present invention.
FIG. 8 illustrates an embodiment of a detailed configuration of the IP packet group acquisition unit 720 of FIG. 7.
9 illustrates a broadcast transmission method according to an embodiment of the present invention.
10 is a view showing a broadcast receiving method according to an embodiment of the present invention.

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

1 is a diagram illustrating a protocol stack of an A-VSB transmission system that provides a broadcast service through an IP (Internet Protocol) packet according to an embodiment of the present invention.

In FIG. 1, a broadcast service is provided by IP packets packetized according to the OMA-BCAST standard.

The data for providing the service is used to generate IP packets that comply with the OMA-BCAST standard. The generated IP packets are grouped according to the services they provide. A service consists of one or more service components. As a simple example, the A / V service consists of an audio service and a video service. In this case, the generated packets may be grouped into a first IP packet group providing an audio service and a second IP packet group providing a video service. Each group of IP packets has a corresponding IP address. That is, the destination IP address or source IP address of IP packets belonging to the same IP packet group is the same. In the present specification, an IP packet group means one or more consecutive packets, and according to an embodiment, may be used to mean an IP stream or an IP virtual channel.

IP packets are different in form from transport packets defined in A-VSB MCAST (hereinafter referred to as MCAST). Thus, the packet layer applies IP packets to packets that can be used in MCAST and adds headers. In addition, the packet layer packetizes the signaling information separately from the IP packets. Signaling information means information necessary for data transmission and reception.

IP packets are carried on the MCAST transport channel. The MCAST transport channel includes a sub data channel for transmitting at least one IP packet, and the IP packet groups are mounted on the sub data channel and transmitted. Each transport channel includes a sub data channel for transmitting signaling information. An IP mapping table (hereinafter referred to as IMT) exists in a sub data channel for transmitting signaling information, and it is possible to selectively process only a sub data channel in which a desired IP packet group is loaded by using IMT. A method of processing a desired IP packet group using IMT will be described later with reference to FIGS. 3 to 5.

MCAST system is provided with a separate transmission channel for transmitting the signaling information required for transmission and reception of the broadcast. In the present specification, a transport channel for transmitting signaling information is called a signaling information channel (SIC). The SIC contains the information necessary to process the remaining transport channels.

The SIC includes specific information about transport channels, and examples of such information include IMT, location information of transport channels in a transport frame, time slicing information, and decoding information about each transport channel. Hereinafter, in order to distinguish the IMT existing in the SIC from the IMT existing in other transport channels, it is called i-IMT.

2 is a diagram illustrating a syntax of IMT according to an embodiment of the present invention.

extended_version indicates whether IP_mappping_table () has been updated. If the extended_version value is '0', it indicates that IP_mappping_table () has not been updated.

number_of_channel represents the number of transport channels. Each transport channel includes a group of metadata IP packets to be described later. Therefore, the number of metadata IP packet groups is equal to the number of transport channels or larger than the number of transport channels.

reference_ch_flag indicates whether the corresponding transport channel is an integrated additional information transport channel for transmitting integrated additional information about a broadcast service. If the reference_ch_flag value is '1', the corresponding transport channel is an integrated side information transport channel. For example, only a part of ESG information is mounted on a general transport channel. However, the integrated side information transmission channel may include all the ESG information transmitted. As such, the integrated side information transmission channel becomes a reference channel for the other transport channel.

reserved is a reserved area for a change in syntax.

turbo_channel_id is an identifier for identifying a transport channel.

LMT_Index_number indicates the position of the sub data channel on which the IP packet group is mounted. Each sub data channel is assigned an LMT index number. Since the value of LMT_Index_number means the LMT index number, the location of the sub data channel on which the IP packet group is mounted can be known using the value of LMT_Index_number.

number_of_IP_ch_descriptor represents the number of IP_channel_description (). This is equal to the number of IP packet groups mounted on the transport channel.

