KR100767782B1 - Broadcasting Information Providing System And Broadcasting Information Providing Method Using The Same - Google Patents

Abstract

The present invention relates to a DMB broadcast and a method of providing broadcast information therefor, wherein the area information for division of a broadcast area is included in the DMB data and transmitted, and the mobile communication terminal and the mobile communication system receiving the area information are transmitted by the area information. The present invention relates to a broadcasting information providing system and a broadcasting information providing method for distinguishing a broadcasting area so as to provide broadcasting information corresponding to the received DMB data, and a broadcasting information providing method using the broadcasting information providing system determines a transmission area of DMB data. At least one zone for classification is selected, the first step of being given the calling area code for each selected area, the second step of creating a calling area code information list by using the calling area code for each area, the sent out A third step of adding regional information including the origination area code of the transmission area to DMB data; And a fourth step of transmitting the DMB data including the regional area information, a fifth step of receiving the DMMB data to extract the regional area information, and using the extracted regional area information, corresponding to the regional area information. And a sixth step of acquiring broadcast information of the region.

EPG, Area, Broadcasting Information, DMB, Mobile Communication

Description

Broadcasting Information Providing System and Broadcasting Information Providing Method Using Them {Broadcasting Information Providing System And Broadcasting Information Providing Method Using The Same}

1 is a block diagram showing a broadcast information providing system according to a first embodiment of the present invention.

2 is a structure diagram of a transport frame showing a DMB data frame including regional area classification information according to the present invention;

3 is a system configuration diagram showing a mobile communication system according to a first embodiment of the present invention.

4 is a block diagram showing a system for transmitting DMB data in a DMB system according to a first embodiment of the present invention.

5 is an exemplary diagram showing a DMB broadcasting area and a mobile communication cell area;

FIG. 6 is a diagram illustrating broadcast information serviced for each DMB broadcasting zone of FIG. 5; FIG.

7 is a flowchart illustrating a broadcast information providing method according to a first embodiment of the present invention.

8 is a flow chart detailing the second step of FIG.

9 is a more detailed flow chart of the third and fourth steps of FIG.

10 is a more detailed flow chart of the fifth and sixth steps of FIG.

FIG. 11 is a flow diagram between systems representing FIGS. 7 to 10 for easier understanding.

12 is a block diagram showing a broadcast information providing system according to a second embodiment of the present invention.

FIG. 13 is a structural diagram showing a transmission frame for delivering regional classification information according to a second embodiment of the present invention; FIG.

14 is a structural diagram showing the type field of FIG. 13 in more detail;

15 is a flowchart illustrating a broadcast information providing method according to a second embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1, 15, 42, 51, 61: DMB system

3, 44, 55, 65: mobile communication system

5, 40, 53, 63: mobile terminal 9: transmission frame

11: base mobile communication system 11a: base station

11b: base station controller 11c: mobile switching center

13: broadcasting information providing system 13a: broadcasting information server

13b: broadcasting information database 19: MSC multiplexer

20: transmission frame multiplexer 21: symbol generator

23: sync channel symbol generator 25: modulator

27: adder 29: regional classification information signal generator

31: First DMB System 33: First Mobile Communication Base Station

35: second DMB system 37: second mobile communication base station

The present invention relates to a DMB broadcast and a method of providing broadcast information therefor, and more particularly, to include and transmit regional information for division of a broadcast area into DMB data, and the mobile terminal and the mobile communication system that receive the same transmit information to the regional information. The present invention relates to a broadcast information providing system and a broadcast information providing method for distinguishing broadcast areas by providing broadcast information corresponding to the received DMB data.

Recently, DMB (Digital Multimedia Broadcasting) broadcasting, which has successfully completed the test broadcasting, has entered into full-scale use service. DMB commercially available in Korea is provided in the form of providing DAB (Digital Audio Broadcasting) services, and satellite DMB and terrestrial DMB services are provided.

In the case of satellite DMB, a DMB satellite launched in a geostationary orbit transmits a signal transmitted from a terrestrial broadcaster to the ground, and a user views the DMB. In the case of such satellite DMB, since a shadow area occurs due to the characteristics of the satellite signal, some satellite DMB terrestrial base stations are used to cover the shadow area.

On the other hand, terrestrial DMB, like mobile communication in the area where a service is provided, installs a large number of terrestrial base stations and transmits DMB signals through it. Unlike the satellite DMB, the terrestrial DMB has a feature that coverage is limited to the vicinity of the base station and can provide different services for each region formed by overlapping each base station.

For example, if the districts are divided into Seoul Gyeonggi area, Chungcheong Jeolla area, and Gangwon Gyeongsang area, different broadcasts are sent to each area at the same time, so that different broadcasts can be viewed depending on the area used.

