JP3918064B2 - Character information broadcasting method and broadcasting system using digital wireless telephone - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a broadcast-type character information comprising a large number of channels from the network side, and a character information broadcast method using a digital radiotelephone capable of selectively receiving and displaying the character information on the mobile device side and the broadcast thereof It is about the system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a digital wireless telephone system, an information providing service system using a digital wireless telephone that can easily access a wide range of information service providers and interactively receive necessary information services based on user requests from mobile devices. Is realized. In addition, a service for performing so-called Internet browsing, in which a file such as a home page of a web server on the Internet is acquired from a mobile device and displayed on a display unit of the mobile device, is also realized.
[0003]
[Problems to be solved by the invention]
However, the conventional information providing service system or the message communication method and the communication system provide information individually for each user by a short message service or the like. It is difficult to provide information at the same time. As information to be provided, it is preferable that highly versatile information such as weather forecasts, breaking news, sports flashes, etc. can be selectively provided to all subscribers, and earthquake information, traffic information, etc. Such emergency information needs to be provided as soon as possible, and it is desirable to provide information in consideration of regional characteristics. On the other hand, in a conventional radio paging system, a certain amount of information can be provided by broadcast from the network side, but the receiver must always receive any one group of frames that it should wait for. When trying to realize this in a digital wireless telephone system capable of two-way communication, it is necessary to solve the problems such as shortening the battery life due to constant reception, and urgent information should be promptly Not suitable for providing.
[0004]
The present invention has been made in view of the above circumstances, and it is possible to selectively provide a large number of different character information to all the subscribers in each region at the same time, and the emergency information can be promptly provided. An object is to provide a broadcasting method and a broadcasting system thereof.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, the text information broadcasting method using a digital radio telephone according to the present invention acquires a plurality of contents from an information service provider, and each of the plurality of contents is set to one broadcast channel when an on-air period comes. The message broadcast map packet to be processed is converted into a cell broadcast map packet, each cell broadcast map packet is downloaded to a corresponding exchange, and the exchange receives the received cell broadcast map packet.Is assigned as a broadcast channel for each superframe of the dedicated broadcast physical channel and is repeatedly transmitted from the base station, and the broadcast physical channel is set to a time slot adjacent to the common control channel. Broadcast to the mobile station via the base station in the designated broadcast area, and the mobile station periodically receives the transmitted broadcast physical channel while waiting, and broadcasts assigned to the received broadcast physical channel Display channel content on the displayIt is characterized by this. A broadcast physical channel transmitted from the exchange via the base station is received by the mobile station in the broadcast area, and displayed on the display unit, so that a large number of different character information can be simultaneously selected for all subscribers in each region. Can be provided.Further, it is preferable in that the frequency switching can be made unnecessary only by lengthening the intermittent reception time in the mobile device.
[0007]
The logical channel of the broadcast physical channel has a broadcast information channel including broadcast character information content and a broadcast service control channel including configuration information of the broadcast information channel, and the broadcast service control channel is one superframe. The broadcast information channel is repeatedly set in a plurality of slots following the broadcast service control channel in the one superframe, and constitutes one broadcast channel in one superframe, and the broadcast information channel By repeating, it is preferable in that the reliability of information can be improved by error correction.
[0008]
A broadcast hyperframe composed of a large number of the superframes is configured, a different broadcast channel is arranged in each superframe, and a broadcast channel including emergency information in the broadcast channel is repeatedly arranged in the broadcast hyperframe. This is preferable in that emergency information can be provided immediately.
[0009]
In the broadcaster-specific definition area of the broadcast channel of the common control channel, information for receiving the broadcast physical channel is set, so that when there is emergency information while the mobile device is waiting, broadcast is performed. It is preferable in that emergency information can be provided promptly by receiving a channel.
[0010]
The information for receiving the broadcast physical channel is preferably information for identifying the presence / absence of emergency information because it can notify the presence / absence of emergency information.
[0011]
  In order to achieve the above object, the text information broadcasting system using a digital wireless telephone according to the present invention acquires a plurality of contents from an information service provider, and each of the plurality of contents is broadcast once when an on-air period comes. A cell broadcast map packet for processing a message download including a channel is converted into a broadcast center for downloading each cell broadcast map packet, and the cell broadcast map packet downloaded from the broadcast center is received,The received cell broadcast map packet is assigned as a broadcast channel for each superframe of a dedicated broadcast physical channel and is set to be repeatedly transmitted from a base station, and the broadcast physical channel is set as a common control channel. An exchange that transmits to a mobile station via a base station in a designated broadcast area set in a time slot adjacent toFrom the exchangeSaidBroadcast physical channel transmitted through the base stationRegularly during standbyReceiveThe broadcast channel assigned to the received broadcast physical channelAnd a mobile device that displays content on a display unit. A broadcast physical channel transmitted from the exchange via the base station is received by the mobile station in the broadcast area, and displayed on the display unit, so that a large number of different character information can be simultaneously selected for all subscribers in each region. Can be provided.
[0012]
The content provided by the information service provider includes an identification number of the information service provider, a cell area group name that designates a broadcast area, a message body, and an on-air period. This is preferable in that the content of the broadcast service can be acquired by specifying the period.
