JP3770244B2 - Mobile communication terminal and message display method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is applied to a communication system such as a wireless call.Applied mobile communication terminal and message display methodAbout.
[0002]
[Prior art]
As a communication system that transmits and receives character information using a conventional telephone line, there are a wireless paging system and a home banking system. In these communication systems, the standard “RCR STD-43” (hereinafter referred to as “RCR STD-43”) has been put into practical use, particularly in the paging system, with the recent rapid increase in demand.
[0003]
First, the RCR STD-43 will be briefly described. FIG. 59 shows a data structure adopted for the RCR STD-43. In FIG. 59, reference numeral 101 indicates a data structure transmitted in one hour. Reference numeral 102 indicates a data configuration of one cycle (hereinafter referred to as a cycle configuration). Reference numeral 103 indicates a data structure of one frame (hereinafter referred to as a frame structure). The data structure 70 is composed of 15 cycles numbered from “0” to “14”, and 15 cycles are transmitted in one hour. The cycle configuration 71 includes 128 frames numbered from “0” to “127”, and 128 frames transmitted for 4 minutes are transmitted. The transmission time for one frame of data is 1.875 seconds, and 32 frames of data are transmitted in one minute. The frame structure 103 shows the structure of data for one frame, and is divided into eight according to the data contents.
[0004]
The frame configuration 72 includes a synchronization unit 1 (S1) 103A, frame information (FI) 103B, synchronization unit 2 (S2) 103C, block information unit (BI) 103D, address field (AF) 103E, vector field (VF) 103F, It consists of a message field (MF) 103G and an idle block (IB) 103H.
[0005]
Synchronizer 1 (S1) 103A is composed of 112 bits of 1600 bps subjected to binary FSK modulation. The synchronization unit 1 (S1) 103A has a modulation scheme / transmission speed of data transmitted after the block information (BI) 103D.
Binary FSK system / 1600bps
Binary FSK system / 3200bps
4-level FSK system / 3200bps
4-level FSK system / 6400bps
The information which prescribes | regulates any of these is stored.
[0006]
The frame information (FI) 103B is composed of one block with 32 bits of 1600 bps subjected to binary FSK modulation as one word. The frame information (FI) 103B stores information specifying the frame number, cycle number, number of transmissions, and the like. The synchronization unit 2 (S2) 103C stores timing information for taking the reception timing with the modulation scheme and transmission rate defined by the synchronization unit 1 (S1) 103A.
[0007]
Information stored from the block information (BI) 103D to the idle block (IB) 103H is transmitted at the modulation scheme / reception speed defined by the synchronization unit 1 (S1) 103A, and 11 pieces of interleaved data in one block of 160 ms unit. Consists of. The block information section (BI) 103D stores information such as a word number and the number of words that are the starting points of an address field (AF) 103E and a vector field (VF) 103F described later. The address field (AF) 103E stores address data of the paging destination. The vector field (VF) 103F stores information such as the word number and the number of words that are the starting point of the message field (MF) 103G. The message field (MF) 103G stores message data corresponding to the data format defined by the vector field (VF) 103F. The idle block (IB) 103H is an unused block, and a pattern of “1” or “0” is set here.
[0008]
When this RCR STD-43 is used, the paging center that provides the paging service, in addition to the subscriber's individual calling service, receives a large amount of information messages of various services such as weather forecast and stock price information at a time. An information providing service that can be provided to a pager possessed by a (service contractor) can be implemented.
[0009]
In addition, pagers possessed by subscribers (users of pagers, hereinafter referred to as users) also receive information messages of various services provided by information providers by requesting to receive the above “information provision service”. can do.
[0010]
[Problems to be solved by the invention]
However, even the RCR STD-43 that can transmit a large amount of data to the user's pager at a time is a short sentence in the specified transmission format, and the amount of data that can be transmitted is limited.
[0011]
In addition, since the content of information provision services using paging systems varies from business information to regional information related to the receiving area, the needs for information content provided by users are in a fixed form such as exchange rates. Information that can be expressed in a format is changing to information that is difficult to express in a specified format such as individual sales and concert ticket information.
[0012]
Therefore, information providers (service centers) are also trying to provide information that is difficult to express in a prescribed format in accordance with the above needs. However, the pager is originally adapted to RCR STD-43 and can only receive data in a prescribed format. In addition, due to the problem of internal memory capacity, a large amount of data in a format other than the standard cannot be received at once.
[0013]
In contrast, a personal communication service (PCS) system is used to connect a cellular phone and a notebook personal computer, and data files in various formats such as images and e-mails can be transferred to each other. 2. Description of the Related Art Conventionally, a method for transmitting / receiving or downloading a desired data file from a database of a company in which a user is employed is known. However, in the above method, for example, when a user connects a cellular phone to the database and downloads the information stored in the database to a notebook personal computer, the user should download the database without searching the database. In some cases, the data file was unknown.
[0014]
Furthermore, in the case of an e-mail service using the cellular phone, there is a problem that the service area is narrower than that of the pager, and depending on the surrounding environment, troubles such as garbled data frequently occur in received data.
[0015]
On the other hand, a method for transmitting and receiving data by connecting a cellular phone to a portable terminal is conventionally known. However, the cellular phone converts data of a bit string of “0” or “1” into an audio signal and transmits / receives it. For this reason, the user cannot know what information is sent until the cellular phone and the center are connected to each other and the information stored in the center database is downloaded to the mobile terminal. When the radio wave condition is poor depending on the surrounding environment, the transmitted / received data may be different from the original data. Furthermore, the cellular phone service area is smaller than that of the pager, and information may not be received depending on the location of the user.
[0017]
The subject of the present invention isAfter confirming what data files are stored in the database by using a wireless communication system such as a paging system and confirming the contents of the data received by the userMobile communication terminal capable of confirming in advance that data file will be downloaded, and message display methodIs to provide.
[0018]
[Means for Solving the Problems]
  The invention described in claim 1
  Various data stored in an external databaseMessage data including data for identifying each of theReceiving means for receiving;
  Received with the message data received by this receiving meansData for specifyingFirst display means for displaying that there is data to be downloaded based on
  Accessing the external database, andData to identifyInstruction means for instructing data download based on
  A second display means for displaying a message prompting confirmation when downloading is instructed by the instruction means;
  It is characterized by having.
[0019]
  According to the portable communication terminal of the first aspect of the present invention, various data stored in an external databaseMessage data including data for identifying each of theReceived together with receiving means for receiving and message data received by this receiving meansData for specifyingA first display means for displaying that there is data to be downloaded based on the access to the external database, andData to identifyInstructing means for instructing the download of data based on the above and a second display means for displaying a message for prompting confirmation when downloading is instructed by the instructing means.
[0020]
Therefore,When the user of the portable communication terminal instructs download by the instruction means, a message prompting confirmation is displayed, so that access to the database can be confirmed in advance.
[0021]
  The invention according to claim 2 is the invention according to claim 1,
  The first display means includes the received message data and the receivedData for specifyingAnd a message for inquiring whether or not to download is displayed together with the fact that there is data to be downloaded based on the above.
[0022]
  According to the portable communication terminal of the second aspect of the present invention, in addition to the first aspect of the invention, the first display means includes the received message data and the received message data.Data for specifyingA message for inquiring whether or not to download is displayed together with the fact that there is data to be downloaded based on.
[0023]
  Therefore, when the user of the mobile communication terminal displays message data,Data for specifyingIt is possible to know in advance whether or not to download data based on.
[0024]
The invention according to claim 3 is the invention according to claim 1.Or in the invention according to 2,,
The second display means displays connection information for accessing the database together with a message for prompting confirmation.It is characterized by that.
[0025]
The invention according to claim 3Mobile communication terminalAccording to claim 1Or 2In addition to the described invention,The second display means displays connection information for accessing the database together with a message for prompting confirmation..
[0026]
Therefore,The user of the mobile communication terminal can confirm in advance access information for downloading.
[0027]
  The invention according to claim 4
  Various data stored in an external databaseReceive message data including data for identifying each of them via a wireless communication line,
  ThatReceived with received message dataData for specifyingThat there is data to download based onDisplay,
  ThatBased on the displayed content, the external database is accessed, and theData to identifyDownload data based onInstruct,
  ThatA message prompting you to confirm the downloadDisplay
  Mobile communication deviceIt features a message display method.
[0028]
  The invention according to claim 4Mobile communication deviceAccording to the message display method, various data stored in an external databaseReceive message data including data for identifying each of them via a wireless communication line,ThatReceived with received message dataData for specifyingThat there is data to download based onDisplay,ThatBased on the displayed content, the external database is accessed, and theData to identifyDownload data based onInstruct,ThatA message prompting you to confirm the downloadDisplay.
[0029]
Therefore,When the user of the portable communication terminal gives a download instruction, a message prompting confirmation is displayed, so that access to the database can be confirmed in advance.
[0087]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0088]
(First embodiment)
1 to 25 are diagrams showing an embodiment of a paging communication system corresponding to the advanced paging method to which the present invention is applied.
[0089]
First, the configuration will be described.
[0090]
FIG. 1 is a diagram illustrating a system configuration of the paging system according to the first embodiment. In this paging system, ticket information such as concerts is provided by voice for each artist as the contents of the information service.
[0091]
In the paging system of FIG. 1, 1 is a public telephone. The public telephone 1 is connected to a paging center 3, a service center 4, a personal computer 7 and the like via a public line network 2. Here, when simply called “connection” via the public network 2, it means physical connection. Hereinafter, for example, when the public telephone 1 and the paging center 3 are logically connected via the public line network 2, they are referred to as “line connection”.
[0092]
The paging center 3 is connected to the transmission station (TX) 5 and is connected to the service center 4 via the public line network 2. The public line network 2 is also connected to an infrared modem 9 for data communication and a data communication receiving station (RX) 11 used in a tele terminal or the like.
[0093]
In the paging system of FIG. 1, 6 and 6 ′ are pagers. Reference numeral 8 denotes a portable terminal (PDA) having a wireless data receiving function and an infrared data communication function. Reference numeral 10 is a portable terminal having a wireless data communication function.
[0094]
As shown in FIG. 2, the paging center 3 includes an input / output circuit 301, a switching unit 302, a call number verification unit 303, a subscriber memory 304, a voice response circuit 305, a control unit 306, a message register 307, a vector register 308, an address A register 309, a transmission signal processing unit 310, and a block information storage memory 311 are included.
[0095]
The input / output circuit 301 is connected to the public line network 2. The input / output circuit 301 inputs the call number (phone number) of the pager 6, 6 ′ to be called from the public telephone 1 connected via the public line network 2 and the message information to be transmitted to the pager 6, 6 ′. At the same time, the announcement from the voice response circuit 305 is output to the public telephone 1 connected to the line.
[0096]
The switching unit 302 is connected to the input / output circuit 301. In response to a control signal from the control unit 306, the switching unit 302 outputs the call number in the input data input to the input / output circuit 301 to the call number verification unit 303 and the message information to the control unit 306, respectively. .
[0097]
The call number verification unit 303 compares the call number input from the switching unit 302 with a plurality of call numbers registered in advance in the subscriber memory 304 and determines whether there is a match.
[0098]
The subscriber memory 304 stores the call number of the pager 6, 6 'to be called and the ID, that is, the address data (21 bits) of the individual call, in association with each contracted subscriber. In the present embodiment, the subscriber memory 304 also stores address data (HC) for receiving a voice information service (not shown). The address code data (HC) is read according to the control of the control unit 306.