The reason for such division of terrestrial DMB is that the DMB service is provided by using a service method different from the terrestrial and satellite methods. In the case of the terrestrial system, relatively low frequencies corresponding to VHF channels 8 and 12 are used. In the case of the satellite system, high frequencies such as S band (2 to 3 GHz) and Ku band (12 to 14 GHz) are used. In the case of satellites, a uniform service is available to all regions of Korea due to the nature of the frequency. On the other hand, in the case of terrestrial DMB, as described above, multiple cells formed by the base stations must be combined to form a DMB serviceable area corresponding to one region. That is, in order to widen the area, many base stations must be installed, and a base station far from the central broadcasting station has a technical difficulty in transmitting data by a high speed communication line or wireless communication. For this reason, it is difficult for terrestrial DMB to establish a single broadcasting right throughout Korea and provide services by dividing it into several regions.

On the other hand, DMB broadcasting can provide a variety of information through the DMB frequency, unlike the conventional analog method. However, since DMB broadcasting does not provide an uplink, a mobile communication voice / data channel must be used as an uplink in order to obtain information required by a user. That is, the broadcast is received through the DMB receiving channel, and the information desired by the user for the corresponding channel is received using the data channel of the mobile communication.

As such, in order to use the communication channel of the mobile communication as an uplink channel, it is necessary to know exactly the region where the DMB receiving terminal is located and in which region of the DMB system the DMB data received in the region is transmitted. That is, it is necessary to exactly know the region to which the DMB receiving terminal belongs, so that the information required by the user can be accurately provided among the data provided by the mobile communication system.

However, in the conventional DMB broadcasting, in particular, the terrestrial DMB method has a problem in that it is difficult to identify an accurate area due to the characteristics of the DMB system and the mobile communication system. In more detail, the base stations used in the DMB system and the base stations used in the mobile communication system have different distances between the base stations, the number of installed base stations, and the characteristics of the used frequencies. Is difficult. In particular, mobile communication base stations installed in the boundary area of the DMB broadcasting area are often installed in the area where all the DMB signals transmitted from two or more areas are reached. In this case, when the terminal location information provided by the location information management server of the mobile communication system is used, jurisdiction information of the DMB system and DMB receiving terminal location information of the DMB system transmitting the DMB data being received by the DMB receiving terminal are differently identified. Problems often arise when people do not get the information they want. In addition, due to the influence of the environment and the topography of the weather, the radius and shape of DMB's broadcast zone and mobile communication cell area change from time to time, thereby providing accurate location information and regional information using terminal location information provided by the mobile communication system. There is a limit, and it is more difficult to provide accurate broadcast information through this.

Accordingly, an object of the present invention is to solve the above-described problems, and an object of the present invention is to include and transmit regional information for division of a broadcasting area into DMB data, and the mobile communication terminal and the mobile communication system that receive the regional information are transmitted to the regional information. The present invention provides a broadcast information providing system and a broadcast information providing method for distinguishing broadcast areas by providing the broadcast information corresponding to the received DMB data.

Another object of the present invention is to impose unique calling area code information for each DMB system that manages one regional area as regional area information, and to include it in DMB data for transmission, thereby providing information for regional classification. It provides a system and a broadcast information providing method using the same.

Another object of the present invention is to transmit and include the area code information and the list of the area code information recorded in the DMB data to perform the classification and verification of the area in the mobile terminal, thereby reducing the load burden of the mobile communication system It is to provide a broadcast information providing system and a broadcast information providing method using the same.

Another object of the present invention is to provide broadcast information enabling transmission of regional classification information without the need of a transmission frame region for transmitting separate regional information by writing the regional information to a null symbol of a transmission frame or a region of a high-speed information channel. The present invention provides a system and a method of providing broadcast information using the same.

Finally, another object of the present invention is to implement the system by receiving the regional classification information from the mobile communication system to determine the location of the mobile terminal, or to provide the stored broadcast information using the information determined from the mobile terminal According to the present invention, there is provided a broadcasting information providing system and a broadcasting information providing method using the same.

In order to achieve the above object, a broadcasting information providing system according to the present invention includes a DMB system for transmitting DMB data including regional classification information for distinguishing a broadcasting area, a mobile communication system for providing broadcasting information for each broadcasting area, and And a portable terminal that receives the regional classification information and transmits it to the mobile communication system, and receives the broadcasting information according to the regional classification information transmission.

In the broadcasting information providing method using the broadcasting information providing system according to the present invention, the first step in which at least one region for distinguishing a region of transmission of DMB data is selected, and a calling region code for each selected region is given, the region-by-region A second step of creating a calling area code information list by using a calling area code, a third step of adding area information including the calling area code of the sending area to the DMMB data sent, and including the area information; A fourth step of transmitting the DMB data, a fifth step of receiving the DMB data, extracting the regional information, and using the extracted regional information, obtaining broadcast information of the regional area corresponding to the regional information; Includes six steps.

Other objects and features of the present invention in addition to the above objects will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

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

1 is a block diagram showing a broadcast information providing system according to a first embodiment of the present invention.

Referring to FIG. 1, the broadcasting information providing system according to the first embodiment of the present invention includes a DMB system 1, a mobile communication system 3, and a portable terminal 5.