[0013]
The broadcasting center checks the authority of the identified information service provider by matching the IP / SP profile database storing the identification number, cell area group name, and on-air period with the IP / SP profile database. It is illegal to have a content filter unit that performs processing to check the consistency of content items and retain the result, and a content database that stores content processed by the content filter unit. This is preferable because it does not download the content.
[0014]
The content database has a CBMAP conversion unit that converts the content stored in the content database after the on-air period has passed into a cell broadcast map packet that includes information on one broadcast channel and is defined as a protocol for download processing. This is preferable in that it can be converted into a packet suitable for processing.
[0015]
The mobile station receives a broadcast information channel corresponding to one broadcast channel repeatedly transmitted in one superframe from the exchange via a base station, discards a frame in which an error has occurred, and successfully receives a frame. It is preferable to have a frame assembling unit for assembling and processing only in terms of improving the reliability of contents.
[0016]
When the mobile station has received a broadcast channel and the broadcast channel section length has been changed, the mobile station receives the broadcast channel, confirms that there is emergency information in the operator-specific definition area, and broadcasts the physical channel for broadcasting. Is preferable in that emergency information can be received immediately.
[0017]
The mobile device has a connection processing unit that receives a broadcast service control channel constituting a broadcast physical channel and connects a plurality of broadcast channels to one broadcast channel based on the connection information. It is preferable in that it can be provided to a broadcast channel including the information.
[0018]
When the user performs a receiving operation, the mobile device performs processing for starting reception of a broadcast channel for updating according to either the set date and time or the update date and time included in the content received in advance It is preferable that the content can be updated smoothly.
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be specifically described with reference to an illustrated embodiment. 1 to 3 are diagrams for explaining a text information broadcasting method and system using a digital radio telephone according to an embodiment of the present invention. FIG. 1 is a block diagram for explaining the configuration of a broadcasting center. FIG. 2 is an overall configuration of a network. FIG. 3 and FIG. 3 are block diagrams illustrating the configuration of the mobile device.
[0019]
In these figures, a text information broadcasting system 10 using a digital wireless telephone according to the present embodiment includes a mobile station (MS: Mobile Station) 11, a base station (BS: BaseStation) 12, and an exchange (MSC: Mobile Switching Center) 13. A broadcasting center (CBC) 20 and an information provider / service provider (IP / SP) 14, and the broadcasting center (CBC) 20 provides an information service. A plurality of contents acquired from the original information provider / service provider (IP / SP) 14 are converted into cell broadcasting (CBMAP) packets to be described later, and then downloaded to the exchange (MSC) 13. The exchange (MSC) 13 is a dedicated broadcast physical channel whose cell broadcast packet will be described in detail later. Is transmitted to the mobile device (MS) 11 via the base station (BS) 12 in a predetermined broadcast area, and the mobile device (MS) 11 displays the received content on the display unit.
[0020]
The main function of the broadcast center (CBC) 20 is to acquire and check contents from the information provider / service provider (IP / SP) 14 that is the provider of the information service or the local IP / SP 15 provided therein. Content broadcasting plan, content editing and downloading to the exchange (MSC) 13, etc., as shown in FIG. 1, receiving unit 21, content filtering unit 22, IP / SP profile database 23, and reception control Unit 24, content database 25, schedule unit 26, transmission control unit 27, cell broadcasting map (CBMAP) conversion unit 28, cell information database 29, transmission unit 30 and the like. The
[0021]
The receiving unit 21 is connected to the IP / SP 14 at a location remote from the broadcasting center 20 or the local IP / SP 15 provided in the broadcasting center 20 through a wide area communication network (WAN), a local area network (LAN), the Internet, or the like. An FTP (File Transfer Protocol) server or an interface having a Web server function, and FTP or Hypertext Transfer Protocol (HTTP) is used for information transmission. The receiving unit 21 transmits content from the IP / SP by FTP or HTTP PUT, receives content from the IP / SP by FTP GET issued by the broadcast center 20, and confirms content distribution.
[0022]
The IP / SP profile database 23 is a database storing a specified IP / SP identification number, a cell area group name composed of a character string indicating a broadcast area, an on-air permission period, and the like. The content filter unit 22 performs a matching check with the IP / SP profile database 23 in order to check the authority of the content acquired by the receiving unit 21, and checks the consistency of the content items to download illegal data. It is the part that keeps the status that is the result of avoiding. The reception control unit 24 is a part that creates and registers the content database 25 based on the content checked by the content filter unit 22.
[0023]
  Schedule part26Is a part that performs timer monitoring until the on-air period of the content registered in the content database 25 is reached, and notifies the process after downloading to that effect regarding the content in the on-air period. Further, the schedule unit 24 deletes the content for which the on-air period has elapsed from the content database 25. However, the history of such deletion is left so that it can be confirmed. The transmission control unit 27 is a part that receives from the content database 25 the content that has been notified from the schedule unit 24 and has passed the on-air period, and transmits the content to the CBMAP conversion unit 28.