[0099]
The control unit 306 controls the overall operation of the paging center 3 and also controls a series of paging processes. The control unit 306 performs processing for calling the pagers 6 and 6 ′ in response to a call request from each public telephone 1. The control unit 306 is connected to the service center 4 through the public line network 2, and when the information message of the voice information service is transmitted, the voice of the pager of the contractor sent from the service center 4 via the dedicated line. In accordance with the call number corresponding to the address data for receiving the information service and the information message data, a paging process is performed in which the information is transmitted to the pagers 6 and 6 ′.
[0100]
The voice response circuit 305 is connected to the input / output circuit 301, generates an announcement content according to the control of the control unit 306, and outputs the announcement to the caller (public telephone 1) connected via the input / output circuit 301. .
[0101]
The message register 307 receives and stores message data transmitted to the pagers 6 and 6 ′ under the control of the control unit 306, and outputs the stored message data to the transmission signal processing unit 310. The message register 307 has a storage capacity capable of storing, for example, message data composed of numerical codes (numerical data) in units of 4 bits and code data (identification data) for identifying the content of a voice information service information message described later. Have The message data stored in the message register 307 is set in the message field (MF) 103G of the frame structure 103 shown in FIG.
[0102]
The vector register 308 has a configuration for storing vector data paired with address data under the control of the control unit 306 and outputting the stored vector data to the transmission signal processing unit 20.
[0103]
The address register 309 receives and stores information such as address data and frame data for calling the pager under the control of the control unit 306, and outputs the stored data to the transmission signal processing unit 310. The address data and frame data stored in the address register 309 are stored in the address field (AF) 103E and frame information (FI) 103B of the frame structure 103 in FIG. 59, respectively.
[0104]
The transmission signal processing unit 310 is connected to the message register 307, the vector register 308, and the address register 309. The transmission signal processing unit 310 extracts information such as message data, vector data, address data, and frame data, converts the information into a data format defined by RCR STD-43, forms transmission data, and controls the control unit 306. The transmission data is output to the transmission station (TX) 5 according to
[0105]
The transmission station (TX) 5 receives the transmission data formed by the transmission signal processing unit 310, modulates the received data, and wirelessly outputs the modulated data to the pagers 6 and 6 'as a carrier wave from the antenna.
[0106]
The block information storage memory 311 stores setting information for setting the block information (BI) 103D of the frame configuration 103 in FIG. 59 according to the control of the control unit 306. The block information storage memory 311 stores information such as a word number serving as a starting point of the address field (AF) 103E and the vector field (VF) 103F based on the transmission data.
[0107]
The service center 4 shown in FIG. 1 has a function of managing voice information and a database function of storing voice information in order to provide a voice information service to users (service contractors) of the pagers 6 and 6 ′. As shown in FIG. 3, the service center 4 includes an input / output circuit 41, an audio output circuit 42, a control unit 43, a clock unit 44, an audio information database 45, an information management table 46, and a RAM 47.
[0108]
The input / output circuit 41 is connected to the public line network 2. The input / output circuit 41 inputs code data and message data for specifying the information content of the voice information from the public telephone 1 connected to the public line network 2 and also sends the voice information from the voice output circuit 42 to the public. The data is output to the public telephone 1 via the line network 2.
[0109]
The audio output circuit 42 is connected to the input / output circuit 41. The voice output circuit 42 reads out and generates voice information stored in a voice information database 45 (to be described later) under the control of the control unit 43, and sends it to the voice information output requester (public telephone 1) via the input / output circuit 41. Output audio information. The voice output circuit 42 also stores voice response content announcements {circle around (1)} to {circle around (3)} that respond in an access process described later in the internal memory.
[0110]
The control unit 43 controls the operation of the entire service center 4. The controller 43 simultaneously outputs the data requested to be transmitted at a preset time interval in the voice information service. The control unit 43 also responds to a voice information output request or provision processing request regarding the voice information service sent from each public telephone 1 or the receiving station (RX) 11, Controls voice information storage processing and the like. The control unit 43 is connected to the paging center 3 through the public line network 2, and is associated with the voice information service, the call number for the call request by the address data #C, the sub address data, the code data, or the free word The identification information including the message data and the recording time are output to the paging center 3 via a dedicated line.
[0111]
The clock unit 44 counts the current time, and outputs the clocked time information to the control unit 43. The voice information database 45 stores the voice information in a management table (TB1, TB2, TB3...), Which will be described later, digitized and compressed. Then, in response to the voice information output process executed by the control unit 43 in the voice information service, the voice information requested for output is decompressed, analog processed, and output to the public telephone 1 connected to the line.
[0112]
In the case of the voice information storage process, the voice information received for the provision request is changed to the previously entered access number. A storage address is assigned to the management table defined by the sub-address data corresponding to, together with the code data and the recording time, and is digitally compressed and stored. The information management table 46 is a management table for managing voice information stored in the voice information database 45. The voice management information table 46 is stored in a memory such as a semiconductor memory. The memory configuration of the information management table 46 is shown in FIG. As illustrated, the information management table 46 includes a table manager TM that stores management information for each of the management tables TB1 to TB4, and a management table TB1 that stores management information for managing voice information stored in the voice information database 45. It consists of each memory area of TB4.
[0113]
The contents stored in the table manager TM are shown in FIG. The table manager TM has an access number. Column, sub-address data column and management table No. Columns are formed in association with each other. Access No. In the column, when the user specifies more detailed service contents (for example, when an artist name is specified) at the time of requesting the voice information service, the access number input from the public telephone 1 by the user operation is displayed. Data (in FIG. 5, a 4-digit numerical value) is stored. In the sub-address data column, the specified access number. 8 bit sub-address data associated with is stored. The example of FIG. 5 shows a case where #S, #T, #U, #V, etc. are set as subaddress data. The sub-address data is information that can be set and changed by the user who receives the voice information service to the pagers 6 and 6 '. For example, when the user of the pager 6 requests a voice information service with a desired artist name, the user of the pager 6 operates a key input unit (to be described later) from the artist menu set in advance in the voice information service, and the desired The sub-address is set by appropriately selecting and setting the artist name. Management table No. In the column, access No. Access number stored in the column. Management table No. indicating which management table stores the audio information corresponding to the sub address data stored in the data and sub address data column. Is stored.
[0114]
FIG. 6 shows the storage contents in the management table TB1 among the management tables TB1 to TB4. In the management table TB1 of FIG. 6, a code data column, a voice information database memory address column, and a recording time column are formed. In the code data column, code data or free word data, which is identification data for identifying the contents of audio information, is stored. In the example of FIG. 6, if the form of the code data is “]] 01”, “defer (ticket)”, if “]] 02”, “defer”, and specify one character with a two-digit numeric code In this example, free word message data (for example, a message message) that forms a message is set. These data are used for providing voice information in the voice information service by the user of the pager 6 and for specifying the output request, and also for display control processing of the display unit of the pager 6. In the voice information database memory address column, the memory address of the storage area in the voice information database 45 of the voice information corresponding to the code data stored in the code data column is stored. In the example of FIG. 6, “TB1AD1”, “TB1AD2”, and “TB1AD3” are set as memory addresses. In the recording time column, the time when the sound information is stored corresponding to the stored code data and the sound information database memory address is stored. In this example, the time when the audio information provision request is completed is stored as the recording time.
[0115]
The management tables TB2 to TB4 are also configured in the same manner as the management table TB1, and store data similar to the management table TB1 for different voice information services.
[0116]
A RAM (Random Access Memory) 47 is used as a work area of the control unit 43, and is a simultaneous output process of data related to the voice information service, and a call number, sub-address data, and code data sent to the paging center 3 at once. Alternatively, free word message data, recording time, etc. are temporarily stored.
[0117]
Next, the appearance of the pager 6 will be described. 7A to 7D are views showing the appearance of the pager 6, and are a front view, a left side view, a bottom view, and a rear view of the pager 6, respectively.
[0118]
As shown in FIG. 7A, a display unit 61a is provided in front of the pager 6. A transparent touch panel 61b capable of pen input is provided on the surface of the display unit 61a. On the front of the pager 6, a cursor right move button 61c, a cursor left move button 61d, a button 61e for displaying increment and next data, a button 61f for displaying decrement and next data, and a dialer key 62 for starting tone transmission. A function key 631 for displaying each processing mode as a menu, a character key 632 for calling a character such as a fixed message or a free message, a registration key 633 for determining and executing, and an illumination key 634 for specifying lighting of the backlight are provided. It has been.
[0119]
On the left side of the pager 6, as shown in FIG. 7B, a menu / power key 630 for calling a menu and turning on / off the power, and an LED 76 that blinks when an incoming call is notified. ing. On the bottom surface of the pager 6, as shown in FIG. 7C, a speaker 74 that provides a sound when notifying an incoming call is provided. As shown in FIG. 7D, a dialer speaker 79 that outputs a sound corresponding to a DTMF (Dual Tone Multi-Frequency) signal that is a dial signal of a push phone is provided on the rear surface of the pager 6.
[0120]
As shown in FIG. 8, the internal circuit of the pager 6 includes a display unit 61a, a touch panel unit 61b, a dialer key 62, a key input unit 63, an antenna 64, a receiving unit 65, a decoder 66, a control unit 67, a buffer memory 68, A deinterleave circuit 69, an ID-ROM 70, a ROM 71, a RAM 72, a driver 73, a speaker 74, a vibrator 75, an LED 76, a transmission buffer 77, a D / A converter 78, and a dialer speaker 79 are included. The bus B includes a display unit 61a, a touch panel unit 61b, a dialer key 62, a key input unit 63, a decoder 66, a control unit 67, a buffer memory 68, a deinterleave circuit 69, an ID-ROM 70, a ROM 71, a RAM 72, a driver 73, and a transmission. A buffer 77 is connected.
[0121]
The display unit 61a receives display data from the control unit 67 in response to the operation of the keys 630 to 634 and displays images such as characters and figures, and moves the cursor in response to the operation of the cursor keys 61c to 61f. To display. The touch panel unit 61b outputs an operation signal to the control unit 67 via the bus B in response to the touch operation when the coordinate position of the display unit 61a on which the desired operation content is displayed is touch-operated with a dedicated pen or the like. .
[0122]
The dialer key 62 instructs the transmission data stored in the transmission buffer 77 to be output from the dialer speaker 79 via the D / A conversion unit 78 in response to the number of operations. The key input unit 63 includes key groups (61c to 61f, 630 to 634) other than the dialer key, and a description of the function thereof is omitted.
[0123]
The antenna 64 receives a carrier wave transmitted wirelessly from the transmitting station (TX) 5 and outputs it to the receiving unit 65. Under the control of the decoder 66, the receiving unit 65 receives the frame number stored in the ID-ROM 70 as described later. Intermittent drive with time slots according to The receiving unit 65 detects and demodulates the signal received by the antenna 64, converts the signal into binary or quaternary digital data, and serially outputs the converted binary or quaternary digital data to the decoder 66.
[0124]
The decoder 66 converts binary or quaternary digital data into 8-bit parallel data and outputs it to the bus B. When the decoder 66 receives a detection signal output when the address data input by the controller 67 matches the address data registered in the ID-ROM 70, the decoder 66 receives the vector field and message of the frame including the matched address data. The receiving unit 65 receives all data in the field.
[0125]
The buffer memory 68 temporarily stores one frame of received data temporarily in blocks. The deinterleave circuit 69 deinterleaves the received data interleaved in units of blocks in accordance with information defining the transmission rate and modulation method.
[0126]
The ID-ROM 70 receives 21-bit address data set in the pager 6, for example, individual call address data #A and #B, and address data # for receiving voice information service sharing the other pagers 6 'and 6'. C is stored together with a public telephone number (TelNo.) That accepts the voice information service. The ID-ROM 70 also has a frame number of its own frame indicating intermittent reception timing. Stores individual information such as data.