IP_channel_description () contains an additional description of the IP packet group. IP_channel_description () provides a brief description of the IP address table corresponding to the IP packet group, the MAC address table corresponding to the IP packet group, and the IP packet group. The IP address used in the IP address table can use one of the IP addresses according to the IPv4 standard and the IPv6 standard.

3 is a diagram illustrating an embodiment of a method for providing a broadcast service according to the present invention. In FIG. 3, an IP packet group is classified into a data IP packet group, a side information IP packet group, and a metadata IP packet group. The data IP packet group is a collection of IP packets including data for providing a broadcast service. Additional Information The IP packet group is a collection of IP packets that provide additional information about a broadcast service. In addition, the metadata IP packet group is a set of IP packets which provide metadata regarding the additional information IP packet group.

 The broadcast reception device first approaches the SIC. The SIC includes an i-IMT, which includes an IP address corresponding to each metadata IP packet group, information on which transport channel each metadata IP packet group is loaded, and each metadata IP. It contains simple information about the packet group. Table 1 below is a table illustrating the information extracted from the i-IMT.

IP address Identifier of the transport channel Short description 1. 1. 1. 1 One kbs1, Monday broadcast schedule 1. 1. 2. 1 2 kbs1, Tuesday broadcast schedule 1. 1. 3. 1 3 kbs2, Monday broadcast schedule 1. 1. 4. 1 4 kbs3, monday broadcast schedule

Referring to Table 1, four metadata IP packet groups exist. The metadata IP packet group mounted on the first transport channel includes organizational information about broadcasts provided through the kbs1 base station on Monday, and the metadata IP packet group loaded on the second transport channel is provided via the kbs1 base station on Tuesday It can be seen that it contains the organization information about the broadcast.

The broadcast reception device induces a user's selection by displaying a brief description of each metadata IP packet group. When the user selects a specific metadata IP packet group, the user moves to a transport channel including the metadata IP packet group selected by the user with reference to i-IMT. In the following description, it is assumed that a user wants to receive organizational information about a broadcast provided through a kbs2 base station on Monday. Referring to Table 1, it can be seen that the metadata IP packet group selected by the user has a corresponding IP address of 1.1.3. 1 and is mounted on the third transport channel.

The broadcast reception device obtains an IMT by accessing a third transport channel. The IMT is mounted on a sub data channel for transmitting signaling information in the third transport channel. The IMT includes information on the actual location on which all IP packet groups existing in the third transport channel are mounted. Table 2 below is a table showing the information extracted from the IMT.

IP address LMT index number 1. 1. 3. 1 5 1. 1. 3. 2 6 1. 1. 3. 3 7 1. 1. 3. 4 8 1. 1. 3. 5 9 1. 1. 3. 6 10 1. 1. 3. 7 11 1. 1. 3. 8 12 1. 1. 3. 9 13

Through the i-IMT, the broadcast reception device has an IP address corresponding to the metadata IP packet group selected by the user as' 1. 1. I know it's 1 '. Referring to Table 2, the IP address is set to '1. It can be seen that an IP packet group of 3.1 1 is mounted on a sub data channel having an LMT index number of '5'. The broadcast reception device accesses a sub data channel having an LMT index number of '5' and processes IP packets.

Meanwhile, the meta data IP packet group provides meta data about the sub information IP packet group. That is, the metadata IP packet group includes IP address information corresponding to the additional information IP packet groups. The broadcast reception device may obtain IP addresses corresponding to the additional information IP packet groups by processing the IP packets included in the metadata IP packet group. The IP addresses corresponding to the side information IP packet groups are '1. 1.3. 2 ',' 1. 1.3 and 3 'and' 1. Assume 1. 3 '.

The broadcast reception device obtains IP packets by accessing sub data channels loaded with additional information IP packet groups using IMT. Referring to Table 2, it can be seen that the additional information IP packet groups are mounted in sub data channels having LMT index numbers '6', '7', and '8'. The broadcast reception device processes IP packets by accessing a sub data channel having an LMT index number of '6', '7', and '8'. The additional information IP packet groups include IP addresses of data IP packet groups providing a broadcast service.