[0024]
The cell information database 29 is a database that stores area codes such as cell numbers and local area numbers in association with cell area group names. The CBMAP conversion unit 28 converts the content that has been transmitted from the content database 25 via the transmission control unit 27 and has passed the on-air period into a cell broadcast map (CBMAP) packet defined as a protocol for processing downloads. This CBMAP packet includes information related to one broadcast channel. The configuration of the CBMAP packet will be described later. The transmission unit 30 is a part that transmits the CBMAP packet organized by the CBMAP conversion unit 20 to the exchange 13 and receives confirmation from the exchange 13. The transmission unit 30 is configured by a LAN or the like connected by a TCP / IP interface. ing.
[0025]
The mobile device (MS) 11 has a function capable of normal voice communication and a function capable of transmitting and receiving a message such as character information of the present invention, and includes an antenna 31, a radio unit 32, a voice conversion circuit 33, a speaker. 34, microphone 35, message communication unit 36, clock unit 37, frame assembly unit 38, broadcast message memory 39, update processing unit 40, connection processing unit 41, message management unit 42, display control unit 43, display unit 44, key input Unit 45, ROM 46, RAM 47, control unit 48 and the like.
[0026]
The radio unit 32 converts the transmission data input from the voice conversion circuit 33 or the message communication unit 36 into a transmission signal of a predetermined radio frequency and transmits it from the antenna 31 in order to wirelessly transmit to the base station 12. The received signal received from the base station 12 is frequency converted by 31 and output to the message communication unit 36 or the voice conversion circuit 33. The audio conversion circuit 33 includes a codec unit for time conversion (not shown), a time division connection processing unit, and the like, and outputs the received audio signal to the speaker 34 or the radio unit 32 using the audio input from the microphone 35 as a transmission signal. Output to.
[0027]
The message communication unit 36 is a part that performs processing for organizing a transmission message into a transmission signal and outputting the transmission signal to the radio unit 32 and receiving the message and outputting it to other parts. The clock unit 37 is a part that counts accurate date and time and generates time information for update processing and the like. As will be described later in detail, the frame assembling unit 38 is a part for assembling only frames of content that have been normally received and discarding frames in which errors have occurred. The broadcast message memory 39 is a part that records the received content classified by category. The update processing unit 40 is a part that automatically performs content update processing by the date and time set by the user, by manual operation, or by the update date and time included in the content. The connection processing unit 41 is a part that performs processing for connecting broadcast channels when there is connection information. The message management unit 42 is a part that manages received messages as will be described in detail later. The display control unit 43 is a part that reads the content recorded in the broadcast message memory 39 and performs processing for display. The display unit 43 is configured by a liquid crystal display device or the like, and is a part that displays received content. The key input unit 45 includes a key for various operations, a key for inputting characters and alphanumeric characters, and the like. The ROM 46 is a memory for storing a message data transmission processing program and the like, and the RAM 47 is a work memory during communication control. The control part 48 is a part which controls each said part.
[0028]
4 to 8 are diagrams for explaining channels for realizing broadcast-type character information provision according to the embodiment of the present invention. FIG. 4 is a diagram for explaining a dedicated physical channel having a full rate and its reception timing. Is a diagram for explaining a dedicated physical channel having a half-rate configuration and its reception timing, FIG. 6 is a diagram for explaining a full-rate superframe configuration, FIG. 7 is a diagram for explaining a half-rate superframe configuration, and FIG. It is a figure explaining the CBS hyper-frame structure of.
[0029]
First, in the present invention, a broadcast control physical channel (BPCH) conforming to the control physical channel structure of RCR-27STD, which is a standard for digital automobile telephone systems of the radio wave industry, is used as a physical channel dedicated to cell broadcasting services. : Broadcasting Physical CHannel). This BPCH uses an adjacent time slot of a conventional perch channel (common control channel). By using such adjacent time slots of the common control channel, it is possible to eliminate the need for frequency switching only by lengthening the intermittent reception time in the mobile station 11.
[0030]
BPCH supports both full rate and half rate configurations. In the case of the full rate configuration, as shown in FIG. 4, the BPCH is arranged in the first slot (TS1) and the fourth slot (TS4) in one frame composed of 6 slots, and the mobile station 11 In addition to intermittent reception at the timing at which the slots are arranged, a slot of the general call channel (PCH) is received during standby, and reception levels of peripheral zones for zone transition are measured at the time following this slot. In the case of the half-rate configuration, as shown in FIG. 5, the BPCH is arranged in the first slot (TS1) in one frame composed of six slots, and the mobile station 11 has a timing at which the BPCH slot is arranged. In addition to intermittent reception, the PCH slot is received during standby, and the surrounding zone for zone transition is measured at the time following this slot.
[0031]
The BPCH logical channel includes a broadcast information channel (BICH) including content character information and a broadcast service control channel (BSCCH) including channel configuration information of the broadcast information channel (BICH). Control CHannel) is defined. In the case of one broadcast channel in the full rate configuration, as shown in FIG. 6, BSCCH is arranged in the first two frames of the super frame, BICH consisting of eight frames in the following 32 frames, and dummy slots are arranged in the last two frames. . In the case of the half-rate configuration, as shown in FIG. 7, BSCCH is arranged in the first two frames of the super frame, and BICH consisting of eight frames is arranged in the following 16 frames. That is, the BICH is retransmitted four times in the case of the full rate configuration, and is retransmitted twice in the case of the half rate configuration. By retransmitting the BICH, reliability is improved by error correction at the time of reception in the frame assembly 38 in the mobile station 11 described later. And all the broadcast channels are arrange | positioned in the CBS hyper-frame comprised by the 70 super frame etc. for a total of 64 channels from 0th-63rd, for example. In the CBS hyperframe, the 0th and 1st channels, which are emergency information channels, are repeatedly arranged four times at equal intervals, for example.
