JP3812040B2 - Information management device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a data transmission system.ToThe present invention relates to an information management apparatus having an applied communication function.
[0002]
[Prior art]
Conventionally, portable information management devices such as electronic notebooks and handheld computers are known. These portable information management devices are, for example, various categories of information having different attributes such as schedule data representing the user's own action schedule and address book data composed of a plurality of personal data including names, telephone numbers, etc. Can be input and stored, and can be displayed as necessary.
[0003]
Recently, data stored in an information management apparatus is also transmitted to another apparatus using an existing communication system, for example, a wireless paging system. For example, when data is transmitted from the information management apparatus to the paging receiver using a wireless paging system, a speaker is provided in the information management apparatus, and the other party is pressed against the mouthpiece of the telephone. A paging receiver calling number (telephone number) and a DTMF (Dual Tone Multi Frequency) signal sound corresponding to the data to be transmitted are generated from a speaker. As a result, a call signal of the counterpart paging receiver and a message signal corresponding to the data are transmitted from the transmitting station of the wireless paging system, so that the data transmitted by the information management device is received by the counterpart paging receiver. Is done.
[0004]
[Problems to be solved by the invention]
  As aboveToInformation management functionCommunication functionIf you haveIfIf not only message data but also data such as schedule data and address book data can be transmitted and received, it can be made more convenient as a communication means.
[0005]
However, the message data, schedule data, and data of different categories of address book data have different data attributes that are displayed according to their use, and when these data are sent and received ignoring the attributes, The user on the receiving side must again set the attribute of the data and perform an operation such as storing it in the corresponding memory area.
[0006]
  The present invention has been made in view of the anticipated problems as described above, and its object isIs receivedIf the received data has attributes, the information management device can store the received data in the memory area according to the category and attributes without requiring complicated operations.PlaceIt is to provide.
[0007]
[Means for Solving the Problems]
  The invention described in claim 1Storage means having a plurality of storage areas, classifying and storing data in the plurality of storage areas according to the data attributes, display means for displaying data stored in the storage means, data, Receiving means for receiving a signal including a designation code designating the attribute, and data received together with the designation code by the receiving means represent a storage area corresponding to the attribute of the data in which the data is to be stored. Display control means for displaying on the display means together with a guide message based on the specified code, and instructing whether or not to store the data displayed together with the guide message on the display means in the storage area indicated by the guide message And when the storage is instructed by the instructing means, it is displayed together with a guide message on the display means. The have data, equipped with a storage control means for storing in a storage area indicated by the guide messageIt is characterized by that.
[0008]
  like thisStructureAs a result,If the received data has an attribute, the storage area for classifying and storing the data based on the attribute can be recognized when the received data is displayed, and the data is set as the attribute. When storing in the storage area of the corresponding storage means, it is stored by a simple instruction operation.be able to.
[0009]
  The invention according to claim 2The invention according to claim 1 further includes transmission means for transmitting a signal including data read from the storage means and a designation code for designating the attribute thereof.
[0010]
  With this configuration,In addition to the operation of the first aspect of the present invention, since it has a function of transmitting attributed data to other information management apparatuses, the data is shared with other information management apparatuses.be able to.
[0011]
  The invention described in claim 3A first storage unit having a plurality of storage areas, and classifying and storing the data in the plurality of storage areas according to the attributes of the data; and a display unit for displaying the data stored in the storage unit Receiving means for receiving a signal including data and a designation code for designating the attribute; second storage means for storing data received by the receiving means and a designation code for designating the attribute; and The first display control means for displaying the index of the received data stored in the second storage means on the display means, and one of the indexes displayed on the display means by the first display control means is selected. Means, and when one of the indexes is selected by the selection means, the display content of the display means is received data corresponding to the selected index, and the data is stored. The second display control means for switching to the guide message based on the specified code, which represents the storage area corresponding to the attribute of the data to be corrected, and the data displayed together with the guide message on the display means are indicated by the guide message An instruction means for instructing whether or not to store the data in the storage area, and the storage area indicated by the guide message for the data displayed together with the guide message on the display means when storage is instructed by the instruction means. And a storage control means for storing the data.
[0012]
  like thisStructureStored in the received data storage meansIt is easy to select desired received data to be displayed from the received data, and when the selected received data has an attribute, the data is classified and stored based on the attribute when the received data is displayed. When the data is stored in the storage area of the storage means corresponding to the attribute, the storage area can be recognized by a simple instruction operation.be able to.
[0013]
  The invention according to claim 4The invention described in claim 3 further includes transmission means for transmitting a signal including data read from the storage means and a designation code designating the attribute thereof.