The DMB system 1 transmits DMB data including Local Area Grouping Information (LAGI_1) to distinguish broadcasting areas, and transmits original broadcasting information (OBI). To the system (3). Here, the regional classification information LAGI_1 is current Radiation Area Code Information (CRACI), which is previously divided and designated by the regional areas. Calling area code information (RACI) is a serial number or separator of a number of bits that can distinguish the region, the current calling area code information (CRACI) is a DMB system (1) for transmitting the DMB data received by the mobile terminal (5) Calling Area Code Information (CRACI) specified in). In other words, if Korea is divided into 10 zones, each zone can be divided into numbers from 1 to 10. When the Seoul area corresponds to No. 3 and the mobile terminal 5 is located in the Seoul area, the DMB data received by the mobile terminal 5 includes a current calling area code information (CRACI) of '3'. Is sent. The source broadcast information (OBI) is broadcast information provided to the mobile communication system 3 by the DMB system 1 in charge of the regional area. Source broadcasting information (OBI) means broadcasting channel information such as electronic program guide (EPG), broadcasting time information, and various additional information related to broadcasting. If there is more than one DMB system 1, or if one DMB system 1 is divided into DMB broadcasting stations each serving a plurality of zones, they may be provided from each broadcasting station or DMB system 1.

The mobile communication system 3 receives the area classification information LAGI_2 transmitted from the portable terminal 5, compares the received area classification information LAGI_2 with the calling area code information list CRACI List: CRACI_L. The broadcast zone to which the terminal 5 belongs is determined. Then, the mobile communication system 3 provides the portable terminal 5 with broadcasting information (BI) of a region where the portable terminal 5 is located according to the determination result. To this end, the mobile communication system 3 broadcasts information according to the broadcast information database for storing the source broadcasting information OBI and the calling area code information list CRACI_L and the regional classification information LAGI_2 from the mobile terminal 5. It is provided with a broadcast information server to search for.

The portable terminal 5 receives and outputs the DMB data, extracts the regional classification information LAGI_1 included in the DMB data, and provides the same to the mobile communication system 3. The mobile terminal 5 receives the broadcast information BI provided from the mobile communication system 3 and provides it to the user.

FIG. 2 illustrates a DMB data frame including the zone classification information LAGI_1 according to the present invention.

In order to provide broadcast information according to the first embodiment of the present invention, regional area classification information LAGI_1 should be included in DMB data. To this end, the first embodiment of the present invention uses a null symbol (NS) of the DMB data transmission frame as shown in FIG. The DMB data consists of a synchronization channel (SC), a fast information channel (FIC), and a main service channel (MSC). The transmission frame 9 is usually composed of 77 symbols. The main service channel (MSC) is composed of 72 symbols (Phase Reference Symbol: PRS), and the high speed information channel (FIC) is composed of three symbols (PRS). The synchronization channel SC is composed of one symbol PRS and another null symbol NS. In the present invention, the regional symbol information LAGI_1 is transmitted using this null symbol NS. In particular, the null symbol NS includes the current calling area code information CRACI among the regional classification information LAGI_1 and is transmitted together with the DMB data.

The transmission frame 9 typically has a length of 96 ms. Each symbol has a length of 1.246 ms and a null symbol has a length of 1.297 ms. The symbol PRS is further divided into a guard interval of 0.246 ms and a symbol data of 1 ms. In practice, the DMB data is passed to the user through this data part. The guard interval between the transmission frames 9 serves as a null symbol NS, and a length of 1.297 ms different from other symbols PRS is allocated for this purpose. In the first embodiment of the present invention, by transmitting the current originating area code information (CRACI) in this part, the mobile terminal enables the mobile terminal to confirm the area in which the currently received DMB data is emitted, and also transmits separate data. The zone classification information can be easily transmitted without adjusting the area.

3 is a system configuration diagram illustrating a mobile communication system according to a first embodiment of the present invention.

Referring to FIG. 3, the mobile communication system 3 according to the present invention includes a base mobile communication system 11 and a broadcast information system 13.

The base mobile communication system 11 provides the mobile terminal 1 with a mobile communication call channel capable of voice and data communication. In particular, the base mobile communication system 11 receives the regional classification information LAGI_2 from the mobile terminal 1 through the mobile communication call channel and provides it to the broadcast information system 13, and from the broadcast information system 13. The broadcast information BI is provided to the portable terminal 1. To this end, the base mobile communication system 11 includes a base station (BS) 11a, a base station controller (BSC) 11b, and a mobile switching center (MSC) 11c.

The broadcast information system 13 selects the broadcast information BI to be provided to the mobile terminal 1 by the zone classification information LAGI_2 transmitted through the base mobile communication system 11, and selects the selected broadcast information BI. It is provided to the portable terminal 1 through the base mobile communication system 11. In addition, the broadcast information system 13 classifies, processes, and stores the source broadcast information (OBI) provided from the DMB system 15. To this end, the broadcast information system 13 includes a broadcast information server 13a and a broadcast information database 13b. The broadcast information server 13a determines the broadcast area to which the portable terminal 1 belongs by the regional classification information LAGI_2, and determines the broadcast information BI to be transmitted to the portable terminal 1. Then, the broadcast information server 13a searches for and extracts the broadcast information BI stored in the broadcast information database 13b according to the determination result and transmits it to the base mobile communication system 11. In addition, the broadcast information server 13a classifies the source broadcast information OBI supplied from the DMB system 15 by region and stores it in the broadcast information database 13b. On the other hand, the broadcast information database 13b stores the original broadcast information (OBI) classified through the broadcast information server 13a, and provides it at the request of the broadcast information server 13a.