[0032]
9 and 10 are diagrams for explaining the configuration of a broadcast channel according to the embodiment of the present invention. FIG. 9 is a diagram for explaining information elements. FIG. 10 is a diagram for explaining broadcast channel instruction elements of extended information.
[0033]
As shown in these figures, in the present invention, in order to receive the above-described BPCH, an extension of a carrier-specific definition area of a broadcast channel (BCCH) that broadcasts control information from the network side to the mobile device 11 in the area The broadcast channel indication element and its length are set in the information element length and the extended information. That is, as shown in FIG. 9, 1 (octet), which is the length of the extended information, is set in the extended information element length following the BCCH information element, network number, restriction information,..., Location registration timer. As shown in Fig. 4, in the extended information, for example, whether the fifth and fourth bits (I1 and I2) in one octet are BPCH identification bits, and the third bit (P1) is BPCH as a half rate configuration. A bit for identifying the full rate configuration and a bit for identifying whether there is emergency information in the second bit (P2) are set. For example, when I1I2 is 00, there is no BPCH, 01 and 10 are reserved, 11 is with BPCH, P1 is 0 half rate, 1 is full rate, P2 is 0 without emergency information, 1 is emergency information, etc. Is done. If the emergency information is 1, the mobile device 11 immediately starts receiving BPCH.
[0034]
11 and 12 are diagrams for explaining the BSCCH according to the embodiment of the present invention, FIG. 12 is a diagram showing a BSCCH data format, and FIG. 12 is a diagram showing an on-air information channel number.
[0035]
The BSCCH arranged in the first two frames of the super frame consists of a maximum of 34 octets. As shown in FIG. 11, the layer 2 header, the platform number, the layer 3 message type, the length from 7 octets to the last octet, the reception super Channel information indicating the information channel number of the BICH included in the frame, an on-air information channel number identifying the information channel number being on-air as shown in FIG. 12, a cell group number indicating a group to which the channel configuration being broadcast belongs, spare, Fee information / message class for paying / free of charge for currently broadcast channels and application level consistency, information number assigned to each content, update information indicating last update date and time for each broadcast channel, update cycle Update period indicating the specification of A number incremented by 1 and an update number / concatenated information indicating a concatenated channel structure, storage instruction information indicating a method for storing information received by the mobile station 11, and display designation indicating a display pattern in the mobile station 11 at the time of new reception It consists of elements such as information, age group for receiving broadcasts, gender, target filter indicating occupation, message type indicating content type in BICH, and spare.
[0036]
FIG. 13 is a diagram showing a data format for explaining the BICH according to the embodiment of the present invention.
[0037]
In the figure, BICH arranged in a frame following BSCCH is composed of a maximum of 136 octets, and is composed of elements such as a layer 2 header, a platform number, a layer 3 message type, a content length, and a content indicating the content body. Yes.
[0038]
Next, the CBMAP packet downloaded from the broadcast center (CBC) 20 to the exchange (MSC) 13 and the confirmation package returned from the exchange (MSC) 13 to the broadcast center (CBC) 20 will be described. FIG. 14 is a diagram for explaining the configuration of a CBMAP packet, and FIG. 15 is a diagram for explaining a CBMAP confirmation package.
[0039]
As described above, the CBMAP packet is a packet organized by the CBMAP conversion unit 28 for each broadcast channel based on the content stored in the content database 25 in the broadcast center (CBC) 20, and as shown in FIG. For example, it consists of a maximum of 267 octets, and is composed of a CBMAP header, CBMAP BSCCH, and CBMAP BICH following an IP header and a TCP header compliant with RFC (Request for Comments) describing the specifications of the TCP / IP communication protocol. The CBMAP header is created based on information such as a cell area group name included in the content, and includes a maximum of 67 octets, and includes, for example, a CBMAP header length, an area type, an area identification number, and an emergency identification number. The CBMAP BSCCH is created based on information such as a cell area group name included in the content and other content information for download, and includes, for example, a BSCCH length, update information, an on-air information channel number, a cell group number, and the like. . The CBMAP BICH is created on the basis of the content body and is composed of a maximum of 131 octets, and is composed of, for example, a BICH length, a message area of the content body, and the like.
[0040]
The CBMAP confirmation package is a package returned from the exchange (MSC) 13 to the broadcast center (CBC) 20 when a CBMAP packet is downloaded. As shown in FIG. 15, from the IP header and TCP header, the confirmation CBMAP ACK, etc. Composed.
[0041]
Next, a transmission / reception sequence between the broadcast center (CBC) 20 and the exchange (MSC) 13 will be described. FIG. 16 shows a normal transmission / reception sequence, and FIG. 17 shows a response timeout sequence.