[0014]
  With this configuration,In addition to the operation of the first aspect of the present invention, since it has a function of transmitting data having attributes to other information management apparatuses, it is possible to share data with other information management apparatuses.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment when the present invention is applied to a radio paging system (data transmission system) compliant with a radio paging system standard RCR STD-43 will be described with reference to the drawings.
[0022]
FIG. 1 illustrates a system configuration of a wireless paging system using an information management device 1 according to the present invention for a data transmission terminal and a data reception terminal. The information management apparatus 1 according to the present embodiment is an electronic notebook having a dial tone output function and a paging signal reception function. In this case, a telephone terminal 2 such as a push phone is connected to a center (central control station) 4 under the jurisdiction of a paging service company via a public line network 3, and a transmitting station 5 is connected to the center 4. For example, a predetermined call number is transmitted via the telephone terminal 2 by a dial signal, for example, a DTMF signal by the electronic notebook 1A, and the center 4 under the jurisdiction of the paging service company from the public line network 3 to which the telephone terminal 2 is connected And, via the transmitting station 5, a call is made to another electronic notebook 1B having the same configuration as the electronic notebook 1A corresponding to the calling number.
[0023]
2 and 3 show the external configuration of the electronic notebook 1 (1A, 1B). FIG. 2 is a front view of the notebook-type electronic notebook 1 opened, and FIG. 3 shows the electronic notebook 1 closed. FIG.
[0024]
In FIG. 2, the electronic notebook 1 is opened with a display portion 12, a display on key 13a, a display off key 13b, a display switching key 13c, a menu key 13d, a menu key using a dot matrix type liquid crystal display panel on the inner surface of the left side 1a. Search key 13e, pictogram search key 13f, function key 13g, secret key 13h, bell number key 13i, release key 13j, execution key 13k, cursor key 13l, message key 13m, dial key 13n, and IR transmission / reception unit at the upper end thereof 14 is disposed.
[0025]
The display on key 13a is a key for turning on the electronic notebook function and shifting to a new data input state when the electronic notebook function is already on. The display off key 13b is for turning off the electronic notebook function. Key to turn off the display.
[0026]
The display switching key 13 c is a key for switching display, and the menu key 13 d is a key for shifting to the menu display of all modes provided in the electronic notebook 1.
[0027]
The search key 13e is a key for instructing data search or cancellation of the search state, and the pictogram search key 13f is a key for instructing data search for each pictogram or cancellation of the search state.
[0028]
The bell number key 13i is a key for displaying a list of registration data in the phone book mode, that is, only the calling number of the paging receiver, its type, and the name of the owner from the address book data memory DB described later.
[0029]
The cancel key 13j is a key for canceling a function or operation being executed halfway or canceling kanji conversion, and the execution key 13k is a key for instructing the execution of each function.
[0030]
The cursor key 13l is used to instruct to move the cursor displayed in a shape corresponding to the state in the menu display, the file selection display, the date selection display, the character editing display, etc. On the other hand, it is a key for instructing the display of previously displayed data or the next data in combination with a shift key in a sheet key 13o described later.
[0031]
The message key 13m is a key for shifting to display of a received message stored in an incoming message data memory RD, which will be described later, and the dial key 13n instructs the start of dialing a telephone number or data, for example, a DTMF signal. It is a key to do.
[0032]
The IR transmission / reception unit 14 is integrally provided with a light emitting unit and a light receiving unit for directly transmitting / receiving various data and the like to / from the same electronic notebook 1 using infrared signals.
[0033]
Further, on the inner surface of the right side 1b of the electronic notebook 1, there is provided a sheet key 13o in which a large number of kana keys, alphabet keys, numerical keys, symbol keys, and other various function keys are arranged in an overlapping manner. Enter and specify data editing and conversion, data registration, calculator, message protection, etc.
[0034]
Further, it is assumed that a connector for transmitting and receiving various data by line connection with another electronic notebook 1 having a similar configuration (not shown) is provided on the side surface of the left side 1a of the electronic notebook 1.
[0035]
FIG. 3 shows the external configuration of the back surface of the electronic notebook 1 in a closed state and the back surface of the left side 1a of FIG. 2. As shown in FIG. A battery cover 15 for storing, a lock switch 16 for preventing the battery cover 15 from being opened carelessly, and a button battery for backing up memory contents separately from the battery stored in the battery cover 15. And a speaker 18 for outputting the DTMF signal and the like.
[0036]
Next, FIG. 4 shows a circuit configuration provided in the electronic notebook 1 (1A, 1B). A radio wave for calling the electronic notebook 1 is received by the antenna 21 and sent to the receiving section 22. The receiving unit 22 demodulates the received data received by the antenna 21 into binary or quaternary digital data and sends it to the decoder 23.