4 is a block diagram illustrating a system for transmitting DMB data in a DMB system according to a first embodiment of the present invention.

4, the DMB data transmission system according to the present invention includes an MSC multiplexer 19, a transmission frame multiplexer 20, a symbol generator 21, a synchronization channel symbol generator 23, an OFDM signal generator 25, and an adder. (27) and the zone classification information signal generator (29).

The MSC multiplexer 19 records broadcast DMB broadcast data of various sub-channels input to the MSC multiplexer 19 in each area configured in the main service channel of the transport frame (TF). The MSC created by the MSC multiplexer 19 is delivered to the transport frame multiplexer 20.

The transport frame multiplexer 20 combines the fast information channel (FIC) information provided from the fast information channel (FIC) signal generator (not shown) with the MSC provided from the MSC multiplexer 19. The transport frame multiplexer 20 transmits the prepared preliminary transport frame (FIC + MSC) information to the symbol generator 21.

The symbol generator 21 generates a symbol to transmit the preliminary transmission frame (FIC + MSC) information transmitted from the transport frame multiplexer 20, and allocates the preliminary transmission frame (FIC + MSC) to the generated symbol.

The sync channel symbol generator 23 creates and records a sync channel symbol for reproduction after transmission and reception of a transmission frame (TF), and transmits the created sync channel symbol to the OFDM signal generator 25.

Orthogonal Frequency Division Multiplexing (25) generates a transmission frame (TF) by combining a synchronization channel symbol with a preliminary transmission frame (FIC + MSC) assigned to the symbol, and converts the transmission frame (TF) into an actual DMB frequency. Modulate for transmission.

The adder 27 combines the null symbol including the regional classification information LAGI_1 provided from the regional classification information signal generator 29 and the modulated transmission frame TF to a transmitting end (not shown).

The regional classification information signal generator 29 converts the regional classification information LAGI_1 into a recordable form in the null symbol NS allocated to the transmission frame TF, so as to transmit the regional classification information LAGI_1. To provide.

5 and 6 are exemplary diagrams for explaining a service concept according to the present invention. FIG. 5 is an exemplary diagram showing a DMB broadcasting area and a mobile communication cell area, and FIG. 6 is a broadcast service for each DMB broadcasting area of FIG. It is an exemplary figure which shows the example of information.

Referring to FIGS. 5 and 6, assume that a user views the DMB in the region shown in FIG. 5 using the mobile terminal 39. Even when the actual user uses the mobile terminal 39, the DMB is frequently viewed in an overlapping region or a boundary of a different DMB region. In FIG. 5, the mobile terminal 39 belongs to the broadcast area 35a of the second DMB. However, the mobile communication base station does not belong to the jurisdiction 37a of the second base station 37 and the jurisdiction 33a of the first base station 33 due to the frequency transmission range, weather, terrain, environmental areas, base station installation areas, and the like. Belong to). In this case, when requesting the mobile communication system for broadcasting information BI currently viewed, the mobile communication system determines that the mobile terminal 39 is under the jurisdiction 33a of the first base station 33, Broadcast information about the DMB 31 is provided. That is, the broadcast information BI as shown in (a) is delivered to the user who needs to receive the broadcast information BI of the second DMB represented in FIG. 6 (b) so that the user can refer to the broadcast information BI. There will be no.

However, in the present invention, different zone classification information LAGI_1 is recorded in the data of the first DMB and the data of the second DMB, so that even if the mobile terminal 39 is under the jurisdiction 33a of the first base station 33, the mobile terminal 39 moves. The communication system transmits the second DMB broadcast information BI to the mobile terminal 39 through the regional classification information LAGI_2 of the second DMB provided through the mobile terminal 39.

7 is a flowchart illustrating a broadcast information providing method according to a first embodiment of the present invention.

Referring to FIG. 7, in the method for providing broadcast information according to the present invention, at least one region for distinguishing a region for transmitting DMB data is selected, and a first step, region in which a selected region-specific calling region code (CRACI) is assigned. A second step of creating a calling area code information list (CRACI_L) by using a calling area code (CRACI), and a third area for providing regional classification information including a calling area code (CRACI) of a sending area to DMB data to be sent; Step, the fourth step of transmitting the DMB data including the regional classification information, the fifth step of receiving the DMB data to extract the regional classification information and the broadcast information of the regional area corresponding to the regional information using the extracted regional classification information It is configured to include a sixth step of obtaining.