[0042]
As shown in FIG. 16, when the first CBMAP packet is downloaded to the exchange (MSC) 13, the broadcast center (CBC) 20 waits for a reply from the exchange (MSC) 13 while monitoring the timer. The exchange (MSC) 13 performs processing for receiving the first CBMAP packet, and returns a CBMAP confirmation package to the broadcast center (CBC) 20 when it is ready to receive the next packet. The broadcast center (CBC) 20 receives this confirmation package and downloads the next second CBMAP packet. Thereafter, the CBMAP packet is transmitted in the same sequence.
[0043]
Next, as shown in FIG. 17, when the reply of the confirmation package from the exchange (MSC) 13 to the first CBMAP packet downloaded by the broadcasting center (CBC) 20 times out, an alarm is issued. The broadcast center (CBC) 20 retransmits the same first CBMAP packet. When the confirmation package is received within the timeout time, the next second CBMAP packet is downloaded. When the retransmission process is continued, the retransmission process is interrupted by the operator. Since the CBMAP protocol does not have a function of checking an error of a CPMAP packet, the exchange (MSC) 13 transmits a confirmation package to the broadcast center (CBC) 20 and does not return error information. Therefore, if there is a problem with the CPMAP packet downloaded from the broadcasting center (CBC) 20, the CPMAP packet is not unconditionally transmitted to the switching center (MSC) 13 without notifying the broadcasting center (CBC) 20 of an error. Discard it.
[0044]
Next, the reception operation of the broadcast channel of the mobile device (MS) 11 will be mainly described. First, in order to be able to receive BPCH, it is performed by turning on the broadcast service (CBS) function in the mobile station (MS) 11, and while this function is turned off, the normal general call channel (PCH) Is in a state of intermittent reception. The user can turn on the broadcast service function by operating the key input unit 43 of the mobile device (MS) 11 and then the BPCH based on the BPCH reception timing, the broadcast channel set for reception or the update time. Start receiving.
[0045]
FIG. 18 is a flowchart illustrating a typical reception operation of the mobile device, and FIG. 19 is a diagram illustrating a display example on the display unit of the mobile device.
[0046]
As shown in FIG. 18, first, the mobile station 11 is turned on to receive BCCH (ST1), and then BPCH reception is started at the BPCH reception timing, and then the broadcast channel (PCH) and the BPCH reception are completed. BPCH reception is performed (ST2, 3), and when the BPCH reception is completed, a time set in advance by the processing of the clock unit 37 or the update processing unit 40 or an interval timer until the update time is started (ST4), and PCH intermittent The system enters a reception standby state (ST5), and returns to the PCH and BPCH reception operation again by a timer timeout (ST6).
[0047]
The reception timing is performed by the clock unit 36 and the update processing unit 37 of the mobile device (MS) 11, and at the time of reception request by a manual operation from the user, the time set in advance or the update information set in the content Can be done automatically based on. As the BPCH reception timing, first, when the main menu of the broadcast service (CBS) is selected, if the menu is not on the mobile device (MS) 11 side, all BPCHs are received and the main menu is created based on the message type and the like. The In addition, when the BSCCH cell group number is different from the stored value at the time of zone transition, all BPCHs are received and information is updated. Furthermore, all BPCHs are received and updated according to the update information of the broadcast channel for which reception is applied and the update timing based on the update period. In addition, when a user applies for a new broadcast channel, all BPCHs are received and information is updated. Furthermore, in response to an update request from the user, all BPCHs are received and information is updated.
[0048]
The content of the predetermined broadcast channel received by the mobile device (MS) 11 as described above is stored in the broadcast message memory 39 based on the management of the message management unit 42 described later, and is displayed by the display operation of the key input unit 45. The information is displayed on the display unit 44 under the control of the display control unit 43. The display on the display unit 44 is switched and displayed at regular intervals, for example, as a screen saver display. As shown in FIG. 19, for example, the current time display is displayed first, and after 3 seconds, the first “CH2: J phone news SkyNet service, weather forecast, breaking news, sports flat” is displayed. 3 seconds later, “Shu is delivered. Please use.” Is displayed, then the current time display is displayed, and then the first “CH7: Sports Flash Seibu Matsuzaka Daiei of Channel 7 is closed. “Eight strikeouts from Daiei batting line” is displayed, followed by “Good pitch. Good start after opening” is displayed 3 seconds later, the current time is displayed again 3 seconds later, and the following is repeated .
[0049]
FIG. 20 is a diagram for explaining a display operation example of the broadcast service reception menu.
[0050]
First, as shown in FIG. When CBS is selected: Main menu, 2. A CBS setting selection screen is displayed. 1. When the main menu is selected: J-Phone News, 2. Weather, 3. Numbers, 4. A selection screen for sports etc. is displayed. Here, when there is no main menu or when the main menu is changed, all BPCHs are received and a menu is created according to the message type or the like. Next, on the main menu selection screen, 4. When a sport is selected, for example, 1. Baseball, 2. J-League, 3. Sumo, 4. A general selection screen is displayed. In this selection screen, 2. When J-League is selected, detailed information of the selected content such as J-League bulletin, update date, update time, next update, free information, etc. is displayed. If this content is selected (decided), will it be registered in My Menu as the My Menu registration screen? And 1: YES, 2: NO selection screen is displayed, and if YES is selected, it is registered in My Menu and the contents are displayed. Thereafter, it is automatically updated in accordance with the next update. If NO is selected, it is not registered in the My Menu, the saved content is displayed, and the update is not performed according to the update time.