[0037]
When detecting the power-on, the decoder 23 drives the receiving unit 22 until a synchronization signal is received within a predetermined time based on the control of the control unit 25 connected via the bus line B. This time, the receiving unit 22 is intermittently driven based on a control signal from the control unit 25 that fetches the frame number data of the ID-ROM 24.
[0038]
Then, the decoder 23 converts the signal demodulated by the receiving unit 22 into 8-bit parallel data and sends it to the control unit 25. The control unit 25 agrees with the address data of the ID code set in its own device. When a determination signal is input, subsequently received vector data and message data are sent to the control unit 25.
[0039]
In addition to the decoder 23 and ID-ROM 24, the control unit 25 is connected to the IR transmission / reception unit 14, the key input unit 26 including the various keys 13 a to 13 o, the display unit 12, and the deinterleave circuit 27 via the bus line B. Are connected to the buffer memory 28, ROM 29, RAM 30, driver 31, transmission buffer 32 and interface (IF) 33, and execute the reception control of the decoder 23 and the control operation of the entire circuit in accordance with the operation program stored in the ROM 29. To do.
[0040]
Under the control of the control unit 25, the deinterleaving circuit 27 cancels the interleaving process applied to the received data, that is, the digital value received data decoded by the decoder 23, and performs the process of returning to the original code arrangement. It is.
[0041]
The buffer memory 28 temporarily stores received data sent directly from the decoder 23 and supplies it to the deinterleave circuit 27.
[0042]
FIG. 5 illustrates areas of various information stored in the ROM 29. In addition to the control program CP for the control unit 25 described above, numbers, symbols, alphabets, hiragana displayed on the display unit 12, Character generator CG that stores pattern data of each character such as katakana, kanji, and pictograms, kanji, katakana, hiragana, uppercase letters, lowercase letters, symbols, and pictograms in the transmitted message using 4-digit numeric codes # (Shift) JIS code table JC for conversion as “#XXX”, paging receiver type table PT indicating the type of paging receiver by number, and mode name data corresponding to the operation mode code Mode code table MT that stores etc., and various types according to the type of paging receiver And a respective region of the signal code conversion table CT.
[0043]
FIG. 6 shows the stored contents of the paging receiver type table PT. Here, the “kanji display” type paging receiver capable of displaying kanji and the like corresponding to the #JIS code is “1”. "2" for "free direct" type paging receivers compliant with the RCR STD-43 standard, "3" for "free number / kana" type paging receivers, and "number display" type paging reception with numbers only Set the machine to “4”.
[0044]
FIG. 7 shows the stored contents of the mode code table MT. In the electronic notebook function, for example, five modes out of ten modes, ie, “group talk” mode, “schedule” mode, and “address book” are shown. The mode, “mode code”, “mode name data”, “display symbol”, and “item switching code number” corresponding to the mode, “memo” mode, and “ToDo” mode are stored.
[0045]
Of these, for example, in the group talk mode, the mode code is preceded by symbols “] [” such as “] [1”, and these symbols are converted into #JIS codes, respectively. “]” Is “0147”, “[” is “0146”, and the mode code as a whole becomes 9-digit code data at the time of transmission.
[0046]
The number of item switching codes represents the number of item switching codes inserted into one transmission data. This item switching code is represented by the symbol “[]”, and this symbol is represented by the RCR STD-43. When converted to a free direct code conforming to the standard, “* 4 * 6” is obtained.
[0047]
8, the RAM 30 has an incoming message data memory RD for sequentially storing incoming message data whose interleave processing has been canceled by the deinterleave circuit 27 as shown in FIG. 8, and a group used in the “group talk” mode. Group talk memory GT for storing transmission / reception data, schedule data memory SD to be described later, address book data memory for storing names and types of paging receivers, addresses, etc. Each of the storage areas includes a DB, a memo data memory MD for storing memo data, and a ToDo data memory TD for storing “ToDo” data indicating important requirements to be made.
[0048]
FIG. 9 exemplifies the storage contents of the schedule data memory SD of the RAM 30 of the electronic notebook 1A that transmits the message data in FIG. 1, and the schedule data includes the date, start time ( Hour and minute), end time (hour and minute), schedule contents as the second item, pictograms as the third item, and alarm time (hour and minute) as the fourth item A plurality of sets are stored after storage addresses are assigned according to the order of the contents of the first item.
[0049]
The driver 31 is connected to the speaker 34, the vibrator 35, and the LED 36, and selectively drives them according to the set contents, thereby performing incoming call notification by a buzzer sound, vibration, or flashing light.