In the first step S1, the zone according to the jurisdiction of the DMB system is divided. In the first step S1, a code having a number of bits that can be distinguished from each other in each zone is provided.

The second step S2 is a step of creating a calling area code information list CRACI_L using a calling area code CRACI for each region. In the second step S2, a calling area code information list CRACI_L in which the calling area code information CRACI of each zone is recorded and stored in the information database of the mobile communication system is stored. According to the first embodiment of the present invention, the calling area code information CRACI included in the regional area classification information LAGI_2 transmitted from the mobile terminal is compared with the code information recorded in the calling area code information list CRACI_L to which the mobile terminal belongs. Judging the domain.

The third step S3 is a step of transmitting the DMB data together with the area code of the calling station, that is, the area classification information LAGI_1 which is the current source code of the area code CRACI, and transmitting the same together with the DMB data. In the third step S3, as described above, a main service channel (MSC) and a high speed information channel (FIC) are created using broadcast data and converted into a transmittable state through symbolization and modulation processes.

In the fourth step S4, the regional area classification information LAGI_1 is added to the DMB data in the transmittable state and transmitted.

The fifth step (S5) is a step of receiving the DMB data transmitted by the mobile terminal located in the region, and extracts the region information from the received DMB data. In the fifth step S5, the portable terminal extracts the zone classification information LAGI_1, that is, the current source code code CRACI, included in the null symbol NS of the transmission frame. In addition, in the fifth step S5, the user outputs and uses the DMB data through the portable terminal.

Finally, the sixth step S6 transmits the extracted regional classification information LAGI_1, that is, the current source area code information CRACI, from the mobile terminal to the mobile communication system, and the mobile terminal transmits the broadcasting information BI from the mobile communication system. Receiving.

Detailed description of each step will be described in more detail with reference to FIGS. 8 to 10.

8 is a flowchart detailing the second step of FIG. 7.

Referring to FIG. 8, the second step of creating the calling area code information list includes a first sub step in which the calling area code information list is prepared using the regional classification information and a second sub step in which source broadcasting information is provided. It is composed.

In the first sub-step (S10, S20), the mobile communication system receives the calling area code information (CRACI) for each region selected in the first step (S1), and the calling area code information list (CRACI_L) is prepared by using the same. It is a step.

The second sub-steps S30 and S40 are steps in which source broadcast information (OBI) supplied from each DMB system is supplied to and stored in the mobile communication system. Then, in the second sub-steps S30 and S40, the source broadcast information OBI is supplied to the mobile communication system at predetermined intervals and updated. Through the first sub-steps S10 and S20 and the second sub-steps S30 and S40, the mobile communication system stores the source broadcasting information OBI according to the calling area code information for each region in the broadcasting information database. The mobile communication system compares the calling area code information list CRACI_L stored in the first sub-steps S10 and S20 and the second sub-steps S30 and S40 with the regional classification information LAGI_2 from the mobile terminal. OBI is selected to be provided to the mobile terminal.

9 is a detailed flowchart of the third and fourth steps of FIG. 7.

Referring to FIG. 9, the third step or the fourth step includes a sixth sub-step (S100) in which the DMB data to be transmitted to the regional area is configured as the main service channel of the transport frame, and a high-speed information channel corresponding to the main service channel is created. A seventh sub-step (S110) for combining the main service channel, an eighth sub-step for converting the main service channel and the high-speed information channel into a symbol form for transmission, and the orthogonal frequency of the main service channel and the high-speed information channel converted to the symbol form And a ninth sub-step (S130) for modulating to a form that can be transmitted using a division multiplexing (OFDM) method and a tenth sub-step (S140) for adding regional area classification information (LAGI_1) to the modulated data.

The sixth sub-step (S100) divides and distributes various types of DMB data to each area of the main service channel (MSC) by using a main service channel (MSC) multiplexer to divide the primary data of the main service channel (MSC). It's a step in shape.

In the seventh sub-step S110, information on the DMB data constituting the main service channel (MSC), that is, a fast information channel (FIC) is created and added to the main subchannel (MSC). The portable terminal selects, restores, and outputs the DMB data supplied through the main subchannel (MSC) by using the information recorded in the high speed information channel (FIC).

The eighth sub-step S120 converts data allocated to the main service channel (MSC) and the fast information channel (FIC) into a symbol form for actual transmission. Through the eighth sub-step (S120), a guard interval necessary for transmission is formed, and a process of preventing data loss, error, etc. in actual transmission is performed.

The ninth sub-step (S130) is a step of modulating to transmit DMB data by using a frequency allocated for DMB broadcasting. In addition, in the ninth sub-step S130, the synchronization channel information SC is prepared and added to the symbolized data to have an actual transmission frame.

In the tenth sub-step (S140), the zone classification information is added to the symbolized data through a modulation process. At this time, the zone classification information is recorded in the null symbol of the synchronization channel of the transmission frame and transmitted.

FIG. 10 is a detailed flowchart illustrating the fifth and sixth steps of FIG. 7.