[0051]
Next, frame assembly for BPCH reception in the frame assembly unit 38 of the mobile device (MS) 11 will be described. FIG. 21 is a diagram illustrating frame assembly with a half rate configuration according to the embodiment of the present invention.
[0052]
The BPCH is transferred in a frame having no retransmission function, and the mobile station (MS) 11 transmits the BICH corresponding to one broadcast channel in one superframe four times in the case of a full rate configuration and twice in the case of a half rate configuration. It is receiving repeatedly. When a cyclic check (CRC) error occurs in the received frame, the frame assembling unit 38 discards the frame and assembles only the normally received frame. As shown in FIG. 21, in the case of the half rate configuration, the frame assembling unit 38, when a CRC error occurs in the fourth and fifth frames constituting the first BICH corresponding to one broadcast channel, Only 5 frames are discarded and replaced with the normally received fourth and fifth frames constituting the second BICH to assemble one broadcast channel. Thereby, the reliability of the received message can be improved.
[0053]
Next, in BICH reception, a plurality of broadcast channels can be connected by the connection processing unit 41 using the connection information to form one broadcast channel. That is, the connection processing unit 41 of the mobile device (MS) 11 connects a plurality of corresponding broadcast channels when information related to the connection of broadcast channels is included based on the update number / connection information of the BSCCH. Process. By this connection, the amount of characters per content can be increased.
[0054]
Next, a case where there is a zone shift will be described. When receiving the broadcast service, the mobile station (MS) 11 detects the level of the surrounding zone using an empty slot, as shown in FIG. 4 or FIG. Is possible. When the zone shift is performed during the BICH reception, the BICH of the same channel number is also received at the zone shift destination. At this time, if the information number and the update number of the content being received are the same with reference to the BSCCH, the reception is continued, but if they are different, the message is discarded.
[0055]
Next, the operation of receiving emergency information in the mobile device (MS) 11 will be described. FIG. 22 is a flowchart for explaining the operation of receiving emergency information.
[0056]
First, in the broadcast center (CBC) 20, highly urgent information is organized as CBMAP packets of the 0th or first broadcast channel and downloaded to the exchange (MSC) 13, and the exchange (MSC) 13 stores this emergency information. The content to be included is arranged in the BPCH as the 0th or 1st emergency broadcast channel, the emergency broadcast channel is configured to be included in the CBC hyperframe multiple times (four times), and the BCCH reception section length of the general call channel (PCH) Is changed so that the mobile station (MS) 11 forcibly receives the BPCH of the emergency broadcast channel. That is, as shown in FIG. 22, when the mobile device (MS) 11 performs intermittent reception of PCH in the standby state (ST11) and there is a change in the BCCH reception section length of the received PCH (ST12), the mobile device ( (MS) 11 receives BCCH (ST13). When there is emergency information on this BCCH, since the P2 bit of the broadcast channel indicating element of the extension information is set to 1, the mobile station (MS) 11 determines that the P2 bit is 1 (ST14). , BPCH is received (ST15). Thereby, when there is emergency information, the mobile station (MS) 11 can immediately enter the BPCH reception, and the 0th or first broadcast channel including the emergency information constitutes all broadcast channels being broadcast. Since it is arranged to be included in the CBC superframe a plurality of times, it can be received in a short time after the emergency information is broadcast.
[0057]
As described above, according to the above configuration, after the broadcast center (CBC) 20 acquires a plurality of contents from the information service provider arranged outside or inside, and checks the authority of the contents and the consistency of items. Stored in the content database 25, when the on-air period elapses, the CBMAP conversion unit 28 converts it into a cell broadcast map packet defined as a protocol for processing the download together with the area code, and then transmits the packet to a predetermined exchange (MSC) 13. Then, the exchange (MSC) 13 transmits the received cell broadcast map packet through the base station (BS) 12 of the designated broadcast area set for each superframe of the broadcast physical channel provided exclusively, The mobile station (MS) 11 located in this broadcast area receives the broadcast physical channel, and By displaying the contents on the display unit 44, it is possible to selectively provide a large number of different types of information to all the subscribers of the mobile station (MS) 11 at the same time and any one of the large numbers of information. become. Also, since this broadcast information is provided for each broadcast area from the exchange (MSC) 13 via the base station (BS) 12 because the broadcast area is specified in the content acquired by the broadcast center (CBC) 20, It is easy to provide different information. The dedicated broadcast physical channel is set in a time lot adjacent to the conventional common control channel, so that the mobile station (MS) 11 can make frequency switching unnecessary by only increasing the intermittent reception time. Furthermore, the broadcast physical channel has a logical channel including a broadcast information channel including content and a broadcast service control channel including configuration information of the broadcast information channel, and the broadcast service control channel is included in the first frame of one superframe. Since the broadcast information channel is repeatedly set in subsequent frames, the broadcast information for reception can be easily controlled, and the reliability is improved by error correction at the time of reception. All broadcast channels are placed in each superframe of a broadcast hyperframe consisting of multiple superframes, broadcast channels containing emergency information are repeatedly placed in the broadcast hyperframe, and broadcast channel operators By setting information for receiving the broadcast physical channel in the unique definition area and setting information that identifies the presence or absence of emergency information in this information, emergency information such as earthquake information, tsunami information, and typhoon information can be quickly Can be provided.