[0050]
The transmission buffer 32 sequentially stores data (numerical data or the like) that can be converted into a DTMF signal based on the transmission data created by the control unit 25 and sends the data to the tone signal generation unit 37. The generating unit 37 converts the data into a tone signal (DTMF signal) and outputs it to the speaker 18 provided on the back side of the electronic notebook 1, whereby a DTMF comprising a combination of two preset audio frequency signals. A signal is emitted.
[0051]
The interface 33 is used for directly transmitting and receiving data to and from another line-connected electronic notebook 1 via a connector 38 provided on the side of the electronic notebook 1 not shown in FIGS. Is.
[0052]
Next, the operation of the above embodiment will be described.
[0053]
Here, the schedule data stored in the electronic notebook 1A on the transmission side shown in FIG. 1 is selected and transmitted, and the schedule data is transmitted via the telephone terminal 2, the public line network 3, and the center 4. On the electronic notebook 1B side that received the message, the operation when the contents are confirmed and stored in a predetermined memory area will be described.
[0054]
FIG. 10 mainly shows operations related to transmission of schedule data in the transmission mode by the control unit 25. Here, on the electronic notebook 1A side, a mode menu screen is first displayed on the display unit 12 (step S1). The mode menu screen is displayed when the display on key 13a is operated from the power-off state or when the menu key 13d is operated.
[0055]
FIG. 11 shows an example of the mode menu screen displayed on the display unit 12 at this time. In the figure, the mode indicated by the numeral “1” and the mail post and the pictograph of the arrow facing the mail post is called an incoming call. The “incoming message display mode” that can display the message data stored in the message data memory RD, and the mode indicated by the numeral “2”, the stationery, and the pictograph of the arrow pointing outward from the stationery, This represents a “message creation mode” in which message data to be transmitted can be created in accordance with the type of the destination paging receiver. The mode indicated by the number “3” and two face pictograms is a group talk memory. Display messages sent to or from a specific partner (one or more) stored in the GT, or send a new message to a specific partner This mode represents the “group talk mode” in which messages can be input, and the mode indicated by the numeral “4” and the pictograph of the clock and the arrow on the periphery thereof displays the schedule data stored in the schedule data memory SD. Represents "schedule mode" that allows new schedule data to be registered in the schedule data memory SD, and the mode indicated by the number "5" and the pictograph of the calendar can display the calendar one month at a time. "Calendar mode", which is a mode indicated by the numeral "6" and a pictograph of the telephone, displays address data of a plurality of persons stored in the address book memory DB, that is, telephone numbers, addresses, etc. "Address Book Mode" that allows you to register simple address data in the Address Book Memory DB The mode indicated by the number “7” and the memo paper and pencil pictograms may display memo data stored in the memo data memory MD or store new memo data in the memo data memory MD. A possible “memo mode”, which is indicated by the number “8” and the human head and exclamation mark pictogram, displays the requirements that must be stored in the ToDo data memory TD, Represents the “ToDo mode” that can register special data in the ToDo data memory TD, and the mode indicated by the number “9” and the clock and the shadow pictograph that overlaps this clock displays the current date and time. This represents a “clock mode” that can be corrected or corrected, and a calculator mode that can be calculated by a mode indicated by the numeral “10” and four arithmetic symbols.
[0056]
Next, “schedule mode” is selected. The “schedule mode” is selected after the cursor key 13l is operated while the mode menu screen is displayed, and the menu cursor MC is moved to the position of the pictogram representing the “schedule mode” as shown in FIG. The execution key 13k may be operated. When the execution key 13k is operated in a state where a pictograph representing “schedule mode” is highlighted by the menu cursor MC, the control unit 25 stores the schedule data in the schedule data memory SD of the RAM 30 in step S2 following step S1. It is determined that the mode selection for displaying the schedule data being performed is instructed, all the schedule data for the current day is read from the schedule data memory SD, and a time table corresponding to the set time zone is displayed. 12 is displayed (step S3).
[0057]
For example, if today is April 1, 1996, “Monday, April 1, 1996” stored in the storage address “4” in accordance with the stored contents of the schedule data memory SD shown in FIG. "12:00" to "14:00" as the schedule data, and the time zone is displayed on the time table, and the time zone that matches the current time (if there is no matching time zone, The time zone closest to the time is clearly indicated by flushing. If the alarm time is set in the schedule, “time? Present” is further displayed in the last line. FIG. 12 shows a display example in this case. As the display of the last line, in addition to or instead of the above “time? Yes”, information indicating the schedule number of the schedule set on the day and the contents of the schedule are displayed. The head of the data (in this case, “movie in Yurakucho”) may be displayed.