[0127]
A ROM (Read Only Memory) 71 is a non-volatile storage medium that stores a display control program executed by the control unit 67 and other various programs. As shown in FIG. 9, the ROM 71 includes display control program memories DM1 and DM2, a free word matrix memory FM, and program memory PM. A control program for controlling each circuit of the pager 6 is stored in the program memory PM.
[0128]
The storage contents of the display control program memory DM1 are shown in FIG. The display control program memory DM1 in FIG. 10 includes an address data column, a display control content column, and a TELNo. A column is formed. Address data set in the ID-ROM 70 is stored in the address data column. The address data stored in the address data column is fixed unlike the sub address data stored in the table manager TM of FIG. In the display control content column, display control content corresponding to the address data is stored. In the example of FIG. 10, “segment“ A ”is lit” as the display control content corresponding to the address data #A, “segment“ B ”is lit” as the display control content corresponding to the address data #B, and address data #C. The display control contents corresponding to the case where “display artist / ticket information” is displayed on the display unit 61a are stored in the TEL No. column, the output contents of the dialer speaker 79 are stored. In the example of FIG. 10, the output contents of the dialer speaker 79 are not stored for address data #A and #B, but for address data #C, the source of the voice information message such as code data is provided. This shows the case where the public telephone number (0000-000-000) of the service center 4 is stored.
[0129]
The storage contents of the display control program memory DM2 are shown in FIG. In the display control program memory DM2 of FIG. 11, a court data column and a display control content column are formed. Code data “]] 01”, “]] 02”, and free word data are stored in the code data column. In the display control content column, as the display control content corresponding to this code data, the above-mentioned ““ give up ”+ recording time”, ““ give up ”+ recording time”, ““ free word message (contents ) “+ Recording time” is stored.Here, the free word message indicates that the incoming message data is free word message data.
[0130]
The free word matrix memory FM has, in the message data set in the message field (MF) 103G received by the pager 6, identification data (“11011101: in bit pattern”) defining that the message data is free word message data. When “−−” (* 2 * 2)) is detected in the dial data, the subsequent bit data is read 8 bits at a time, and the character to be displayed is read from the combination, as shown in FIG. A 4 × 4 bit matrix table is stored.
[0131]
The RAM 72 in FIG. 8 is a rewritable storage medium that stores service contents of the voice information service, incoming message data, and the like. As shown in FIG. 13, the RAM 72 includes a sub address registration memory SM and a message memory MM.
[0132]
The stored contents of the sub-address registration memory SM are shown in FIG. In the sub address registration memory SM of FIG. 14, a sub address data column, a service content column to be displayed, and a transmission data column are formed. In the sub-address data column, sub-address data #S and #U that are the same as the sub-address data specifying the service contents of the voice information shown in the table manager TM of FIG. 5 are stored. In the displayed service content column, the service content of the voice information service to be received is stored corresponding to the subaddress data #S, #U. The example of FIG. 14 shows a case where artist name “Oyama × Huo” is stored as the service content corresponding to subaddress data #S, and artist name “□ kawa △ child” is stored as service content corresponding to subaddress data #U. ing. In the transmission data column, four-digit transmission data set for each service content of the voice information service is stored. In the example of FIG. 14, “0000” and “0002” are stored as transmission data corresponding to the sub-address data column and the service content column. This transmission data is the access number in the service center. It becomes.
[0133]
The contents stored in the message memory MM are shown in FIG. The message memory MM of FIG. 15 includes a data content field, a recording time field, and an incoming time field, which are composed of an incoming address data field, a subaddress data field, and an incoming data field. In the incoming address data column, the address data in which the message data of the address data column in the display control program memory DM1 in FIG. 10 or the address data stored in the ID-ROM 70 is received is stored. In the sub address data column, actually received sub address data in the sub address data in the sub address registration memory SM of FIG. 14 is stored. However, if the incoming data does not indicate a voice information service, nothing is stored in this field. In the incoming data column, data contents transmitted to the pager 6 in the message field (MF) 103G such as incoming message data are stored. The recording time column stores the same recording time as the recording time stored in the recording time column in the information management table TB shown in FIG. However, if the received data content is not a voice information service, nothing is stored in this field. The incoming time of the message data is stored in the incoming time column.
[0134]
The driver 73 in FIG. 8 controls driving of the speaker 74, the vibrator 75, and the LED 76 in response to the notification instruction input from the control unit 67 via the bus B. The transmission buffer 77 temporarily stores DTMF data (transmission data) when outputting DTMF sound from the dialer speaker 79. The D / A converter 78 converts the digital DTMF data stored in the transmission buffer 77 into an analog DTMF signal. The dialer speaker 79 outputs a DTMF sound corresponding to the DTMF signal.
[0135]
The other pagers 6 ′ and 6 ′ shown in FIG. 1 are configured in the same manner as the pager 6 shown in FIGS. 7 and 8.
[0136]
In FIG. 1, a transmitting station (TX) 5 transmits a paging communication signal received from the paging center 3 to the pagers 6 and 6 'by wireless communication. In FIG. 1, a personal computer 7 has various information processing functions and a communication modem function, sends processing data to the public line network 2 by the communication modem function, and processes communication data transmitted and received via the public line network 2. To do.
[0137]
Further, in FIG. 1, the mobile terminal 8 has various information processing functions, and receives and processes a paging signal wirelessly transmitted from the transmitting station (TX) 5 by the wireless communication function. The portable communication terminal 8 has an infrared communication function, and transmits / receives communication data to / from the public line network 2 via the infrared modem 9.
[0138]
In FIG. 1, the infrared modem 9 has a function of transmitting and receiving communication data to and from the mobile communication terminal 8 by an infrared communication function, modulates data transmitted from the mobile communication terminal 8 and sends it to the public line network 2. At the same time, the data transmitted from the public network 2 is demodulated and transmitted to the mobile communication terminal 8.
[0139]
In FIG. 1, a PDA (Personal Digital Assistant) 10 has various information processing functions such as a memo function and a telephone directory function and has a wireless data communication function, and transmits communication data to the receiving station 11 by the wireless data communication function. In addition to being sent to the public network 2, the communication data transmitted from the transmission station (TX) 5 is received and processed.
[0140]
Next, the operation of the first embodiment will be described.
[0141]
In the paging system according to the first embodiment, in order to provide the voice information service to the owners of the pagers 6 and 6 ′ having the dialer function, the voice information related to the voice information service is stored in the service center 4. A function (database) and a management function (processing means) are provided. The audio information service is an artist information service provided by audio information (it is ticket information for each artist, and “send (ticket)”, “given” information, etc. as individual sales). .
[0142]
In the display unit 61a of the pagers 6 and 6 ′, as an application corresponding to the voice information service, the user of the pagers 6 and 6 ′ himself registers information such as individual sales in the service center 4 as voice information. Then, the user of the pager 6, 6 ′ operates the pager 6, 6 ′ to transmit the recording time corresponding to the desired audio information to the service center 4 and request the output of the audio information “audio information service” A menu capable of selecting is displayed.
[0143]
As a series of processing of the service center 4 related to the voice information service, first, control processing executed by the control unit 43 in the service center 4 of FIG. 3 will be described with reference to a flowchart shown in FIG.
[0144]
The circuits constituting the service center 4 are controlled so as to always operate, and are always in a state of waiting for line connection from the public line network 2, and the table manager TM and the management tables TB1, TB2 in the information management table 46 , TB3,... Based on the management information (code data, voice information database memory address, recording time) stored in the voice information database 45, transmission data corresponding to the voice information is sent at regular intervals (for example, Every hour), the data are transmitted simultaneously to the pagers 6 and 6 ′ to be transmitted via the paging center 3 and the transmission station 5.
[0145]
The control unit 43 of the service center 4 detects whether or not the line connection is detected from the input / output circuit 41 in the standby state, and the presence / absence thereof (step S1). If the line connection is not detected in step S1, it is determined whether or not it is the transmission time of the simultaneous transmission of the voice information service information (step S2). For example, when the time to be transmitted is set every hour and the previous transmission time is 11:00, it is determined with reference to the time measuring unit 44 whether or not the current time is 12:00. If it is determined in step S2 that it is not the simultaneous transmission time, the process returns to the standby state. If it is determined in step S2 that the simultaneous transmission time has come, the management table 46 is searched (step S3). Then, by searching the management table 46, it is determined whether or not there is voice information newly recorded in the voice information database 45 after the previous transmission time (11:00) (step S4). That is, by referring to the recording time stored in the management table TB in the management table 46, the presence or absence of audio information recorded after the previous transmission time (11 o'clock) is determined for each table number. Determine each time.
[0146]
If it is determined in step S4 that there is no audio information recorded after the previous transmission time (11 o'clock), the process returns to the standby state. If it is determined in step S4 that there is audio information recorded after the previous transmission time (11 o'clock), it is checked with reference to the management table TB whether there is a plurality of audio information (step S4). S5). As a result of referring to the management table TB in step S5, when a plurality of pieces of audio information do not exist, the process proceeds to step S7. When there are a plurality of audio information, a plurality of code data or free word message data to be transmitted stored in the management table TB and the recording time are stored in the table No. Is temporarily stored in the RAM 47 for each sub-address data corresponding to (step S6).
[0147]
At this time (just 12 o'clock), the management table TB of the information management table 46 stores a total of four pieces of code data (including free word message data) to be broadcasted together with the voice information database memory address and recording time. It is assumed that The four pieces of code data are three for the sub-address data #S and one for the sub-address data #U. There are three code data corresponding to the sub address data #S: “]] 01”, “]] 02” and free word message data “Momiyorijoho (dial data“-(* 2 * 2) 727285992320485136513 # ””. The recording times are “11:05”, “11:10”, and “11:30” The code data corresponding to the sub-address data #U is “]] 02”, and the recording time is “11:25”.
[0148]
Then, data for requesting data transmission by address data #C (for voice information service) is sent to the paging center 3 via the dedicated line (step S7). Then, sub address data, code data / free word message data and recording time corresponding to each of the four voice information service contents confirmed in step S5 are read from the management table TB. The control unit 43 generates one message data having the configuration shown in FIG. 17 from these read data, and sends it to the paging center 3 together with the voice information service address data #C (step S8). And the process of this flowchart is complete | finished.
[0149]
When receiving the data having the configuration shown in FIG. 17 from the service center 4, the paging center 3 stores the message data generated in the paging center 3 in the message field (MF) 103G in FIG. 59 and applies it to the RCR STD-43. Data to be generated. The paging center 3 sends the generated data to the transmission station (TX) 5. As a result, the data having the configuration shown in FIG.
[0150]
Next, an incoming call process executed by the control unit 67 when the pager 6 receives a call from the paging center 3 and receives the transmission data will be described with reference to a flowchart shown in FIG.
[0151]
After turning on the power by operating the power switch 630, the control unit 67 executes initial setting of each circuit unit and setting of control data and enters a reception standby state. The antenna 64 receives a modulated wave (address data, message data) wirelessly transmitted from the paging center 3 via the transmission station (TX) 5 and outputs the modulated wave to the reception unit 65. The receiving unit 65 receives the frame number stored in the ID-ROM 70 according to the control of the decoder 66. The signal is intermittently driven in the time slot corresponding to the data, and the signal received by the antenna 64 is detected and demodulated and output to the decoder 66. The decoder 66 rearranges the data input from the receiving unit 65 into 8-bit parallel data and outputs it to the bus B. The control unit 67 collates the address data registered in the ID-ROM 70 with the data in the address field (AF) 103E that has been interleaved and recovered by the deinterleave circuit 69. When the collation results match, the control unit 67 outputs a coincidence signal to the decoder 66 and continues the receiving operation of the receiving unit 65 so as to capture all the data in this frame.
[0152]
In this case, the control unit 67 executes the process shown in the flowchart of FIG.