[0058]
The mobile station (MS) 11 receives a broadcast information channel corresponding to one broadcast channel repeatedly transmitted in one super frame by the frame assembling unit, discards the frame in which an error has occurred, and receives it normally. By assembling only the frames that have been processed, the reliability of broadcast information can be improved by error correction. Furthermore, the connection processing unit can increase the amount of characters per content by connecting a plurality of broadcast channels based on connection information included in the broadcast service control channel. In addition, the update processing unit can update according to the user's wish by updating the content according to either the set date / time or the update date / time included in the content at the time of receiving operation of the user. Also, by including link information in the content, if this link is selected, Internet browsing becomes possible.
[0059]
In addition, although the example which comprised the broadcast center (CBC) 20 like embodiment was demonstrated in the said description, when the on-air period comes at least the content acquired from the information service provider, the cell broadcast map containing 1 broadcast channel What is necessary is just to convert to a packet for transmission, and to transmit to the switchboard (MSC) 13, and the check of the content and the conversion to the packet can be arbitrarily performed and are not limited to the embodiment. The broadcast physical channel is a logical channel composed of a broadcast information channel and a broadcast service control channel, one broadcast channel is arranged in one superframe, and all broadcast channels are 64 channels. The form is not limited. Furthermore, the mobile device (MS) 11 can be arbitrarily displayed according to the configuration of the display unit and the like, and, for example, a scroll display can be adopted in addition to the switching display by the screen saver. In other words, it will be readily understood that the invention is not limited to the specific embodiments disclosed, but can be modified within the spirit and scope of the invention as defined in the claims.
[0060]
【The invention's effect】
As described above, in the present invention, the broadcast center acquires a plurality of contents from the information service provider, converts them into cell broadcast packets including one broadcast channel when the on-air period comes, and the cell broadcast packets To the corresponding exchange, and the exchange sets the packet for each superframe of the dedicated broadcast physical channel and transmits it through the base station in the designated broadcast area. Since the physical channel is received and its contents are displayed on the display unit, information can be set for many different types of broadcast channels and provided to all subscribers in each broadcast area simultaneously, and emergency information is provided. Then we can offer it as soon as possible.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a broadcast center according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating the overall configuration of a network according to an embodiment of the present invention.
FIG. 3 is a block diagram illustrating a configuration of a mobile device according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating a dedicated physical channel having a full rate configuration and reception timing according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a dedicated physical channel having a half-rate configuration and reception timing according to the embodiment of the present invention.
FIG. 6 is a diagram illustrating a full-rate super frame configuration according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating a half-rate super frame configuration according to the embodiment of the present invention.
FIG. 8 is a diagram illustrating a CBS hyperframe configuration of all broadcast channels according to the embodiment of the present invention.
FIG. 9 is a diagram illustrating a configuration of a broadcast channel according to the embodiment of the present invention.
FIG. 10 is a diagram illustrating a broadcast channel indicating element of broadcast channel extension information according to the embodiment of the present invention.
FIG. 11 is a diagram showing a BSCCH data format according to the embodiment of the present invention.
FIG. 12 is a diagram showing on-air information channel numbers according to the embodiment of the present invention.
FIG. 13 is a diagram showing a data format of a BICH according to the embodiment of the present invention.
FIG. 14 is a diagram illustrating a configuration of a CBMAP packet according to the embodiment of the present invention.
FIG. 15 is a diagram illustrating the configuration of a CBMAP confirmation package according to the embodiment of the present invention.
FIG. 16 is a diagram showing a normal transmission / reception sequence between the broadcast center and the exchange according to the embodiment of the present invention.
FIG. 17 is a diagram showing a transmission / reception sequence in the case of a reply timeout between the broadcasting center and the exchange according to the embodiment of the present invention.
FIG. 18 is a flowchart showing a typical reception operation of the mobile device according to the embodiment of the present invention.
FIG. 19 is a diagram illustrating a display example on the display unit of the mobile device according to the embodiment of the present invention.
FIG. 20 is a diagram illustrating an example of a display operation of a broadcast service of a mobile device according to the embodiment of the present invention.
FIG. 21 is a diagram illustrating frame assembly in the case of a half-rate configuration in the mobile device according to the embodiment of the present invention.
FIG. 22 is a flowchart illustrating an emergency information reception operation in the mobile device according to the embodiment of the present invention.