[0058]
In this case, since only one schedule data corresponding to the current day is set, there is no need to operate the cursor key 13l. However, when a plurality of schedule data are set, the left / right operation of the cursor key 13l is performed. As a result, the time zone to be flushed on the time table is sequentially switched, and the content displayed on the last line is also switched to the corresponding one.
[0059]
If the desired schedule data is not for the current day, the time table of the schedule for the next day and after is displayed by operating the cursor key 13l in the vertical direction, and then the same operation as described above is performed.
[0060]
In this way, desired schedule data is provisionally selected (step S4).
[0061]
Thereafter, it is determined whether or not the execution key 13k has been operated (step S5). When it is determined that the execution key 13k has been operated, all items of the selected schedule data are displayed instead of the display of the time table. It displays on the display part 12 (step S6).
[0062]
FIG. 13 exemplifies the display state at this time, and “movie in Yurakucho” is set as schedule data of “14:00 PM to 14:00 PM” of “April 1, 1996 (Monday)”. In addition, the fact that the alarm is set and the alarm time is “11:00” is displayed together with two bell pictograms AC.
[0063]
Next, it is determined which key has been operated in a state where the schedule data selected as described above is displayed on the display unit 12 (step S7). If the operated key is the cursor key 13l, the next schedule data is selected in step S8, and then the process returns to step S6 to display the next schedule data. If the operated key is the display switching key 13c, the process returns to step S4 to display the original time table. If the operated key is the bell number key 13i, the call number of the paging receiver, its type and the name of the owner are collectively selected from the address data stored in the address book data memory DB of the RAM 30. The data is read out and displayed as a list on the display unit 12 (step S9).
[0064]
Next, the call number of the other party to which the selected schedule data is to be transmitted and transmitted is selected by operating the cursor key 13l (step S10).
[0065]
When the dial key 13n is operated in this state (step S11), the call number of the selected paging receiver is read from the address book data memory DB and transferred to the transmission buffer 32 (step S12). The paging receiver call number set in the transmission buffer 32 is sent to the tone signal generator 37, and a dial tone corresponding to the paging receiver call number is output from the speaker 18 (step S13). During actual transmission, it is necessary to operate the dial key 13n with the speaker 18 on the back of the electronic notebook 1A in contact with the transmitter of any telephone terminal 2.
[0066]
When the transmission output of the call number of the transmission destination is thus completed, in the subsequent step S14, the schedule data selected in step S6 is displayed again on the display unit 12 (step S10).
[0067]
When the paging service center 4 receives the call number of the paging receiver, the paging service center 4 outputs a response announcement such as “Please input a message” to the telephone terminal 2 on the calling side via the public line network 3. After confirming the response announcement from the center 4, the carrier of the electronic notebook 1 </ b> A touches the speaker 18 against the transmitter of the telephone terminal 2 again and operates the dial key 13 n (step S <b> 15).
[0068]
When the dial key 13n is operated, the original data of the schedule data displayed on the display unit 12 is read from the schedule data memory SD and set in the transmission buffer 32. In this case, the mode of the ROM 29 is set at the head of the schedule data. After inserting the mode code read from the code table MT and inserting the item switching code for each item, each data such as characters, symbols and pictograms in these data is converted into corresponding 4-digit numeric data. The converted data is set as transmission data in the transmission buffer 32 (step S16).
[0069]
For example, if the schedule data to be transmitted is the schedule data shown in FIG. 13, the data transmitted from the paging center 4 to the electronic notebook 1B on the receiving side via the transmitting station 5 is “] [21996040112001400 [] ] [] 1100 ", the data to be set in the transmission buffer 32, that is, the data necessary for sending the data to the paging center 4 in the form of the DTMF signal is as follows.
[0070]
First, the first data “] [2” is a mode code representing the schedule data described with reference to FIG. 7. This data is for 9 (4 digits × 2 characters + 1 digit) digits based on the #JIS code. It is set in the transmission buffer 32 as numeric data.
[0071]
The data of the first item of the subsequent schedule data, that is, “199960401120001400” representing the date, the start time, and the end time is set in the transmission buffer 32 as numeric data of 12 digits as it is.
[0072]
The item switching code “[]” is set in the transmission buffer 32 as numeric data of 8 (4 digits × 2 characters) digits based on the #JIS code.