Referring to FIG. 10, the mobile terminal receives DMB data (S210). The mobile terminal receiving the DMB data in the eleventh sub-step (S220) extracts the region classification information LAGI_1 included in the null symbol section and transmits the received DMB data according to a user's instruction through the output device. Output

In a twelfth step S230, the mobile terminal extracts the current calling area code information CRACI included in the regional area classification information LAGI_1, and transmits the extracted current calling area code information CRACI to the mobile communication system. Form a communication channel. The mobile terminal transmits the area information LAGI_2, that is, the extracted current source area code information CRACI, to the mobile communication system through the formed communication channel (S240).

In a thirteenth sub-step (S250), the broadcasting information server of the mobile communication system compares the calling area code information list (CRACI_L) stored in the broadcasting information database with calling area code information from the mobile terminal to identify the area to which the mobile terminal belongs. (S250). The broadcast information server searches for and selects the broadcast information BI corresponding to the confirmation area from the broadcast information database, and transmits the selected broadcast information BI to the mobile terminal (S260).

In a fourteenth substep S270, the portable terminal outputs the broadcast information BI provided from the mobile communication system and provides the same to the user.

FIG. 11 is a flowchart of a system for more easily expressing FIGS. 7 to 10. Since the description of FIG. 11 has already been described with reference to FIGS. 7 to 10, a detailed description thereof will be omitted.

Referring to FIG. 11, regional area classification information LAGI_1 is determined for each DMB system 42 (S500). The determined district classification information LAGI_1 is transferred to the mobile communication system 44 and stored in the broadcast information database of the mobile communication system 44 (S510). In addition, the broadcasting information BI, that is, the source broadcasting information OBI, which are differently provided for each region of the DMB system 42 is transferred to the mobile communication system 44 and stored in the broadcasting information database (S510). The mobile communication system 44 generates the calling area code information list CRACI_L using the regional classification information LACI_1 and stores the calling area code information list CRACI_L in the broadcasting information database (S520). May be selected in the regional division selection step (S500) and supplied to the mobile communication system.

On the other hand, the DMB data including the regional classification information LAGI_1 is transmitted to the regional area under the jurisdiction of the DMB system 42, and the mobile terminal 40 receives it (S530). The portable terminal 40 outputs the received DMB data through an output device and provides the same to the user, and extracts the regional classification information LAGI_1 included in the DMB data (S540). At this time, the extracted area classification information LAGI_1 is the current source code code (CRACI) added to the null symbol of the transmission frame. When the regional classification information LAGI_1 is extracted, the mobile terminal 40 establishes a communication channel with the mobile communication system 44 to obtain the broadcasting information BI, and the regional classification information which is the current calling area code information CRACI. LAGI_2 is transmitted to the mobile communication system 44 (S550).

The mobile communication system 44 having received the regional classification information LAGI_2 compares the current calling area code information CRACI with the calling area code information list CRACI_L and checks the area to which the mobile terminal 40 belongs (S560). . The mobile communication system (S560) searches for and selects broadcast information (BI) suitable for the mobile terminal 40 from the source broadcast information (OBI) stored in the broadcast information database (S570). The mobile communication system 44 having selected the broadcast information BI transmits the selected broadcast information BI to the mobile terminal 40 through the communication channel (S580), and the mobile terminal 40 receives the received broadcast information BI. It outputs and provides it to the user (S590).

12 is a block diagram showing a broadcast information providing system according to a second embodiment of the present invention.

Referring to FIG. 12, the broadcasting information providing system according to the second embodiment of the present invention includes a DMB system 51, a portable terminal 53, and a mobile communication system 55. In describing the second embodiment of the present invention, detailed descriptions of the same operations and features as those of the first embodiment will be omitted.

The DMB system 51 transmits the DMB data including the regional classification information LAGI_1 for distinguishing the broadcasting area, and provides the original broadcasting information (OBI) to the mobile communication system 3. Here, the zone classification information LAGI_1 in the second embodiment includes the current calling area code information CRACI and the calling area code information list CRACI_L. That is, the DMB system 51 transmits the calling area code information list CRACI_L in which the calling area code information CRACI of the other DMB system 51 is recorded together with its calling area code information CRACI. As in the first embodiment, the originating area code information (RACI) is a serial number or a separator code of several bits that can distinguish a regional area.

The mobile terminal 53 receives and outputs the DMB data, extracts the area information LAGI_1 included in the DMB data, and determines the area to which the portable terminal 53 belongs. That is, the mobile terminal 53 compares the current calling area code information CRACI and the calling area code information list CRACI_L included in the regional area information LAGI_1 to be transmitted, and the DMB data received by the mobile terminal 53 itself. It is determined which DMB system 51 is transmitted from. The mobile terminal 53 which has determined the area of the current location records the information indicating the area to which the mobile terminal 53 belongs in the area information LACI_2 where the mobile terminal 53 is located and transmits the information to the mobile communication system 55. .

The mobile communication system 55 receives the regional classification information LAGI_2 transmitted from the mobile terminal 53, and searches for and selects the broadcast information BI corresponding to the area where the mobile terminal 53 is located in the broadcast information database. do. The mobile communication system 55 transmits the selected broadcast information BI to the mobile terminal 53.