The broadcast receiving apparatus processes the additional information IP packet groups and combines the broadcast scheduling information provided by the kbs2 base station on Monday. The combined broadcast programming information is displayed to induce a user's selection. When a user selects a broadcast service to be provided, the broadcast reception device accesses sub data channels loaded with corresponding data IP packet groups by using an IP address and an IMT extracted from the additional information IP packet groups. Thereafter, IP packets mounted on corresponding sub data channels are processed to provide a broadcast service to a user.

According to the present invention, it is possible to selectively extract and process only desired IP packets, and in particular, to provide a broadcast service according to the OMA-BCAST standard.

4 is a diagram illustrating an embodiment of a method for providing a broadcast service on an OMA-BCAST standard.

In FIG. 4 and FIG. 5, a service guide delivery channel (hereinafter referred to as an SG transport channel) corresponds to an additional information IP packet group and is referred to as a service guide announcement channel (hereinafter referred to as an SG announcement channel). ) Corresponds to a group of metadata IP packets.

In step s410, the SIC 401 is accessed to obtain an i-IMT. The i-IMT is used to access the transport channel equipped with the SG announcement channel to be acquired.

It is assumed that the first transmission channel 402, which is a data transmission channel for transmitting data, is equipped with an SG publication channel to be acquired.

In operation S420, the first transmission channel 402 is accessed to obtain an IMT from the sub data channel 411 on which the signaling information is loaded. Using the obtained IMT, the sub data channel 412 loaded with the SG announcement channel is accessed, and then the mounted IP packets are processed. Processing the IP packets results in obtaining IP addresses corresponding to the SG transport channels.

In operation S430, the sub data channels 413 and 414 loaded with the SG transport channels are accessed using the obtained IP address and the IMT to process the IP packets. Processing the sub data channels 413 and 414 obtains IP addresses corresponding to data IP packet groups providing a broadcast service.

In operation S440, the broadcast data is provided by accessing the sub data channel 415 loaded with the desired data IP packet group using the obtained IP address and the IMT and processing the IP packets.

This time, the case in which the SG publication channel to be acquired is mounted on the second transmission channel 403, which is an integrated additional information transmission channel for transmitting integrated additional information on a broadcast service, will be described. Assume that each transmission channel is equipped with one day's broadcast schedule information. If the user requests a week's worth of broadcast schedule information, the broadcast receiving apparatus needs to access the respective channels to obtain a day's worth of broadcast schedule information and then combine the week's broadcast schedule information. In order to prevent such inconvenience, all of the broadcasting schedule information of one day mounted on other channels is mounted on the integrated additional information transmission channel. Therefore, when a user requests a week's worth of broadcast schedule information, the broadcast receiving device accesses the integrated additional information transmission channel to obtain a week's worth of broadcast schedule information.

Steps s410 to s430 are the same as described above, and thus descriptions thereof will be omitted.

In step S450, the sub data channel 415 loaded with the desired data IP packet groups is accessed using the IP address obtained by processing the IMT and SG transport channels. Meanwhile, the integrated IP information channel 403 may not include data IP packet groups. In this case, the sub data channel 415 loaded with the data IP packet groups will be included in another data transmission channel. Accordingly, the broadcast reception device will access another data transmission channel and process data IP packet groups.

5 is a diagram illustrating an embodiment of SG acquisition on an OMA-BCAST standard.

The user wants to see the broadcasting program information for one day. The broadcast schedule information to be provided to the user is mounted on the first transmission channel 501 and transmitted.

An IMT is obtained from the sub data channel 510 transmitting signaling information of the first transport channel 501. The IMT is used to access the sub data channel 520 equipped with the SG announcement channel. IP packets in sub data channel 520 provide metadata for the SG transport channel. The IP packets in the sub data channel 520 are processed to obtain IP addresses corresponding to the SG transport channels.