[0073]
The data of the second item following the item switching code “[]”, that is, the schedule content “movie in Yurakucho” is set in the transmission buffer 32 as numeric data of 24 (4 digits × 6 characters) digits based on the #JIS code. The
[0074]
In addition, since there is no data corresponding to the pictorial character of the third item following the data of the second item, the item switching code “[]” is added twice here, and the transmission buffer is used as numeric data for a total of 16 digits. The data “1100” representing the alarm time of the fourth item that follows is set in the transmission buffer 32 as numeric data of four digits as it is.
[0075]
When the transmission data created from the schedule data is set in the transmission buffer 32 in this way, in the subsequent step S17, these data are converted into a DTMF signal by the tone signal generator 37 and output to the speaker 18, and the speaker 18 corresponds to the transmission data. The dial tone is output loudly.
[0076]
At this time, the control unit 25 stores the total number of transmission data held in the transmission buffer 32 and the number of digits of data sequentially output from the transmission buffer 32 via the tone signal generation unit 37 and output from the speaker 18. Is counted, the time required for transmission of the remaining data, specifically, the number of seconds is calculated from a predetermined transmission rate and displayed on the display unit 12.
[0077]
FIG. 14 exemplifies the display state on the display unit 12 at this time. The remaining number of seconds is set to “5 seconds remaining” together with the characters “Dialing” and the pictograph of the telephone being dialed with fingers. And a guide message for interrupting transmission, such as “suspend with release key”.
[0078]
  After continuing the display of the remaining number of seconds for a certain period of time, for example, every one second and counting down the number of seconds, when the remaining number of seconds becomes “0”, all For example, instead of the display as shown in FIG. 14 described above, the display unit 12 displays the characters “transmission end”, and the series of processes shown in FIG. This scheduledataThe process from step S6 is repeatedly executed so as to be transmitted to other destinations.
[0079]
If it is determined in step S2 that a mode other than the schedule mode has been selected from the mode menu screen, processing corresponding to the selected mode is executed according to the processing content described later (step S18), and step S7 is performed. If it is determined that the operated key is a key other than the cursor key 13l, the display switching key 13c, and the bell number key 13i, other key processing is executed (step S19).
[0080]
Next, an operation on the electronic notebook 1B side that receives the schedule data transmitted from the electronic notebook 1A will be described.
[0081]
First, processing related to incoming call processing from waiting for incoming calls immediately after power-on in accordance with the RCR STD-43 standard common to the electronic notebook 1 (1A, 1B) will be described.
[0082]
That is, when the power is turned on by operating the display on key 13a or the like, an ID code composed of frame number data and address code data set in the own device is read from the ID-ROM 24 as an initial operation, and a buffer (not shown) in the control unit 25 is read out. Set to.
[0083]
The decoder 23 receives the synchronization signal composed of the synchronization unit 1 (S1), the frame information (FI), and the synchronization unit 2 (S2) among the transmission data transmitted in the frame order shown in FIG. The frame synchronization of the self frame is established in the information, but among the information included in the synchronization unit 1 (S1), the following frame data includes four types, that is, 1600 bps / 2 value, 3200 bps / 2 value, 1600 bps / 4 value, Since data for setting any of the 3200 bps / 4 values is included, the control data is output from the control unit 25 and initialized so that any of these four types can be supported.
[0084]
Since the decoder 23 does not have to be a self-frame as an initial operation thereafter, the decoder 23 continuously receives the synchronization signal composed of the synchronization unit 1 (S1), the frame information (FI), and the synchronization unit 2 (S2). When the data is received, the data of the synchronization unit 1 (S1) is first converted into 8-bit parallel data and passed to the control unit 25. At this time, the synchronization signal is always sent at 1600 bps / 2 values.
[0085]
The control unit 25 outputs the bit timing data to the receiving unit 22 via the decoder 23 in accordance with the frame type data of the synchronization unit 1 (S1) input from the decoder 23.
[0086]
In accordance with the bit timing signal from the control unit 25, the decoder 23 controls the receiving unit 22 with the synchronizing unit 2 (S2), and the receiving unit 22 detects and demodulates the output of the antenna 21. A binary signal or a quaternary signal is sent to the decoder 23.
[0087]
Next, the decoder 23 converts the frame information (FI) data into 8-bit parallel data and passes the data to the control unit 25.
[0088]
The control unit 25 outputs frame timing data to the receiving unit 22 via the decoder 23 according to the input frame information (FI) data, and determines whether the frame is a self frame. In this case, when the frame information (FI) matches the frame number data of the ID-ROM 24, the control unit 25 controls the reception unit 22 to continuously receive the frame information (FI). The receiving unit 22 and the decoder 23 are stopped until the previous frame.
[0089]
Then, the control unit 25 restarts the receiving unit 22 and the decoder 23 when it determines that the received data is the self frame or one frame before the self frame, and again acquires the synchronization signal of the self frame.