FIG. 13 is a structural diagram showing a structure of a transmission frame for delivering regional classification information according to a second embodiment of the present invention.

Referring to FIG. 13, unlike the first embodiment, the second embodiment should transmit the transmission area code information list CRACI_L by including the DMB data. Therefore, it is not possible to record all of this information in the null symbol NS, so another area of the DMB data must be used. To this end, the second embodiment of the present invention uses the extent 22 region of FIG type 0 of the fast information channel (FIC).

As described above, the DMB data includes a synchronization channel (SC), a high speed information channel (FIC), and a main service channel (MSC). In particular, the fast information channel (FIC) is composed of a plurality of fast information blocks (FIB), each fast information block (FIB) is composed of eight fast information groups (FAST). The fast information block (FIG) is composed of an information block for transmission and a type field.

There is an extended area in this type field TF. In particular, an extended area 22 of the type 0 field is used in the second embodiment of the present invention.

FIG. 14 illustrates the type field of FIG. 13 in more detail.

Referring to FIG. 14, an extension area 22 of the type 0 field is an area allocated for a transmitter identification information (TII).

The extended area 22 of the type 0 field consists of a plurality of sender identification information blocks, and each sender identification information (TII) block can be used in two forms. That is, the identifier assigned to the first 1 bit may be used as a main identifier and a sub identifier. The main identifier (MI) corresponds to a case where the first 1 bit of the transmitter identification information (TII) is assigned to 0, and the ID (MainID) of the sender and detailed latitude and longitude information are recorded. The sub-identifier (SI) corresponds to a case where the first 1 bit of the transmitter identification information (TII) is allocated to 1, and the sub-identifier corresponding to the ID (MainID), the user field (Rfu), the number of subfields, and the number of subfields of the sender are identified. It consists of fields. Each subfield is recorded with a subID, time delay, and latitude / longitude information.

The source identifier code list (CRACI_L) can be recorded and transmitted from either the main identifier (MI) or the sub identifier (SI), but it is preferable to use a sub identifier capable of writing a large number of contents.

That is, when the calling area code information list CRACI_L is recorded in the sub-identifier SI and the current calling area code information CRACI is recorded in the null symbol NS, the mobile terminal 53 transmits the DMB data. Received and extracted. Then, the calling region code information list CRACI_L is restored by the portable terminal 53, and the portable terminal 53 compares the calling region code information list CRACI_L with the current calling region code information CRACI. The zone in which 53 is located is determined.

15 is a flowchart illustrating a broadcast information providing method according to a second embodiment of the present invention.

Referring to FIG. 15, in the broadcasting information providing method according to the second embodiment of the present invention, the calling area code information CRACI for each DMB system 61 is created and imposed as in the first embodiment (S600). . Then, only source broadcast information (OBI) is transmitted from the DMB system 61 to the mobile communication system 65 (S610), and the mobile communication system stores the source broadcast information (OBI) in the broadcast information database (S620). On the other hand, unlike the first embodiment, the regional classification information LAGI_1 included in the DMB data is transmitted together with the current calling area code information CRACI and the calling area code information list CRACI_L as described above (S630). . Upon reception of the DMB data, the mobile terminal 63 extracts the regional classification information LAGI_1 (S640), and restores the calling area code information list CRACI_L using the same (S650). When the calling area code information list CRACI_L is restored, the mobile terminal 63 compares the current calling area code information CRACI with the calling area code information list CRACI_L to confirm the area to which the mobile terminal 63 belongs. (S660). Then, the mobile terminal 63 records the current area to which it belongs, in the area information LAGI_2, forms a communication channel, and transmits the communication channel to the mobile communication system 65. The mobile communication system 65 receiving the regional information LAGI_2 identifies the regional area to which the portable terminal 63 belongs, and searches for and selects the broadcasting information about the regional area in the broadcasting information database (S680). The mobile communication system 65 provides the selected broadcast information BI to the mobile terminal 63 (S690), and the mobile terminal 63 outputs the received broadcast information BI to the user.

According to the present invention, a broadcasting information providing system and a broadcasting information providing method using the same are included in DMB data for transmission of the regional information for classification of a broadcasting area, and the mobile terminal and the mobile communication system receiving the broadcasting information are broadcasted by the regional information. By distinguishing the area, broadcast information corresponding to the received DMB data can be provided.

The broadcasting information providing system and the broadcasting information providing method using the same according to the present invention impose unique calling area code information as the regional information for each DMB system that manages one regional area, and transmit it by including it in the DMB data. Information can be provided.

The broadcasting information providing system and the broadcasting information providing method using the same according to the present invention transmit and include the list of the calling area code information and the calling area code information in DMB data so that the mobile terminal can identify and identify the area. Through this, the load burden on the mobile communication system can be reduced.