The IMT information and the IP address are used to access the sub data channels 530, 540 and 550 equipped with the SG transport channels. The sub data channel 530 provides broadcast programming information from 00:00 to 08:00, the sub data channel 540 provides broadcast programming information from 08:00 to 16:00, and the sub data channel ( 550) provides broadcasting program information from 16:00 to 24:00.

The sub data channels 530, 540, and 550 are processed and combined to obtain broadcast programming information of one day.

6 is a diagram illustrating a broadcast transmission device 600 according to an embodiment of the present invention.

The broadcast transmission device 600 according to the present invention includes a receiver 610, a first mapping information generator 620, and a transmitter 630, and provides a broadcast service using an IP (Internet Protocol) packet.

The receiver 610 receives at least one IP packet group. At least one IP packet group may be classified based on a service provided by the IP packets. IP packets belonging to the same IP packet group have the same destination (or source) IP address. The IP packet group includes a data IP packet group for providing a broadcast service, an additional information IP packet group for providing additional information about the broadcast service, and a metadata IP packet group for providing metadata for the additional information IP packet group. . The IP packets may be packets that comply with the OMA BCAST standard. The Supplementary Information IP packet group provides a service guide on the OMA BCAST standard, and the metadata IP packet group is a service guide announcement on the OMA BCAST standard. (Service Guide Annotation) can be provided.

The first mapping information generator 620 generates first mapping information indicating mapping information between an IP address corresponding to each of the at least one IP packet group and an address in a transport channel on which each of the at least one IP packet group is to be mounted. . When the broadcast transmission device 600 is transmitted through the A-VSB transmission system, the transport channel includes at least one sub data channel for mounting at least one IP packet. Each group of IP packets is mounted on a sub data channel and transmitted. The LMT index number is information indicating the position of the sub data channel. The address in the transport channel on which the IP packet group is to be mounted is provided using the LMT index number. In the A-VSB transmission system, the first mapping information is information indicating on which sub data channel each IP packet group is mounted.

The transmitter 630 transmits the first mapping information and the at least one IP packet group through a transport channel. On A-VSB systems, the transport channel is a turbo channel. The transmission channel is classified into a data transmission channel for transmitting data and a signaling information transmission channel for transmitting signaling information including second mapping information to be described later, and an integrated additional information transmission channel for transmitting integrated additional information about a broadcast service. do. The transmitter 630 may transmit the first mapping information, the meta data IP packet group, and the at least one additional information IP packet group through a data transmission channel.

The broadcast transmission device 600 according to the present invention may further include a second mapping information generator 640. The second mapping information generator 640 generates second mapping information indicating mapping information between the IP address corresponding to the metadata IP packet group and the data transmission channel. That is, the second mapping information is information on which transport channel each meta data IP packet group is loaded.

When the second mapping information is generated, the transmitter 630 transmits the second mapping information through the signaling information transmission channel. The signaling information transmission channel refers to a channel for transmitting signaling information which is information necessary for transmitting and receiving broadcast.

Meanwhile, the transmitter 630 may deliver integrated additional information about a broadcast service through the integrated additional information transmission channel. The integrated side information channel transmits side information IP packet groups included in two or more transmission channels through one channel. For example, the first additional information IP packet groups and the second additional information IP packet groups are transmitted together through an integrated additional information transport channel. In this case, the first additional information IP packet group includes additional information about the first broadcast service provided through the first data transmission channel, and the second additional information IP packet group is provided through the second data transmission channel. 2 Includes additional information about the broadcast service.

7 is a diagram illustrating a broadcast receiving device 700 according to an embodiment of the present invention.

The broadcast reception device 700 according to the present invention includes a first mapping information acquisition unit 710 and an IP packet group acquisition unit 720.