[0090]
The decoder 23 takes the bit timing in the synchronization unit 2 (S2) according to the bit timing data input from the control unit 25, and receives the block information (binary signal or quaternary signal block information) until the stop signal is input from the control unit 25. BI) and address field (AF) are converted into 8-bit parallel data and output to the control unit 25.
[0091]
When the transmission type of the incoming data converted into 8-bit parallel data by the processing of the decoder 23 is three types other than 1600 bps / 2 values, the control unit 25 sends the 8-bit data to the deinterleave circuit 27. Then, the data is rearranged into 8-bit data set in advance by this method according to each transmission type, and then stored in the buffer memory 28.
[0092]
When the incoming data for one block (up to the address field (AF) data) is stored in the buffer memory 28, the control unit 25 reads this data and matches the address code data set in the ID-ROM 24. By checking whether or not to confirm whether the machine is called based on the result, or whether to stop receiving until the next frame timing after stopping the reception to decide.
[0093]
In this way, it is confirmed that the own device is called, and if it is determined that the reception is continued, each of the vector field (VF), message field (MF), and idle block (IB) following the call number is continued. Incoming processing for sequentially receiving data is performed.
[0094]
FIG. 15 shows the contents of processing by the control unit 25 when the schedule data is mainly received as the incoming call processing. Here, the electronic notebook 1B that has received the message data from the electronic notebook 1A will be described as an example.
[0095]
The electronic notebook 1B on the receiving side starts the incoming call processing at the timing assigned to itself, releases the interleave processing applied to the received data by the deinterleave circuit 27, and then holds the data in the buffer memory 28 (Step A1).
[0096]
Thereafter, the incoming data held in the buffer memory 28 is temporarily stored in the incoming message data memory RD of the RAM 30 (step A2), and the mode code "] [n" described above with reference to FIG. It is detected whether (n: 1 to 5) "is added (step A3).
[0097]
If it is determined that the mode code has been detected, the control unit 25 subsequently determines whether the number n of the mode code is “2”, that is, whether the mode code is a code indicating the schedule mode. Is determined (step A4).
[0098]
When the mode code indicates the schedule mode, the control unit 25 selectively drives any one of the speaker 34, the vibrator 35, and the LED 36 by the driver 31 to generate a buzzer sound, vibration, or flashing light. The display unit 12 is configured to notify the incoming call and to return the incoming data stored in the incoming message data memory RD, that is, the schedule data, at the position of the item switching code “[]” inserted in the data. (Step A5), and the process is temporarily terminated.
[0099]
FIG. 16 exemplifies the contents of the incoming schedule data displayed on the display unit 12 at this time. The incoming time “'96 .1.21 12:58 AM” and the incoming data are the schedule data at the uppermost row position. Pictographs indicating that the received schedule data is displayed on the second to fourth lines with a line feed at the insertion position of the item switching code “[]”.
[0100]
The bottom line of the display unit 12 displays a guide message indicating that the incoming message is transferred and stored in the schedule data memory SD of the RAM 30 by operating the execution key 13k.
[0101]
The processing content accompanying the operation of the execution key 13k prompted by this guide display is the same as the processing content for the operation of the key 13k in the incoming message display mode, and will be described in detail later.
[0102]
On the other hand, if the mode code at the head of the message data received in step A4 is detected but it is determined that the mode code is not a code indicating the schedule mode, the control unit 25 causes the driver 31 to use the speaker 34, the vibrator 35, and the LED 36. Is selectively driven to notify the incoming call by a buzzer sound, vibration, or flashing light, and the incoming data stored in the incoming message data memory RD is switched to the item in the middle. This incoming data, that is, data in a mode other than the schedule mode is displayed on the display unit 12 at the line feed position according to the code “[]” (step A6), and this processing is temporarily terminated.
[0103]
Further, when the mode code is not detected from the head of the message data received in step A3, the message data is simply message data for messages not related to the mode, so that the control unit 25, the driver 31 selectively drives any one of the speaker 34, vibrator 35, and LED 36 to notify the incoming message by a buzzer sound, vibration, or flashing light, and the incoming message data memory RD. The stored incoming data is displayed on the display unit 12 as it is (step A7), and the process is temporarily terminated.
[0104]
Next, an operation when an incoming message display mode for reading and displaying incoming message data stored in the incoming message data memory RD of the RAM 30 in the electronic notebook 1B on the receiving side will be described.
[0105]
FIG. 17 mainly shows the operation in the incoming message display mode by the control unit 25. Here, on the electronic notebook 1B side on the receiving side, the display on key 13a is first operated from the power-off state, or the menu key 13d. When is operated, the mode menu screen shown in FIG. 11 is displayed on the display unit 12 (step B1).