[0153]
The control unit 67 captures all the data of one frame transmitted from the paging center 3 via the transmission station (TX) 5 (step S11), and the address data matched and matched is #A, #B, or #C. It is determined whether it is (information service address data) (step S12). If it is determined in step S11 that the address data is #A or #B, the incoming data is subjected to interleave recovery and error correction processing, stored in the message memory MM, and the notification sound of the speaker 74 driven by the driver 73. The incoming call is notified by vibration of vibrator 75 or blinking of LED 79, and “segment” stored in the display control content column corresponding to address data #A or #B in display control program memory DM1 of FIG. Based on “lit A” or “lit segment“ B ”, the segment“ A ”or“ B ”is displayed on the display unit 61b, and a message based on the stored incoming data is displayed on the display unit 61a. (Step S15). And the process of this flowchart is complete | finished.
[0154]
If it is determined in step S12 that the address data is #C (address for voice information service), subaddress data and code data that are identification information in the message field (MF) 103G of the incoming data that has been captured and interleaved and recovered Alternatively, the subaddress data in the free word message data is sequentially compared with the subaddress data (#S, #U) stored in the subaddress registration memory SM of FIG. 14 (step S13). Then, it is determined whether or not there is a match between the subaddress data of the incoming data and the stored subaddress data (step S14). In step S14, for the data where the sub address data does not match, the data following the sub address not matched in step S11 is discarded until the next sub address is detected (step S16). And the process of this flowchart is complete | finished.
[0155]
For the data whose subaddress data matches in step S12, the data subsequent to the subaddress data is transferred to the message memory MM. Based on these received data (code data, free word message data, recording time), the display content is displayed on the display unit 61a. For example, in the case of FIG. 14, the control unit 67 stores only data following the subaddress data #S or #U set in the subaddress registration memory SM in the message memory MM. Then, based on “Roger” or “Catherine” stored in the service content column in association with these subaddress data, the display unit 61a displays “Oyama × Huo” or “□ River △ child” and the display unit 61a. (Step S15). Then, the incoming call process according to this flowchart is terminated.
[0156]
That is, when called by the voice information service address data #C, the pagers 6 and 6 ′ take in all the data in the message field and then send only the subsequent data that matches the sub-address data set in the own device. The data is taken into the memory MM and other data is discarded.
[0157]
As described above, the pagers 6 and 6 ′ perform incoming processing on data transmitted from the paging center 3 through the transmission station (TX) 5. By this incoming call processing, the pagers 6 and 6 ′ take in the data of the message field (MF) 103 G in the data transmitted from the service center 4. The fetched data is stored in the message memory MM formed in the RAM 72 for each identification data. FIG. 19 shows the stored contents of the data stored in the message memory MM.
[0158]
FIG. 19 shows the storage state of the incoming data in the same message memory MM as in FIG. 15, but according to the incoming processing flowchart shown in FIG. 18, the four incoming data with address data #C are received in the incoming address data column. Are newly stored. In the case of this figure, since at least sub address data #S and #U are set in this data transmitted from the paging center 3 according to the voice information service, the sub address data column stores the sub address data #S and #U. is doing. The data content column corresponding to the sub-address data #S includes code data “]] 01”, “]] 02”, and “Momiyojojo” (free word message data) as identification data for designating the service content of the voice information service. ) And recording times “11:05, 11:10, 11:30”, which are times when the respective audio information is recorded in the service center 4 are stored. Corresponding to the sub address data #U, code data “]] 02” and recording time “11:25” are stored. Further, the incoming time column stores the time “12:00” when the pager 6 received these data.
[0159]
Next, when the pager 6 provides the service center 4 with voice information related to the voice information service to the service center 4 via the user public line network 2 or requests the service center to output voice information. A process executed by the control unit 67 of the pager 6 based on an operation from the user will be described with reference to a flowchart shown in FIG.
[0160]
When the user operates the menu / power key 630 of the key input unit 63 to select the voice information service mode, the control unit 67 starts the process of the flowchart shown in FIG. At the beginning of the process, the control unit 67 displays the voice information service menu shown in FIG. 21 on the display unit 61a (step S21). In the audio information service menu shown in FIG. 21, the selection item “1. Audio” is provided in response to the audio information provided by the user and the audio information output request relating to the desired artist (ticket sales information in this embodiment). "Information provision" and "2. Voice information service (voice information output request)" are provided. Then, when the user touches the selection item corresponding position on the touch panel 61b provided on the display unit 61a with a pen or the like, the control unit 67 detects the selection.
[0161]
Next, the control unit 67 determines whether the detected selection item is provision of audio information or an output request in the audio information service menu displayed on the display unit 61a (step S22). For example, the display example of the display unit 61a shown in FIG. 21 corresponds to step S22, and the detected selection item “voice information service (output request)” is displayed in reverse video as indicated by the reference symbol a. Has been. Next, the sub address data column stored in the sub address registration memory SM of the RAM 72 in FIG. 14 is referred to for the detected selection item (step S23). As a result of the reference, if it is determined that the sub-address data is not registered, it is determined that the reception of the voice information service having the desired service content (artist name) is not registered, and this processing is terminated. If it is determined that the sub address data is registered, a plurality of service contents stored in the service contents column in the sub address registration memory SM are displayed corresponding to the sub address data (step S24). Specifically, as shown in FIG. 22, “artist ticket information” stored in the display control content column corresponding to the address data #C in the display control program memory DM2 of FIG. As the information selection items, the artist names “○ 山 × 夫” and “□ 川 △ 子” stored in the service content column in the sub-address registration memory SM of FIG. 14 are displayed on the display unit 61a.
[0162]
Next, it is detected whether or not a specific service content is selected by a user operation among the service content displayed on the display unit 61a (step S25). When it is detected in step S25 that a specific service content has been selected (in the example of FIG. 22, “1. ○ mountain x husband” indicated by reference symbol b is selected and highlighted), The control unit 67 reads the sub-address data corresponding to the specific service content (sub-address data #S when “1. ○ mountain × huo” is selected) from the sub-address registration memory SM of FIG. The control unit 67 reads the data content corresponding to the read subaddress data from the message memory MM of FIG. 19 (step S26). That is, the code data “]] 01”, “]] 02” and the free word message data “Miomijojoho” in the data content column are read. Then, according to the display control content stored in the display control program memory DM2 of FIG. 11, a part of the data content is displayed on the display unit 61a in a list format as shown in FIG. 23 (step S27).
[0163]
Specifically, the display control of FIG. 11 corresponds to the code data “]] 01”, “]] 02” and “free word data” set in the data content column corresponding to the subaddress data #S. Display control contents ““ transfer ”+ recording time”, ““ transfer ”corresponding to the code data“]] 01 ”,“]] 02 ”and“ free word message data ”stored in the program memory DM2. Based on the “+ recording time” and the “recording time + recording time”, the head of the data content and the recording time are displayed on the display unit 61a.
[0164]
Next, the control unit 67 detects whether or not the data displayed on the display unit 61a is selected (step S28). In the example of FIG. 23, the case where selection of “Please yield. 11:10” indicated by the reference symbol c is detected and displayed in reverse video is shown. In this case, the user only has to touch the position on the touch panel 61b corresponding to either “transfer. 11:05”, “transfer” or “11:10” in the selection menu of this data. .
[0165]
When the selection operation as described above is detected, the control unit 67 stores the TelNo. Of the service center 4 stored in correspondence with the address data #C from the display control program memory DM1 of the ROM 71. (0000-000-000) and the access number corresponding to the sub address data (#S) based on the service content (artist name) selected from the sub address registration memory SM of the RAM 72. (0000), the display content selected above, that is, “Please transfer. 11:10”, and the recording time (1105) as the data corresponding to the first, second, and third transmission data, respectively. Set to 77.
[0166]
Then, the control unit 67 sets all the data corresponding to the selected data “Please transfer. 11:10” (“Artist / Ticket information”, “Oyama × Huo”, “Please transfer”, “11: 10 ″) is displayed on the display unit 61a (step S29). Then, it is determined whether or not the first press of the dialer key 62 is detected (step S30). If it is determined in step S 30 that the first dialer key 62 has been pressed, the control unit 67 determines the Tel No. of the service center 4 stored in the transmission buffer 77. (0000-000-000) is output. The output TelNo. Is output from the dialer speaker 79 via the D / A converter 78 as DTMF sound. This TelNo. The DTMF sound corresponding to is connected to the service center 4 by being output from the public telephone 1 (step S31).
[0167]
When the line connection is established between the public telephone 1 and the service center 4 via the public line network 2 by a call from the pager 6 (output of DTMF sound corresponding to the telephone number), the service center 4 1 ▼ “This is the artist ticket voice information service center. Please enter the access number of the artist name you want.” Is output to the public telephone 1 connected via the public line network 2.
[0168]
Next, the control unit 67 reverse-displays the service content “Oyama × Huo” selected in step S25 indicated by the reference symbol d on the display menu shown in FIG. 24 (step S32). Then, the control unit 67 determines whether or not the second press of the dialer key 62 by the user who has heard the announcement (1) from the service center 4 has been detected (step S33). If it is determined in step S 33 that the second press of the dialer key 62 has been detected, the control unit 67 determines the access number stored in the transmission buffer 77. “0000” is output. The output access number Is output from the dialer speaker 79 via the D / A converter 78 as DTMF sound. This access No. Is sent from the public telephone 1 to the service center 4 via the public line network 2 (step S34).
[0169]
After the announcement (1) is output, the service center 4 receives the access number from the pager 6 for a predetermined time. Waiting for the input of the access number from the pager 6. When it is detected that “0000” has been input, the table memory TM in the information management table 46 is searched for an access number. It is determined whether “0000” exists. At this time, the corresponding access No. If there is no, the service center 4 outputs “There is no corresponding audio information.” And the process is terminated. Corresponding access number. If there is, the service center 4 outputs the announcement (2) “Please enter a message or recording time.”
[0170]
Next, the control unit 67 reversely displays the recording time “11:10” indicated by the reference symbol e on the display menu shown in FIG. 24 (step S35). Then, it is determined whether or not the third press of the dialer key 62 by the user who has heard the announcement (2) from the service center 4 has been detected (step S36). If it is determined in step 36 that the third press of the dialer key 62 is detected, the control unit 67 outputs identification data “1110” corresponding to the recording time stored in the transmission buffer 77. The output identification data “1110” is output from the dialer speaker 79 through the D / A converter 78 as a DTMF sound. The DTMF sound corresponding to the identification data is sent from the public telephone 1 to the service center 4 via the public line network 2 (step S37). And the process of this flowchart is complete | finished.
[0171]
When the service center 4 receives the identification data corresponding to the recording time from the pager 6, the service center 4 searches the management table TB1 in the information management table 46 to determine whether or not the recording time “11:10” exists. At this time, if there is no corresponding recording time, “No corresponding audio information” is output, and the process is terminated. If there is a corresponding recording time, the audio information stored in the audio information database 45 based on the memory address TB1AD2 stored in the audio information database memory address field corresponding to the recording time in the management table TB1. Is read and output.
[0172]
By receiving the output of the voice information from the service center 4 by the public telephone 1, the owner of the pager 6 can hear the voice information related to “Roger”.
[0173]
Therefore, when the user of the pager 6 requests the service center 4 to output audio information,
(1) The menu / power key 630 is operated to display the voice information service menu on the display unit 61a.
(2) The voice information output request (voice information service) is selected by operating the touch panel 61b.
(3) Operate the dialer key 62 three times.
Just connect the line to the service center 4 and access No. And code data are automatically transmitted. For this reason, according to the system of this embodiment, the operation of the user of the pager 6 when the audio information output request in the audio information service is requested or when the audio information is provided is simplified.