The first mapping information acquisition unit 710 transmits first mapping information indicating mapping information between an IP address corresponding to each of the at least one IP packet group and an address in a transport channel on which each of the at least one IP packet group is mounted. Obtained from

On the other hand, when the transmission channel is a channel for transmitting data in the A-VSB transmission system, the transmission channel includes at least one sub data channel on which at least one packet is mounted. In this case, the first mapping information may be mounted on a sub data channel for transmitting signaling information and transmitted. The first mapping information includes information on which sub data channel each IP packet group is loaded.

The IP packet group obtaining unit 720 selectively obtains only the IP packet group to be obtained from the at least one IP packet group transmitted through the transmission channel based on the first mapping information. The at least one IP packet group includes a data IP packet group for providing a broadcast service, an additional information IP packet group for providing additional information about the broadcast service, and a metadata IP packet group for providing metadata for the additional information IP packet group. It may include at least one of. In order to provide a broadcast service desired by a user, the IP packet group obtaining unit 720 must sequentially acquire the metadata IP packet group and the additional information IP packet group. The detailed configuration of the IP packet group acquisition unit 720 will be described later with reference to FIG. 8.

The additional information IP packet group herein may be a Service Guide Delivery Channel, which provides a service guide on the OMA BCAST standard. The service guide transport channel is a virtual channel that refers to a set of IP packets that provide a service guide. In addition, the metadata IP packet group may be a service guide announcement channel that provides a service guide announcement according to the OMA BCAST standard. The service guide announcement channel is a virtual channel that refers to a set of IP packets that provide service guide announcement.

The broadcast reception device 700 according to the present invention may further include a second mapping information acquisition unit 730. The second mapping information acquisition unit 730 obtains second mapping information from the signaling information transmission channel. The signaling information transmission channel transmits signaling information that is information necessary for transmitting and receiving broadcast. The second mapping information indicates mapping information between the IP address and the data transmission channel corresponding to the metadata IP packet group. That is, the second mapping information includes information indicating on which transport channel the metadata IP packet group is loaded.

The first mapping information acquisition unit 710 searches for a data transmission channel on which the metadata IP packet group requested by the user is loaded, based on the second mapping information acquired by the second mapping information acquisition unit 730. Then, the first mapping information is obtained from the sub data channel transmitting the signaling information in the searched transport channel.

FIG. 8 illustrates an embodiment of a detailed configuration of the IP packet group acquisition unit 720 of FIG. 7.

The IP packet group obtaining unit 720 according to the present invention includes a first obtaining unit 722 and a processing unit 724. The second acquirer 726 and the third acquirer 728 may be included.

The first acquirer 722 obtains the metadata IP packet group by using the first mapping information.

The processor 724 processes the obtained metadata IP packet group to obtain an IP address corresponding to the additional information IP packet group.

The second obtaining unit 726 obtains the additional information IP packet group by using the first mapping information and the obtained IP address.

The processing unit 724 processes the obtained additional information IP packet group to further obtain an IP address corresponding to the data IP packet group.

The third obtaining unit 728 selectively obtains the data IP packet group requested by the user using the IP address corresponding to the first mapping information and the data IP packet group.

On the other hand, when the user requests the integrated additional information on the broadcast service, the first mapping information acquisition unit 710 accesses the integrated additional information transmission channel using the second mapping information, and within the integrated additional information transmission channel. Obtain first mapping information from a predetermined position.

An integrated additional information transmission channel refers to a channel for transmitting integrated additional information about a broadcast service. The integrated additional information transport channel is equipped with a first additional information IP packet group and a second additional information IP packet group. The first additional information IP packet group includes additional information about a first broadcast service provided through a first data transmission channel, and the second additional information IP packet group includes a second broadcast service provided through a second data transmission channel. Including additional information about these.

In addition, a data IP packet group may not be mounted in the integrated additional information transmission channel. In this case, the third acquirer 728 must access another channel to acquire the data IP packet group by using the IP address corresponding to the first mapping information and the data IP packet group.