[Explanation of symbols]
10 Text information broadcasting system
11 Mobile equipment
12 base stations
13 Switch
14 IP / SP
15 Local IP / SP
20 Broadcast Center
21 Receiver
22 Content filter section
23 IP / SP profile database
24 Reception control unit
25 Content database
26 Schedule Department
27 Transmission control unit
28 CBMAP converter
29 Cell information database
30 Transmitter
31 Antenna
32 Radio section
33 Voice conversion circuit
34 Speaker
35 microphone
36 Message Communication Department
37 Clock part
38 Frame assembly
39 Broadcast message memory
40 Update processing section
41 Connection processing unit
42 Message Management Department
43 Display controller
44 display
45 Key input section
46 ROM
47 RAM
48 Control unit

Claims (13)

Obtain multiple contents from an information service provider,
Converting the plurality of contents into cell broadcast map packets for processing message downloads each including one broadcast channel when an on-air period comes;
Download each cell broadcast map packet to the corresponding exchange,
The switch sets the received cell broadcast map packet as a broadcast channel for each superframe of a dedicated broadcast physical channel ( BPCH ) and sets it to be repeatedly transmitted from a base station. The physical channel ( BPCH ) is set to the time slot adjacent to the common control channel ( CCH ) and transmitted to the mobile device via the base station in the designated broadcast area,
The mobile station receives the broadcast physical channels (BPCH) with paging channel to extend the reception period for receiving a paging channel (PCH) in the common control channel (CCH) (PCH), broadcast physical channel received A text information broadcasting method using a digital radio telephone, wherein the content of a broadcast channel assigned to (BPCH) is displayed on a standby screen . The logical channel of the broadcast physical channel ( BPCH ) includes a broadcast information channel including broadcast character information content and a broadcast service control channel including configuration information of the broadcast information channel, and the broadcast service control channel is 2. The character information by the digital radio telephone according to claim 1, wherein the character information is arranged at the head of one superframe, and the broadcast information channel is repeatedly set in a plurality of slots following the broadcast service control channel in the one superframe. Broadcast method. A broadcast hyperframe composed of a large number of the superframes is configured, a different broadcast channel is arranged in each superframe, and a broadcast channel including emergency information in the broadcast channel is repeatedly arranged in the broadcast hyperframe. The character information broadcasting method using a digital wireless telephone according to claim 1. The information for receiving the broadcast physical channel ( BPCH ) is set in an operator-specific definition area of the broadcast channel of the control physical channel. Information broadcasting method. 5. The text information broadcasting method using a digital radio telephone according to claim 4, wherein the information for receiving the broadcast physical channel ( BPCH ) is information for identifying presence / absence of emergency information. Acquiring a plurality of contents from an information service provider, and converting the plurality of contents into cell broadcast map packets for processing message downloads each including one broadcast channel when an on-air period comes;
Broadcast center to download each cell broadcast map packet,
The cell broadcast map packet downloaded from the broadcast center is received, and the received cell broadcast map packet is allocated as a broadcast channel for each superframe of a dedicated broadcast physical channel ( BPCH ). The mobile station is set to be repeatedly transmitted from the base station, and the broadcast physical channel ( BPCH ) is set to a time slot adjacent to the common control channel ( CCH ) , and the mobile station passes through the base station in the designated broadcast area. The exchange to transmit to
Common Control Channel (CCH) in the paging channel (PCH) broadcast physical channel with paging channel to extend the reception period for receiving (PCH) receives (BPCH), the received broadcast physical channel (BPCH) A character information broadcasting system using a digital wireless telephone, comprising: a mobile device that displays on a standby screen the content of a broadcast channel assigned to the mobile phone. 7. The digital radio according to claim 6, wherein the content provided from the information service provider includes an identification number of the information service provider, a cell area group name designating a broadcast area, a message body, and an on-air period. A text information broadcasting system by telephone. The broadcasting center checks the authority of the identified information service provider by matching the IP / SP profile database storing the identification number, cell area group name, and on-air period with the IP / SP profile database. A content filter unit that performs a process for checking the consistency of content items and holding the result, and a content database that stores the content processed by the content filter unit A text information broadcasting system using a digital radio telephone according to claim 6. The content database has a CBMAP conversion unit that converts content that has passed an on-air period into a cell broadcast map packet that includes information on one broadcast channel and is defined as a protocol for download processing. Item 9. A character information broadcasting system using a digital wireless telephone according to Item 8. The mobile station receives a broadcast information channel corresponding to one broadcast channel repeatedly transmitted in one superframe from the exchange via a base station, discards a frame in which an error has occurred, and successfully receives a frame. 7. A character information broadcasting system using a digital radio telephone according to claim 6, further comprising a frame assembling unit for assembling only the frame. When the broadcast channel section length is changed at the time of standby for receiving the general call channel ( PCH ) , the mobile station receives the broadcast channel, confirms that there is emergency information in the operator-specific definition area, and broadcasts. 7. A character information broadcasting system using a digital radio telephone according to claim 6, wherein reception of a physical channel ( BPCH ) is started. The mobile device includes a connection processing unit that receives a broadcast service control channel constituting a broadcast physical channel ( BPCH ) and connects a plurality of broadcast channels to one broadcast channel based on the connection information. A text information broadcasting system using a digital wireless telephone according to claim 6. When the user performs a receiving operation, the mobile device performs processing for starting reception of a broadcast channel for updating according to either the set date and time or the update date and time included in the content received in advance The text information broadcasting system using a digital radio telephone according to claim 6.

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