[0174]
In the first embodiment, the case where the voice information output request of the voice information service is output from the pager 6 to the service center 4 has been described. However, the voice information service can be received from the other pager 6 'storing the sub address data #C by the user performing the same processing operation as described above.
[0175]
As described above, in the paging system of the present embodiment, voice information is stored in the voice information database, and a service center 4 having a voice information service function is newly provided. Using the audio information service function, audio information can be output in response to the identification information sent in a prescribed format such as “Acquire” or “Please give” the ticket for each artist. .
[0176]
In the present embodiment, a service using two types of code data (“]] 01” and “]] 02”) is described as identification data. However, the present invention is not limited to a service using code data. . When message data specifying the contents of the voice information is stored and managed by the service center 4 and the pager 6, respectively, the incoming message data selected as the third transmission data is stored in the transmission buffer 77 instead of the recording time. Can be set. That is, as long as the voice information requested to be output to the service center 4 can be specified, the form of the identification data is not limited, and for example, keywords can be applied. A voice information database memory address that designates voice information stored in the voice information database 45 of the service center 4 may be used as identification data.
[0177]
Further, in the ROM 71 in the pager 6 of the first embodiment, a display control program memory DM2 is formed inside, and a code data column and a display control content column are formed in the display control program memory DM2, Although the code data and the display control contents are stored in association with each other, the display control program memory DM2 is formed in the RAM 72, and the reception control information is stored corresponding to the code data desired by the user to receive the desired code data. You may make it do.
[0178]
FIG. 25 shows an example of the contents stored in the display control program memory DM2 used in this case. In the display control program memory DM2 of FIG. 25, “]] 01”, “]] 02”, “free word data” are stored in the code data column, and “1”, “0” is stored. In this case, only the code data “]] 01” (given) whose reception control flag is set to “1” can be received. In other words, when the code data “]] 01” arrives, “transfer” is displayed, and the code data other than “]] 01” are discarded even in the same sub-address data.
[0179]
Further, a notification control flag may be set corresponding to the type of code data, and notification control may be performed corresponding to the type of code data set in the incoming sub-address data. In this way, for example, in the chord data “]] 01” (transfer) and “]] 02” (transfer), notification control such as different incoming notification sounds (melody) becomes possible. Become.
[0180]
In the voice information database 45, when voice information is newly registered, the time required for output (output required time) is measured, and this output required time is also transmitted when code data is transmitted. Then, the users of the pages 6 and 6 'can understand how long the desired voice information is in terms of time from the required output time when the voice information output request is made.
[0181]
(Second Embodiment)
Hereinafter, a communication system according to the second embodiment of this invention will be described with reference to FIGS.
[0182]
In the second embodiment, the user can check what data is stored in the database of the office where he is employed by using the paging system. A communication system capable of downloading data stored in a database to a mobile terminal after confirming the contents will be described.
[0183]
FIG. 26 is a diagram illustrating a configuration of a communication system according to the second embodiment.
[0184]
In this communication system, a public telephone 1, a paging center 3, an office (data processing system) 14, and a cellular telephone service center 15 are connected via an ISDN (Integrated Services Digital Network) 12. As in the case of the first embodiment, when simply referred to as “connection” via the ISDN 12, it means a physical connection. Hereinafter, for example, when the public telephone 1 and the paging center 4 are logically connected via the ISDN 12, they are referred to as “line connection”.
[0185]
Reference numerals 8A to 8F are portable terminals having a pager function owned by employees of the office 14, and have the same group address data. Each of the mobile communication terminals 8A to 8F has one or more subaddress data. As will be described later, the mobile communication terminals 8A to 8F determine whether or not the message data transmitted from the office 14 is the message data addressed to itself by using the subaddress data. Display the message based on the display. The mobile communication terminals 8C to 8E in the ellipse denoted by reference numeral 100 are the members of the sales department 1 of the office 14 and store the same subaddress data (for the configurations of the mobile communication terminals 8A to 8F, (It will be described later.) Reference numeral 10 denotes a notebook personal computer (hereinafter referred to as a PC), and a PC card having a paging function is set in a PC card slot (not shown). Reference numeral 11 is a cellular phone. Both the PC 10 and the cellular phone 11 are owned by employees of the office 14. Reference numeral 9 is a modem for the mobile communication terminal 8E to perform data communication with the server 142.
[0186]
The paging center 3 is connected to a transmission station (TX) 5 via a paging network 13. The configuration of the paging center 3 in this embodiment is substantially the same as that of the first embodiment, as shown in FIG. However, in the communication system of this embodiment, the paging center 3 corresponds to IP address data that can transmit message data that is alphanumeric when a call is received from the office 14 and a message data transmission request is received, as will be described later. Since the access is performed using the call number, the control unit 306 determines whether the input / output circuit 301 has received the IP address with reference to the subscriber memory 304, and determines that the access is performed using the call number corresponding to the IP address data. If so, the subsequent processing is performed without causing the audio output circuit 304 to output the announcement. The input / output circuit 301 is connected to the ISDN 12, and the control unit 306 is connected to the modem 141 in the office 14.
[0187]
The cellular telephone service center 15 is connected to a transmission / reception station (TRX) 17 via a cellular network 16. Therefore, the PC 10 is connected to the server 142 by connecting to the cellular phone 11 and can perform data communication with the server 142.
[0188]
In the office 14, a data processing system including a modem 141, a server 142, and a database 143 is built to centrally process data stored in the office. The server 142 is configured by an existing office computer or the like as a main frame, and has a management function of the database 143 and a communication function via the modem 142.
[0189]
As shown in FIG. 28, the database 143 includes an information storage unit 145, an information management table 146, and a buffer area 147. The information storage unit 145 is an area in which each file addressed by the information management table 146 is stored, and the area is divided for each attribute of the data file. The buffer area 147 is used as a temporary storage area for data.
[0190]
The contents stored in the information management table 146 are shown in FIG. As illustrated, the information management table 146 includes a table manager TMR that stores management information for each of the management tables TBR1 to TBR4, and management tables TBR1 to TBR4 that store management information for managing information stored in the information storage unit 145. It consists of each area. The management tables TBR1 to TBR4 are divided according to the attribute of the stored data file.
[0191]
The stored contents of the table manager TMR are shown in FIG. The table manager TMR includes a code data column, a management table No. A column and a data attribute column are formed. Code data that is identification data for identifying the attribute of the data file is stored in the code data column. In the example of FIG. 30, “code” is “voice” if the code data form is “]] 01”, “document” if the code data form is “]] 02”, and “table data” if the code data form is “]] 03”. ", If the form of the code data is"]] 04 ", the case of" still image "... is shown. Management table No. In the column, a management table No. indicating which management table stores information corresponding to the code data stored in the code data column. Is stored. In the data attribute column, the code data stored in the code data column and the management table No. Management table No. stored in the column. The data attribute (type of voice, document, table data, still image, etc.) of information corresponding to is stored.
[0192]
FIG. 31 shows the storage contents of the management table TBR1. The management table TBR1 in FIG. 31 is a management table for data file attributes, and the access number. A field, a message data field, an attached file storage address field, a file name field, a size field, and a recording time field are formed. Access No. In the column, access No. (2) is stored. Access No. (2) is assigned corresponding to the sub-address data as will be described later. The management table TBR1 has an access No. The area is divided according to (2). The message data field stores the contents of messages to be transmitted to the mobile communication terminals 8A to 8F. The attached file storage address column stores an address in the information storage unit 145 in which a file corresponding to the message data stored in the message data column is stored. The file name field stores the file name of the file. In the size column, information on the size of the file is stored in KB units. The time when the file was recorded is stored in the recording time column. In the example of FIG. 31, the file corresponding to the message data “sampling data is sent” is stored in the address TB1AD1 at the address TB1AD1 at 11:05 as the file name “SAM.WAV” in a size of 70 KB. Data, access number. (2) “0001”, the size, and the recording time are shown in association with the recording time.
[0193]
The stored contents of the management table TBR2 are shown in FIG. The management table TBR2 in FIG. 32 is a management table for documents in which the attribute of the data file is an access number. A field, a message data field, an attached file storage address field, a file name field, a size field, and a recording time field are formed. Access No. In the column, access No. (2) is stored. The management table TBR2 has an access No. The area is divided according to (2). The message data field stores the contents of messages to be transmitted to the mobile communication terminals 8A to 8F. The attached file storage address column stores an address in the information storage unit 145 in which a file corresponding to the message data stored in the message data column is stored. The file name field stores the file name of the file. In the size column, information on the size of the file is stored in KB units. The time when the file was recorded is stored in the recording time column. In the example of FIG. 31, the file corresponding to the message data “It is the contents of the mail of 7/1.” Is stored in the address TB2AD1 at the address TB2AD1 at a size of 70 KB with the file name “Mail.TXT”. The name is the above message data, access number. (2) “0001”, the size, and the recording time are shown in association with the recording time.
[0194]
The contents stored in the management table TBR3 are shown in FIG. The management table TBR3 in FIG. 33 is a management table for data file attributes for table data (table calculation). A field, a message data field, an attached file storage address field, a file name field, a size field, and a recording time field are formed. Access No. In the column, access No. (2) is stored. The management table TBR3 has an access No. The area is divided according to (2). The message data field stores the contents of messages to be transmitted to the mobile communication terminals 8A to 8F. The attached file storage address column stores an address in the information storage unit 145 in which a file corresponding to the message data stored in the message data column is stored. The file name field stores the file name of the file. In the size column, information on the size of the file is stored in KB units. The time when the file was recorded is stored in the recording time column. In the example of FIG. 33, a file corresponding to the message data “Customer management table.” Is stored in the address TB3AD2 at 11:30 in the size of 10 KB as the file name “CUST.TBL”, and the file name is the above message. Data, access number. (2) A file corresponding to the message data “business evaluation” is stored in association with “0001”, size, and recording time, and the file name “NOR.XLS” is 11 in a size of 20 KB. : 25 is stored in the address TB3AD1, and the file name is the message data, access number. (2) “0002”, the size, and the recording time are shown in association with the recording time.
[0195]
As shown in FIG. 34, the internal circuits of the mobile communication terminals 8A to 8F include an antenna 81, a receiving unit 82, a decoder 83, a control unit 84, a buffer memory 85, a deinterleave circuit 86, a display unit 87a, a touch panel unit 87b, Key input units 88 and 89, ID-ROM 90, ROM 91, RAM 92, driver 93, speaker 94, vibrator 95, LED 96, transmission buffer 97, and interface (I / F) 97 are configured. The bus B ′ includes a decoder 83, a control unit 84, a buffer memory 85, a deinterleave circuit 86, a display unit 87a, a touch panel unit 87b, key input units 88 and 89, an ID-ROM 90, a ROM 91, a RAM 92, a driver 93, and a transmission buffer. 77 is connected.
[0196]
The key input unit 88 includes a power key. The key input unit 89 includes a mode setting key group for setting a mode of the mobile communication terminal 8 such as a message mode described later.
[0197]
The display unit 87a receives display data from the control unit 84 in response to operations of the touch panel unit 87b and the key input units 88 and 89, and displays images such as characters and figures. The touch panel unit 87b outputs an operation signal to the control unit 84 via the bus B in response to the touch operation when the coordinate position of the display unit 87a on which the desired operation content is displayed is touch-operated with a dedicated pen or the like. .
[0198]
The ROM 91 is a non-volatile storage medium that stores a display control program executed by the control unit 84 and other various programs. As shown in FIG. 35, the ROM 91 includes display control program memories DM11 and DM12, a character generator CG, and program memory PM. In the program memory PM, an application program for the mobile communication terminal 8 is stored in addition to a processing program shown in a flowchart described later.