9 illustrates a broadcast transmission method according to an embodiment of the present invention.

In step s910, at least one IP packet group is received. IP packet groups are classified based on services provided by IP packets, and at least one IP packet group is mounted on a transport channel and transmitted.

In operation S920, first mapping information is generated. The first mapping information indicates mapping information between an IP address corresponding to each of the at least one IP packet group and an address in a transport channel on which each of the at least one IP packet group is to be mounted. In other words, the first mapping information includes information regarding the position where the IP packet group is mounted in the transmission channel.

In operation S930, the first mapping information and the at least one IP packet group are transmitted through a transport channel. The present invention provides at least one of an additional information IP packet group for providing additional information about a broadcast service and a metadata IP packet group for providing metadata for the additional information IP packet group to provide a broadcast service according to the OMA BCAST standard. send.

10 is a view showing a broadcast receiving method according to an embodiment of the present invention.

In operation S1010, first mapping information is obtained from a transport channel. In order to obtain the first mapping information, the second mapping information may be obtained first. The second mapping information indicates mapping information between the IP address and the data transmission channel corresponding to the metadata IP packet group. That is, the second mapping information includes information on which transport channel the metadata IP packet group is loaded. The second mapping information can be obtained through the signaling transport channel.

In operation S1020, an IP packet group to be acquired from among at least one IP packet group is selectively acquired from a transport channel based on the first mapping information.

Step s1020 may be implemented by steps s1021 to s1025.

In step S1021, the metadata IP packet group is obtained from the data transmission channel using the first mapping information.

In step S1022, the acquired metadata IP packet group is processed to obtain an IP address corresponding to the additional information IP packet group.

In step S1023, the additional information IP packet group is obtained from the data transmission channel using the first mapping information and the obtained IP address.

In step s1024, the acquired additional information IP packet group is processed to obtain an IP address corresponding to the data IP packet group. At least one data IP packet may be mounted in the data transmission channel.

In operation S1025, a data IP packet group to be acquired from among at least one data IP packet group is selectively acquired.

In the present specification, the present invention has been described as being performed on an A-VSB transmission system. However, the present invention is not limited to the A-VSB transmission system and may be performed in any transmission system defined by ATSC.

Meanwhile, the above-described embodiments of the present invention can be written as a program that can be executed in a computer, and can be implemented in a general-purpose digital computer that operates the program using a computer-readable recording medium.

The computer-readable recording medium may be a magnetic storage medium (for example, a ROM, a floppy disk, a hard disk, etc.), an optical reading medium (for example, a CD-ROM, a DVD, etc.) and a carrier wave (for example, the Internet). Storage medium).

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

Claims (6)

In the method for receiving broadcast data through an IP (Internet Protocol) packet,
Receiving first mapping information including mapping information between an IP address corresponding to an IP packet group including at least one IP packet and a transport channel on which the IP packet group is mounted;
Accessing a transport channel on which an IP packet group is mounted based on the first mapping information; And
Acquiring the IP packet group from the accessed transport channel. The method of claim 1,
The IP packet group is transmitted through a data transmission channel,
The first mapping information is transmitted through an information channel. The method of claim 2, wherein the first mapping information,
And a version number indicating whether at least one signaling information has changed. In the apparatus for receiving broadcast data through an IP (Internet Protocol) packet,
A receiving unit receiving first mapping information including mapping information between an IP address corresponding to an IP packet group including at least one IP packet and a transport channel on which the IP packet group is mounted;
An access unit accessing a transport channel on which an IP packet group is mounted based on the first mapping information; And
And an acquisition unit for acquiring the IP packet group from the accessed transport channel. The method of claim 4, wherein
The IP packet group is transmitted through a data transmission channel,
And the first mapping information is transmitted through an information channel. The method of claim 5, wherein the first mapping information,
And a version number indicating whether at least one signaling information has changed.

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