The broadcast information providing system and the broadcast information providing method using the same according to the present invention transmits the domain information by writing it to a null symbol of a transmission frame or one region of a high-speed information channel, thereby eliminating the need for a transmission frame region for separate domain information transmission. Division information can be transmitted.

Finally, in the broadcasting information providing system and the broadcasting information providing method using the same, the mobile communication system receives the regional classification information from the mobile terminal to determine the location of the mobile terminal or uses the information determined from the mobile terminal. By providing the stored broadcast information to use the easy method according to the implementation of the system, it is possible to minimize the technical difficulties of the actual implementation.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (21)

A DMB system for providing DMB data including zone classification information for distinguishing the broadcast zone by broadcast zone through a DM base station; A portable terminal receiving the DMB data to extract the regional classification information, and receiving the broadcasting information provided for each broadcasting area according to the transmission of the regional classification information; And And a mobile communication system receiving the regional classification information and providing the broadcasting information. The method of claim 1, wherein the regional classification information, A zone-specific broadcasting information providing system, which is previously divided and designated, is the current source code information of the DMB data received by the mobile terminal. The method of claim 2, wherein the regional classification information, And a standby calling area code information list in which calling area code information of a region in which the portable terminal can receive DMB data is recorded. The method of claim 3, wherein the regional classification information, And broadcasting data included in the transmission frame of the DMB data. The method of claim 4, wherein the current source code information is, And a region-specific broadcast information providing system, which is transmitted through a null symbol of a synchronization channel of the transport frame. The method of claim 5, wherein the standby source code information list is: And at least one of a high speed information channel and a main service channel of the transport frame. The method of claim 2 or 5, wherein the mobile communication system, A broadcast information database in which the standby source code information list and the broadcast information are stored; And providing an EPG server that compares the current calling area code information from the portable terminal with the standby calling area code information list and provides broadcasting schedule information corresponding to the current location of the portable terminal. system. The mobile terminal of claim 3 or 6, wherein the portable terminal comprises: And comparing the current calling area code information with the standby calling area code information list to create a current calling area information. The method of claim 8, wherein the mobile communication system, A broadcast information database in which the broadcast information is stored; And a broadcasting information server for providing the stored broadcasting information to the portable terminal according to the current calling area information from the portable terminal. A first step of selecting at least one zone for distinguishing a transmission area of DMB data, and providing a selected calling zone code for each zone; A second step of creating a calling area code information list using the calling area code for each region; A third step of adding regional information including the origination region code of the transmission region to the DMMB data transmitted; A fourth step of transmitting the DMB data including the regional information; A fifth step of receiving the DMB data and extracting the regional information; And And a sixth step of acquiring broadcast information of the region corresponding to the region information by using the extracted region information. The method of claim 10, wherein the second step A first sub-step in which a list of calling area code information is prepared by using regional classification information; And a second sub-step of receiving a source broadcasting information for providing the broadcasting information from a DM system. The method of claim 11, wherein the first substep is A third sub-step of providing the calling area code information list to the mobile communication system; And a fourth sub-step, wherein the calling area code information list is provided to a mobile terminal for receiving the DMB data. The method of claim 11 or 12, wherein the second step, And a fifth sub-step of updating the source broadcast information. The method of claim 11 or 12, wherein the third step or the fourth step, A sixth substep of configuring a main service channel of a transport frame using the DMB data; A seventh sub-step of creating a fast information channel for the DMB data and combining it with the main service channel; An eighth step of converting the combined high speed information channel and the main service channel into a symbol; A ninth substep of modulating the symbol for transmission; And a tenth sub-step of adding the regional classification information to the modulated DMB data. The method of claim 14, wherein the regional classification information, And a calling region code information of a region transmitting the DMB data and the calling region code information list are transmitted together. The method of claim 15, wherein the source code information is, Broadcast information acquisition method, characterized in that it is added to the null code of the transmission frame for transmitting the DMB data. The method of claim 16, wherein the source code information is, And broadcast information is added to the fast information channel of the transport frame. The method of claim 10, wherein the fifth step or the sixth step, An eleventh substep of extracting the regional information from the DMB data; A twelfth sub-step of forming a communication channel for transmitting the extracted regional information; A thirteenth step of comparing the calling area code information included in the regional area information with the calling area code information list and selecting the broadcasting information corresponding to the calling area code information; And a fourteenth substep of outputting the selected broadcast information. 19. The method of claim 18, wherein the thirteenth substep and the fourteenth substep are Broadcast information acquisition method, characterized in that performed by the mobile communication system. The method of claim 18, wherein the thirteenth substep and the fourteenth substep are: Broadcast information acquisition method, characterized in that performed by the portable terminal. The method of claim 20, wherein the thirteenth substep and the fourteenth substep are: A first couple step of determining a calling area by comparing the calling area code information with the calling area code information list; A second couple step of notifying the originating area to the mobile communication system; A third couple step of searching and selecting the broadcasting information corresponding to the originating region by the mobile communication system; A fourth couple step of providing, by the mobile communication system, the selected broadcast information to the portable terminal; And a fifth coupler step of outputting the broadcast information by the portable terminal.

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