[0199]
The storage contents of the display control program memory DM11 are shown in FIG. The display control program memory DM11 in FIG. 36 includes an address data field, a display control content field, and an access number. A data column is formed. Address data set in the ID-ROM 90 is stored in the address data column. In the display control content column, display control content corresponding to the received address data is stored. In the example of FIG. 36, “segment“ A ”is lit” as the display control content corresponding to address data #A, “segment“ B ”is lit” as the display control content corresponding to address data #B, and address data #C. The display control contents corresponding to “In-house” on the display unit 87a ”are stored respectively in the access No. data column, the access number for accessing the database 145 of the office 14 is shown. 36, access number No. data (1) is not stored for address data #A and #B, but for address data #C, in the example of FIG. A case where an access number (0000-000-000) for accessing the database 145 is stored is shown.
[0200]
The contents stored in the display control program memory DM12 are shown in FIG. In the display control program memory DM12 of FIG. 37, a court data column and a display control content column are formed. Code data “]] 01” to “]] 06”... Are stored in the code data column. In the display control content column, as the display control content corresponding to the code data “]] 01” to “]] 06”, “audio data file icon + file name + size (KB) + recording time”, “Icon indicating document data file + file name + size (KB) + recording time”, “icon indicating table data data file + file name + size (KB) + recording time”, “icon indicating still image data file + “File name + size (KB) + recording time”, “icon indicating moving image data file + file name + size (KB) + recording time”, “icon indicating archive data file + file name + size (KB) + decompression” Later size (KB) + recording time ”is stored.
[0201]
The RAM 92 in FIG. 34 is a rewritable storage medium that stores service contents, incoming messages, and the like, in addition to being used as a work area for the control unit 84. As shown in FIG. 38, the RAM 92 includes a sub-address registration memory SMR, a message memory MMR, a data memory DDR, and a work area WR.
[0202]
The contents stored in the subaddress registration memory SMR are shown in FIG. The sub address registration memory SMR in FIG. 39 includes a sub address data column, a display content column, and an access number. A data column is formed. In the sub-address data column, sub-address data #S, #T, #U set for each of the mobile communication terminals 8A to 8F are stored. The sub address data stored here is all the data set in the mobile terminal. In the display content column, display content (message destination) of a display image of an incoming message to be described later is stored. Access No. The data column is set for each sub-address data, and the 4-digit access number used when accessing the server 142 from the mobile communication terminals 8A to 8F and causing the server 142 to operate the management table TB for managing the files in the database 143. . Is stored.
[0203]
The contents stored in the message memory MMR are shown in FIG. In the message memory MMR of FIG. 40, an incoming address data field, a subaddress data field, a downloaded confirmation flag field, a code data field, a file name field, a size field, a recording time field, an incoming time field, and a message data field are formed. Yes. In the incoming address data column, the address data in which the message data of the address data column in the display control program memory DM11 in FIG. 36 or the address data stored in the ID-ROM 90 is received is stored. In the sub-address data column, actually received sub-address data in the sub-address data in the sub-address registration memory SMR of FIG. 39 is stored. However, if the incoming data is not from the office 14, the sub-address data is not stored. The downloaded flag column stores a flag F indicating whether or not the file body having the file name stored in the file name column has been downloaded from the database 143 to the mobile communication terminals 8A to 8F. The contents of the received message data and the like are stored in the mobile communication terminals 8A to 8F in the message field (MF) 103G. In the file name column, a file name included in the incoming data is stored. The size field stores the file size of the file name stored in the file name field. The recording time column stores the same recording time as the recording time stored in the recording time column in the information management table 145 shown in FIGS. The incoming time when the message data arrives is stored in the incoming time column. The message data field stores the content of the message transmitted to the mobile communication terminals 8A to 8F.
[0204]
The data memory DDR stores the data created by the mobile communication terminals 8A to 8F with a file name, and stores a downloaded file (attached file) for a download process from the database 143 to be described later. Has an area. In addition, when a data file created and processed by the mobile communication terminals 8A to 8F is uploaded to the database 143, the data stored in this area is the target of upload.
[0205]
The work area WR is an area for temporarily storing data that is actually being processed. In the mobile communication terminal 8, the configurations of the antenna 81, the receiving unit 82, the decoder 83, the buffer memory 85, the deinterleave circuit 86, the ID-ROM 90, the driver 93, the speaker 94, the vibrator 95, and the LED 96 are respectively the first embodiment. The configuration of the corresponding pager 6 is substantially the same.
[0206]
Next, the operation of the second embodiment will be described.
[0207]
In the communication system according to the present embodiment, processing until information is stored in the database 143 of the office 14 is transmitted to the mobile communication terminals 8A to 8F as a message, and the information is downloaded to the mobile communication terminals 8A to 8F. Will be described as an example. A case will be described in which a message is uploaded to the database 143 by e-mail or the like for the downloaded information by accessing the server 142.
[0208]
As a series of processing executed in this communication system, first, processing executed automatically by the server 142 in the office 14 in FIG. 26 will be described with reference to the flowchart shown in FIG.
[0209]
The server 142 is always operating and is in a state of waiting for line connection from the ISDN network 2 and stores information based on the management information stored in the table manager TMR and the management table TBR in the information management table 146. The message data corresponding to the information stored in the unit 145 is simultaneously transmitted to the mobile communication terminals 8A to 8C via the paging center 3 and the transmission station 5 at regular time intervals (for example, every hour).
[0210]
In the standby state, the server 142 of the office 14 receives an access number from the input / output circuit 41. By determining whether (1) is input, the presence / absence of line connection is detected via the ISDN network 2 (step S41). If no line connection is detected in step S41, it is determined whether or not it is a transmission time for simultaneous transmission of code data (step S42). For example, it is determined with reference to the time measuring unit 44 whether or not the previous transmission time is 11:00 and the current transmission time is 12:00. If it is determined in step S42 that it is not the simultaneous transmission time, the process returns to the standby state. If it is determined in step S42 that the simultaneous transmission time has come, the information management table 146 is searched (step S43). Then, by searching the information management table 146, it is determined whether or not the information recorded after the previous transmission time (11:00) is the information storage unit 145 (step S44). That is, the presence / absence of information recorded after the previous transmission time (11 o'clock) with reference to the recording times stored in the management tables TBR1 to TBR4 is determined for each table No. Determine each time.
[0211]
If it is determined in step S44 that there is no information recorded after the previous transmission time (11 o'clock), the process returns to the standby state. If it is determined in step S44 that there is information recorded after the previous transmission time (11 o'clock), it is checked with reference to the management tables TBR1 to TBR4 whether or not a plurality of pieces of information exist (step S44). S45). If a plurality of pieces of information do not exist as a result of referring to the management table TBR in step S45, the process proceeds to step S47. If there are multiple pieces of information, the message data, file name, size and recording time corresponding to the information stored in the management table TBR, and the code data stored in the table manager TMR are subaddress data. Each time it is temporarily stored in the buffer area 147 (step S46).
[0212]
At this time (exactly at 12:00), the management tables TB1 to TB4 of the management table 146 include newly recorded message data, attached file storage addresses, file names, sizes, and recording times, as shown in FIGS. Is stored.
[0213]
The server 142 sends data requesting data transmission by address data #C (IP address data, group address data of the mobile communication terminals 8A to 8F) to the paging center 3 via the ISDN 12 (step S47). The message data, file name, size, recording time, and code data stored in the buffer area 147 in step S46 are sent to the paging center 3 (step S48). And the process of this flowchart is complete | finished.
[0214]
The paging center 3 processes the series of data transmitted from the data processing system in step S4 and transmits it to the mobile communication terminals 8A to 8F having the address data #C via the transmission station 5.
[0215]
FIG. 42 shows the data structure of the message field (MF) 103G sent from the paging center 3. As shown in the drawing, at least one set of message data, code data, file name, size, and recording time is stored for each subaddress data.
[0216]
Next, the data transmitted from the paging center 3 arrives at the mobile communication terminals 8A to 8F, and the processing at the time of data arrival at the mobile communication terminals 8A to 8F is the pager in the first embodiment. 6 and 6 ′ are substantially the same as the processing (FIG. 18).
[0217]
By this incoming call processing, for example, data as shown in FIG. 43 is stored in the message memory MMR in the RAM 92 of the mobile communication terminal 8E. The display shown in FIG. 44 is displayed on the display unit 87a of the mobile communication terminal 8E by performing display control processing (FIG. 18, step S15) based on the data stored in the message memory MMR as shown in FIG. Is done. In this image, the following data is displayed based on the incoming data. As indicated by reference numeral 0a, the message to which the message is addressed (in this example, addressed to the employee of the sales department 1) is displayed based on the sub-address data. As indicated by reference numeral 0b, the number of messages received at the same time and the number of those messages (in this example, the first of four messages) are displayed. As indicated by reference numeral 0c, the contents of the incoming message data (in this example, “sampling data is sent”) are displayed. As indicated by reference numeral 0d, the display control contents stored in the display control memory DM12 corresponding to the received code data are displayed. In this example, an icon indicating audio data, a file name “SAM.WAV”, a size “70 KB”, and a recording time “11:05” are displayed. Further, in this image, the title of “incoming message”, the date and time of incoming call, and an instruction text for designating downloading of information from the database 143 in the read mode described later are displayed.
[0218]
Next, data stored in the database 143 is downloaded to the mobile communication terminals 8A to 8F that have received the messages, and messages such as messages for the downloaded data are uploaded from the mobile communication terminals 8A to 8F to the database 143. Processing will be described. Here, the process in the mobile communication terminal 8E is taken as an example, but the same process can be performed in other mobile communication terminals.
[0219]
45 and 46 are flowcharts showing the mode detection process and the read mode process executed by the control unit 84 of the mobile communication terminal 8C. FIG. 47 is a flowchart showing processing in the message transmission mode executed by the control unit 84 of the mobile communication terminal 8E. The processing of these flowcharts starts when the user of the mobile communication terminal 8E operates the key input unit 89. At this time, it is assumed that the mobile communication terminal 8E is connected to the ISDN 12 via the modem 9. The modem 9 may be built in the mobile communication terminal 8E or external. 47, it is assumed that an attached file to be transmitted to the server 142 has already been prepared and stored in the data memory DDR of the RAM 92 of the mobile communication terminal 8E.
[0220]
When the process starts, first, the control unit 84 causes the display unit 87a to display a menu for selecting a mode as shown in FIG. This menu enables selection of two modes of “1. message transmission” and “2. message reading” (step S61). In this state, the control unit 84 determines whether or not mode selection has been detected by detecting whether or not the position corresponding to the display position of any mode on the touch panel 87b has been touched with a pen (step S62). . Steps S61 and S62 are repeated until it is determined in step S62 that no mode selection has been detected. If it is determined in step S62 that the selection of the mode has been detected, the control unit 84 determines which mode of “message transmission” or “message reading” has been selected (step S63). If it is determined in step S63 that the “message read” mode has been selected, the process proceeds to step S64. On the other hand, if it is determined in step S63 that the “message transmission” mode has been selected, the process proceeds to step S85 in FIG.
[0221]
In step S64, the control unit 84 causes the display unit 87a to display the number of message data received for each address data, as shown in FIG. In this example, message data is stored in the message memory MMR, as shown in FIG. 43, one for the first address data (#A), zero for the second address data (#B), and the in-house address. It is displayed that four message data have arrived in the data (#C). Next, when the user of the mobile communication terminal 8E touches the position corresponding to any of the address data on the touch panel unit 87b with the pen, the control unit 84 selects any of the address data displayed on the display unit 87a. It is determined whether or not such address data has been selected (step S65). If it is determined in step S65 that the address data #C has been selected, the process proceeds to step S66. If it is determined in step S65 that the address data #A or #B has been selected, the process proceeds to step S82 described later. If it is determined in step S65 that no address data is selected, the processes in steps S64 and S65 are repeated.
[0222]
In step S66, the control unit 84 causes the display unit 87a to display all the messages of the selected address data #C as a list, as shown in FIG. In this list, a check box and a message destination are displayed before each message data. When the downloaded flag in the message memory MMR is set, a “∨” mark is displayed in the check box. Based on the sub-address data in the message memory MMR, either “Company” (all employees), “Operating 1” (Sales Section 1), or “Individual” (addressed to the individual who has the terminal) is displayed as the destination. . Next, the control unit 84 determines whether or not the user of the mobile communication terminal 8E has touched the position corresponding to any message on the touch panel unit 87b with the pen, thereby displaying the message data displayed on the display unit 87a. It is determined whether any of the message data has been selected (step S67). If it is determined in step S67 that no message data has been selected, the processes in steps S66 and S67 are repeated. When it is determined in step S67 that any message data has been selected, the control unit 84 determines whether or not the code data is stored in the message memory MMR in association with the selected message data (step S67). S68).
[0223]
When it is determined in step S68 that the code data is stored, the control unit 84 displays information on the corresponding file together with the message data selected in step S67 according to the display control program memory DM12 as shown in FIG. 87a is displayed. Here, the image displayed on the display unit 87a is the same as that shown in FIG. 44 (step S69). Next, the control unit 84 touches the display position of “Y” on the touch panel unit 87b with a pen in response to whether or not download designation is detected, that is, “Do you want to download?” Shown in FIG. It is determined whether or not it has been performed (step S70). If it is determined in step S70 that the download designation is not detected, the processes in steps S69 and S70 are repeated.
[0224]
When the download designation is detected in step S69, the access number stored corresponding to the address data #C in the display control program memory DM11 is displayed. (1) “0000-000-000” is read and stored in the transmission buffer 97. Further, the code data corresponding to the message data selected in step S67, access number. (2) The file name is read from the message memory MMR and stored in the transmission buffer 97 (step S71). Next, the control unit 84 sets an access number as shown in FIG. An image waiting for output of (1) is displayed on the display unit 87a (step S72). In this state, the control unit 84 accesses the access number. It is determined whether or not the execution of the output of (1) has been detected, that is, whether or not the “Y” display position of the touch panel portion 87b is touched with a pen in response to the “execution?” Question shown in FIG. Step S73). In step S73, access No. When it is determined that the execution of the output of (1) is not detected, the processes of steps S72 and S73 are repeated. In step S73, access No. When it is determined that the execution of the output of (1) has been detected, the access No. (1) is output, and the mobile communication terminal 8E and the server 142 are connected to each other via the modem 9 and the ISDN 12. The controller 87 proceeds to the process of step S74 by detecting this line connection.
[0225]
In step S74, the control unit 84 sets the code data, access No. as shown in FIG. (2) An image waiting for output of the file name (hereinafter referred to as subsequent data) is displayed on the display unit 87a (step S75). In this state, the control unit 84 determines whether or not execution of output of subsequent data has been detected, that is, in response to the “execution?” Question shown in FIG. It is determined whether or not it has been touched (step S76). If it is determined in step S75 that the execution of output of subsequent data is not detected, the processes in steps S75 and S76 are repeated. When it is determined in step S75 that the execution of the subsequent data is detected, the subsequent data stored in the transmission buffer 97 is sequentially output to the server 142 via the interface 98, the modem 9, and the ISDN 12 (step S77).
[0226]
When the subsequent data is output to the server 142 in step S77, the server 142 of the office 14 reads the corresponding file from the database 143, and starts transmitting the file to the portable communication terminal 8E via the modem 141 and ISDN 12. . Thereby, downloading of the file to the mobile communication terminal 8E is started (step S78).
[0227]
When the download is started, the control unit 84 causes the display unit 87a to display a download-executed image indicating the amount of downloaded data in a graph as shown in FIG. In parallel with the display of this image, the control unit 84 determines whether or not an end signal indicating that the download of the file has ended is detected (step S79). If it is determined in step S79 that the end signal has not been detected, the processes in steps S78 and S79 are repeated. If it is determined in step S79 that the end signal has been detected, the corresponding downloaded confirmation flag F in the message memory MMR is set to “1” (step S80). Then, the process returns to step S66. At this time, in the list of messages displayed on the display unit 87a, as shown in FIG. 55, a “∨” mark is displayed in a check box corresponding to the message “sampling data is sent”.
[0228]
If it is determined in step S68 that no code data is stored, the control unit 84 causes the display unit 87a to display all the contents of the incoming message (step S81). By operating the key input unit 89 from this state, an interruption occurs in the control unit 84, and the control unit 84 ends the processing of this flowchart.
[0229]
In step S82, in step S82, the control unit 84 causes the display unit 87a to display a list of messages corresponding to the selected address data, as in the process in step S66. However, since the corresponding file is not stored in the database 143 for the incoming message with the address data #A or the address data #B, the check box is not displayed unlike the list shown in FIG. Next, the control unit 84 determines whether or not the user of the mobile communication terminal 8E has touched the position corresponding to any message on the touch panel unit 87b with the pen, thereby displaying the message data displayed on the display unit 87a. It is determined whether any of the message data has been selected (step S83). If it is determined in step S83 that no message data is selected, the processes in steps S82 and S83 are repeated. When it is determined in step S83 that any message data has been selected, the control unit 84 causes the display unit 87a to display all the contents of the incoming message (step S84). By operating the key input unit 89 from this state, an interruption occurs in the control unit 84, and the control unit 84 ends the processing of this flowchart.
[0230]
In step S85 of FIG. 47, the access number of the message upload destination is displayed on the display section 87a. An image for inputting (2) is displayed. In accordance with this display, the user of the mobile communication terminal 8E touches the touch panel portion 87b with a pen to access the upload destination access number. Enter (2). Access No. When the input of (2) is ended, the user of the mobile communication terminal 8E touches the position of the box instructing the end of the input on the touch panel unit 87b with the pen. The control unit 84 determines whether or not the end of the input is detected by determining whether or not the position of this box on the touch panel unit 87b is touched (step S86). Until it is determined in step S86 that the end of input has been detected, the processes in steps S85 and S86 are repeated. If it is determined in step S86 that the end of input has been detected, if it is determined in step S86 that the end of input has been detected, the access number entered in step S85. (2) is stored in the transmission buffer 97 (step S87).
[0231]
Next, an image for inputting a message is displayed on the display unit 87a. In accordance with this instruction, the user of the mobile communication terminal 8E inputs a message by touching the touch panel portion 87b with a pen (step S88). When the message input ends, the user of the mobile communication terminal 8E touches the position of the box instructing the end of the input on the touch panel portion 87b with the pen. The control unit 84 determines whether the end of the input is detected by determining whether or not the position of this box on the touch panel unit 87b is touched (step S89). The processes in steps S88 and S89 are repeated until it is determined in step S89 that the end of input has been detected. If it is determined in step S89 that the input end is detected, if it is determined in step S86 that the input end is detected, the message input in step S88 is stored in the transmission buffer 97 (step S90).
[0232]
Next, an image for instructing a file to be attached is displayed on the display unit 87a. In this image, all files stored in the data memory DDR are displayed as a list. The user of the mobile communication terminal 8E selects a file to be attached from this list and touches the corresponding position on the touch panel unit 87b with a pen to instruct the file to be attached (step S91). In step S92, it is determined whether there is an instruction for the file to be attached in step S91. Steps S91 and S92 are repeated until it is determined in step S92 that the attached file has been instructed. If it is determined in step S92 that there is an instruction for the file to be attached, the control unit 84 selects code data based on the extension of the file name to be attached. For example, when the extension is “TXT”, since it is document data, “]] 02” is selected as the code data. Then, the control unit 84 stores the selected code data in the transmission buffer 97 (step S93). The control unit 84 stores the attached file, the file name, and the size in the transmission buffer 97. Further, the control unit 84 accesses the access number. (1) is read from the ID-ROM 90 and stored in the transmission buffer 97 (step S94).
[0233]
Next, the control unit 84 accesses an access number similar to that shown in FIG. An image waiting for the output of (1) is displayed on the display unit 87a (step S95). In this state, the control unit 84 accesses the access number. It is determined whether or not the execution of the output of (1) has been detected, that is, whether or not the “Y” display position of the touch panel 87b has been touched with a pen in response to the question “execution?” (Step S96). In step S96, the access number is set. When it is determined that the execution of the output of (1) is not detected, the processes of steps S95 and S96 are repeated. In step S96, the access number is set. When it is determined that the execution of the output of (1) has been detected, the access No. (1) is output, and the mobile communication terminal 8E and the server 142 are connected via the modem 9 and the ISDN 12 (step S97). The controller 87 proceeds to the process of step S98 by detecting this line connection.
[0234]
In step S98, the control unit 84 sends a message, code data, access No. (2) An image waiting for output of a file to be attached, a file name and a size (hereinafter referred to as subsequent data) is displayed on the display unit 87a (step S97). In this state, the control unit 84 determines whether or not execution of output of subsequent data has been detected, that is, whether or not the “Y” display position of the touch panel unit 87b has been touched with a pen in response to the “execution?” Question. Is discriminated (step S99). If it is determined in step S99 that the execution of output of subsequent data is not detected, the processes in steps S98 and S99 are repeated. If it is determined in step S99 that the execution of the subsequent data is detected, the subsequent data stored in the transmission buffer 97 is sequentially output to the office 14 via the interface 98, the modem 9, and the ISDN 12 (step S100). As a result, the subsequent data is uploaded to the office 14 and the access No. In accordance with (2) and the code data, the message, the file name and size, and the attached file are stored in the database 143.
[0235]
As described above, in the communication system according to the present embodiment, what data files are stored in the database 143 is transmitted from the office 14 to the mobile communication terminals 8A to 8F using the paging system. Therefore, the user (employee) of the mobile communication terminals 8A to 8F determines what data file is stored in the database 143 before downloading the data file stored in the database 143. For example, the stored data Can be known in advance. For this reason, it is possible to prevent a situation in which data is suddenly downloaded and the memory capacity of the mobile communication terminals 8A to 8F is insufficient.
[0236]
Moreover, also when downloading the data accumulated in the database 143 to the mobile communication terminals 8A to 8F, according to the image displayed on the display unit 87a,
(1) Operate the touch panel 87b to instruct data download.
(2) Access No. by operating the touch panel 87b. (1) is output.
(3) The subsequent data is output by operating the touch panel 87b.
As a result, the mobile communication terminals 8A to 8F and the server 142 are connected to each other, and the data stored in the database 143 is downloaded. For this reason, the operation for downloading the data stored in the database 143 to the mobile communication terminals 8A to 8F is simplified. The data stored in the database 143 can be uploaded from the mobile communication terminals 8A to 8F. For this reason, it is possible to exchange data between the mobile communication terminals 8A to 8F.
[0237]
In the above embodiment, the contents stored in the ROM 91 are the display control program memory DM11, the display control program memory DM12, the character generator CG, and the program memory PM. However, other programs (application programs), data, and the like may be added to the contents stored in the ROM 91.
[0238]
FIG. 56 is a diagram showing the storage contents of the ROM 91 provided with the application program manager memory APMM, which is a modification of the above embodiment. The application program manager stored in the application program manager memory APMM executes the file on the mobile communication terminals 8A to 8F from, for example, code data indicating the attribute of the data file added to the message data or the extension of the file name. It is determined whether one or more possible application programs are stored in the program memory PM of the ROM 91.
[0239]
If it is determined that there is no application program to execute the file, an incoming message in which “Do you want to download? Y / N” in the image shown in FIG. 44 is changed to “No program to execute” is displayed. Is displayed on the display 87a. Thereby, it is possible to prevent the memory from being consumed by unnecessary data.
[0240]
FIG. 57 is a diagram showing the contents stored in the ROM 91 provided with the download data manager memory DDMM, which is a modification of the second embodiment. The download data manager stored in the download data manager memory DDMM compares the size added to the message data with the free capacity of the data memory DDR in the RAM 92. As a result of the comparison, if the free space of the data memory DDR is not enough to download the data of the size, the “Do you want to download? Y / N” portion of the image shown in FIG. An incoming message with the message “the capacity is insufficient” is displayed on the display unit 87a. In this case, it is prohibited to download the file as it is. As a result, the users of the mobile communication terminals 8A to 8F can download data after organizing unnecessary files and creating a sufficient free area in the data memory DDR.
[0241]
Further, in the mobile communication terminals 8A to 8F, when all the conditions for downloading the file corresponding to the message data are satisfied, that is, there is an application program for executing the file when the data memory DDR has free space. In this case, the file may be downloaded without waiting for confirmation from the user whether or not to download in step S70 of FIG.
[0242]
Similarly to the pager 6 of the first embodiment, the mobile communication terminals 8A to 8F of the second embodiment store the reception control information corresponding to the code data desired by the user, and the desired mobile phone. Only the message data indicating that the data is stored in the database 143 may be displayed on the display unit 87a. FIG. 57 shows an example of the stored contents of the display control program memory DM12 used in this case. In the display control program memory DM12 of FIG. 57, “]] 01” to “]] 06” are stored in the code data column, and “1”, “0”, “0”, “1” are respectively stored in the reception control flag column. , “0”, “0” are stored. In this case, message data only when the audio data and still image data corresponding to the code data “]] 01” and “]] 04” whose reception control flag is set to “1” are stored in the database 143. Is displayed on the display 87a.
[0243]
In the second embodiment, the mobile communication terminals 8A to 8F have a pager function, and transmit information related to data stored in the database using the pager function. However, the pager may be a separate individual from the mobile communication terminal. In this case, information regarding data stored in the database can be transmitted to a portable terminal that does not have a pager function or an employee who has a PC.
[0244]
In the present embodiment, when a data file is newly stored in the database 143, the server 142 transmits identification information together with a simple message to the mobile terminal specified by the sub-address data, and the database 143 The server 142 detects that the data file has been deleted, the data file has been copied, or some other processing has occurred in the database 143. Then, a sub address may be specified from the table of the processed database 143, and the occurrence of the process may be transmitted to the mobile terminal specified by this sub address.
[0245]
Further, in the first and second embodiments, the paging system is used to transmit identification information such as the subaddress and code data. However, the present invention is not limited to this, and is used in the PCS system. The identification information may be transmitted using a control channel for line connection.
[0246]
In this manner, for example, in the second embodiment, after the data arrival, the PCS is automatically executed according to the identification information after the data arrival after the user has confirmed and instructed the download. The system may be used to connect to the data management system and execute the download.
[0247]
【The invention's effect】
The invention according to claim 1Mobile communication terminalAccording toWhen the user of the portable communication terminal instructs download by the instruction means, a message prompting confirmation is displayed, so that access to the database can be confirmed in advance.
[0248]
  According to the mobile communication terminal of the invention described in claim 2, when the message data is displayed, the user of the mobile communication terminalData for specifyingIt is possible to know in advance whether or not to download data based on.
[0249]
The invention according to claim 3Mobile communication terminalAccording toThe user of the mobile communication terminal can confirm in advance access information for downloading.
[0250]
The invention of claim 4Message display methodAccording toWhen the user of the portable communication terminal gives a download instruction, a message prompting confirmation is displayed, so that access to the database can be confirmed in advance.
[Brief description of the drawings]
FIG. 1 is a diagram showing a system configuration of a paging system according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a schematic configuration inside the paging center 3 of FIG. 1;
3 is a block diagram showing a schematic configuration inside a service center 4 of FIG. 1;
4 is a diagram showing a configuration of an information management table 46 in FIG. 3. FIG.
FIG. 5 is a diagram showing the contents stored in the table manager TM of FIG. 4;
6 is a diagram showing stored contents of a table TB1 in the information management table of FIG.
7 is a view showing an appearance of the pager 6 of FIG. 1. FIG.
8 is a block diagram showing a schematic configuration inside the pager 6 of FIG. 7. FIG.
9 is a diagram showing a memory area configuration in the ROM 71 of FIG. 8;
10 is a diagram showing the contents stored in the display control program memory DM1 of FIG.
FIG. 11 is a diagram showing stored contents in the display control program memory DM2 of FIG. 9;
12 is a diagram showing a conversion matrix table stored in the free word matrix memory FM of FIG. 9; FIG.
13 is a diagram showing a memory area configuration in a RAM 72 of FIG. 8;
14 is a diagram showing the contents stored in the sub-address registration memory SM of FIG.
FIG. 15 is a diagram showing stored contents in the message memory MM of FIG. 13;
16 is a flowchart of control processing executed by a control unit in the service center of FIG.
17 is a diagram showing the contents of data output from the service center 4 to the paging center 3 and stored in the message field (MF) 103G based on the control process of the service center 4 in FIG.
18 is a flowchart of incoming call processing executed by the pager 6 of FIG.
19 is a diagram showing an example of data contents stored in the message memory MM of FIG. 13 by the incoming call processing of FIG.
20 is a flowchart of a control process of an audio information output request executed by the control unit of FIG. 8;
21 is a diagram showing an example of a voice information service menu displayed on the display unit 61a of FIG. 8 in the control process of FIG.
22 is a diagram showing an example of service content displayed on the display unit 61a of FIG. 8 when service content is selected in the voice information service menu of FIG.
23 is a diagram showing a state in which a part of incoming data corresponding to the service content selected in FIG. 22 and a recording time are displayed on the display unit in FIG.
24 is a diagram showing an image displayed on the display unit 61a of FIG. 8 based on the service contents and incoming data selected in each step of FIG.
FIG. 25 is a diagram showing storage contents of a display control program memory DM2 in which a reception control flag is set.
FIG. 26 is a diagram illustrating a configuration of a communication system according to a second embodiment of this invention.
27 is a block diagram showing a schematic configuration inside the paging center 3 of FIG. 26. FIG.
FIG. 28 is a diagram showing the stored contents of the database 143 of FIG.
29 is a diagram showing the storage contents of the information management table 146 in the database of FIG. 28. FIG.
30 is a diagram showing the storage contents of a table manager TMR in the information management table of FIG. 29. FIG.
FIG. 31 is a diagram showing storage contents of a management table TBR1 in the information management table of FIG. 29;
32 is a diagram showing the storage contents of a management table TBR2 in the information management table of FIG. 29. FIG.
FIG. 33 is a diagram showing the storage contents of a management table TBR3 in the information management table of FIG. 29;
34 is a block diagram showing a schematic configuration inside the mobile communication terminal 8 of FIG. 26. FIG.
35 is a diagram showing a memory area configuration in the ROM 91 of FIG. 34;
36 is a diagram showing stored contents in a display control program memory DM11 of FIG. 35. FIG.
FIG. 37 is a diagram showing the contents stored in the display control program memory DM12 of FIG.
38 shows a memory area configuration in RAM 92 of FIG. 34. FIG.
FIG. 39 is a diagram showing stored contents in a sub-address registration memory SMR in FIG. 38;
40 is a diagram showing stored contents in the message memory MMR of FIG. 38. FIG.
41 is a flowchart showing processing executed by a server 142 in the data processing system of FIG. 26. FIG.
42 is a diagram showing the contents of data output from the office 14 to the paging center 3 and stored in the message field (MF) 72G based on the processing of the server 142 in FIG. 41. FIG.
43 is a diagram showing an example of data contents stored in the message memory MMR of FIG. 40 by the incoming call processing in the mobile communication terminal 8. FIG.
44 is a diagram showing an example of an incoming message displayed on the display section 87a of FIG. 34 by incoming processing in the mobile communication terminal 8. FIG.
45 is a partial flowchart showing a mode detection process and a read mode process executed by the control unit of FIG. 34;
FIG. 46 is a partial flowchart showing a mode detection process and a read mode process performed by the control unit following FIG. 45;
47 is a flowchart showing processing in a message transmission mode executed by the control unit in FIG. 34. FIG.
FIG. 48 is a diagram showing an image displayed on the display unit 87a in the process of step S61 of FIG.
FIG. 49 is a diagram showing an image displayed on the display unit 87a in the process of step S64 of FIG.
FIG. 50 is a diagram showing an image displayed on the display unit 87a in the process of step S66 of FIG.
51 is a diagram showing an image displayed on the display unit 87a in the process of step S69 of FIG. 45. FIG.
FIG. 52 is a diagram showing an image displayed on the display unit 87a in the processes of steps S71 and S72 of FIG.
FIG. 53 is a diagram showing an image displayed on the display unit 87a in the processes of steps S74 and S75 in FIG.
FIG. 54 is a diagram showing an image displayed on the display unit 87a in the process of step S77 of FIG.
FIG. 55 is a diagram showing an image displayed on the display unit 87a when the process proceeds from step S80 to step S66 in FIG.
FIG. 56 is a diagram showing the storage contents of a ROM 91 provided with an application program manager memory.
FIG. 57 is a diagram showing storage contents of a ROM 91 provided with a download data manager memory.
FIG. 58 is a diagram showing storage contents of a display control program memory DM12 in which a reception control flag is set.
FIG. 59 is a diagram showing a data structure defined by the standard “RCR STD-43” of the advanced paging system.
[Explanation of symbols]
1 pay phone
2 Public network
3 Paging Center
4 service centers
5 Transmitting station (TX)
6, 6 'pager
7 Personal computer (with modem)
8 Mobile information terminal (with infrared modem)
9 Infrared modem
10 PDA (with wireless data communication function)
11 Receiving station (RX)
41 I / O circuit
42 Audio output circuit
43 Control unit
44 Clock part
45 Voice information database
46 Voice information management table
47 RAM
61a Liquid crystal display
61b Touch panel
62 Dialer Key
63 Key input section
64 antenna
65 Receiver
66 decoder
67 Control unit
68 Buffer memory
69 Deinterleave circuit
70 ID-ROM
71 ROM
72 RAM
73 Driver
74 Speaker
75 vibrator
76 LED
77 Transmission buffer
78 D / A converter
79 Dialer Speaker
301 I / O circuit
302 switching unit
303 Call number verification part
304 Subscriber memory
305 Voice response circuit
306 Control unit
307 Message register
308 Vector register
309 Address register
310 Transmission signal processor
311 Block information storage memory

Claims (4)

Receiving means for receiving message data including data for specifying each of various data stored in an external database via a wireless communication line ;
First display means for displaying that there is data to be downloaded based on the received data for specifying together with the message data received by the receiving means;
Instruction means for accessing the external database and instructing data download based on the data for identification ;
A portable communication terminal comprising: second display means for displaying a message prompting confirmation when download is instructed by the instruction means. The first display means displays a message asking whether or not to download, together with the fact that there is data to be downloaded based on the received message data and the received data for specifying. The mobile communication terminal according to claim 1. The mobile communication terminal according to claim 1 or 2, wherein the second display means displays connection information for accessing the database together with a message for prompting confirmation. Message data including data for specifying each of various data stored in an external database is received via a wireless communication line ,
Together with the received message data, and displays that there is data to be downloaded based on the data for the specified is received,
Based on the displayed contents, the external database is accessed, and data download based on the data for specifying is instructed ,
When the download is instructed, a confirmation message is displayed
A message display method for a mobile communication terminal .

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