[0106]
In this mode menu screen, if the cursor key 13l is operated to move the menu cursor MC and the execution key 13k is operated while the pictogram in the incoming message display mode of the number “1” is highlighted, the above-mentioned In step B2 following step B1, it is determined that the mode selection for displaying the message data stored in the incoming message data memory RD of the RAM 30 has been instructed, and a plurality of items stored from the incoming message data memory RD are determined. Each of the index portions of the message data, for example, 7 digits, is uniformly read out, and the display symbol corresponding to the mode code added to the ROM 29 according to the mode code is added to the head portion of which the mode code is added. Read (step B3).
[0107]
FIG. 18 illustrates the storage contents of the incoming message data memory RD of the RAM 30 of the electronic notebook 1B. Each message data is stored with a storage address attached together with a confirmation flag indicating whether or not the user has confirmed at the time of the incoming call. Has been.
[0108]
Here, the message data of the storage address “05” is the schedule data received from the electronic notebook 1A from the mode code surrounded by the broken line and the item switching code, and the mode indicating the schedule mode data at the head position thereof A code “] [2” is attached, and an item switching code “[]” is attached between each item in the data.
[0109]
Therefore, the control unit 25 uniformly reads out the index part and 7 digits of each message data from the incoming message data memory RD of the RAM 30, and stores the ROM 29 in accordance with the mode code “] [2] of the schedule data at the storage address“ 05 ”. The display symbol of the schedule mode is read from the mode code table MT.
[0110]
The control unit 25 performs index display on the display unit 12 using the index portion of the message data read out in this way and the mode display symbol (step B4).
[0111]
FIG. 19 exemplifies a state in which the index portion of the message data is read from the incoming message data memory RD shown in FIG. 18 and displayed on the display unit 12. Here, normal message data without a mode code is shown. Are read out from the incoming message data memory RD and displayed on the display unit 12 by counting up to 7 digits of Kana characters, numbers, alphabets, etc. other than Kanji.
[0112]
In particular, the schedule data is displayed with the display symbol of the schedule mode read from the mode code table MT of the ROM 29 as described above, and from the incoming message data memory RD in accordance with a preset format. Only the year / month / day data “199960401” is read out, and the separator “/” is added between the year and month data and between the month and day data, and “1996/04/01” is displayed as shown in the figure. Shall.
[0113]
In the state where the index of the incoming message data is displayed as described above, it is subsequently determined whether or not the message data in the schedule mode has been selected (step B5).
[0114]
If the execution key 13k is operated in the state where the message data in the schedule mode is highlighted by the data cursor DC by the operation of the cursor key 13l as shown in FIG. The message data of the schedule mode is read from the RD and displayed on the display unit 12 (step B6).
[0115]
At this time, as shown in FIG. 16, the display unit 12 displays the time “'96 .01.21 12:58 AM” at which the incoming call arrived at the top row position and a pictograph indicating that the incoming data is schedule data. In the second to fourth lines, the schedule data sent from the electronic notebook 1A is displayed with line breaks corresponding to the item switching code “[]”.
[0116]
The bottom line of the display unit 12 displays a guide message that the incoming message is transferred and stored in the schedule data memory SD of the ROM 29 by operating the execution key 13k.
[0117]
In the state where the message data of the incoming schedule mode is displayed in this way, the presence / absence of key operation by the execution key 13k or the release key 13j is detected (step B7).
[0118]
When the execution key 13k is operated here, confirmation is made to set the incoming schedule mode message data as schedule data in the schedule data memory SD of the RAM 30 of the own device. Is compared with the total amount of this message data to be stored (step B9), and whether or not the free space of the schedule data memory SD is larger than the total amount of this message data, that is, this message It is determined whether or not the data can be stored and stored in the schedule data memory SD as it is (step B10).
[0119]
If it is determined that there is more free space in the schedule data memory SD, the message data can be stored and stored as it is, so that this message data is transferred to the schedule data memory SD and stored, and instead an incoming message After the message data in the schedule mode is deleted from the data memory RD (step B11), the incoming message display mode is automatically shifted to the schedule mode as it is, and the schedule data newly stored in the schedule data memory SD is displayed on the display unit. 12 to confirm that the message data has been registered as schedule data (step B12), and the processing of FIG.
[0120]
FIG. 20 exemplifies the display state on the display unit 12 of the electronic notebook 1B at this time, and “14:00 PM to 14:00 PM” of “Monday, April 1, 1996” as in FIG. As the schedule data, “Movie in Yurakucho” is received, and the alarm is set and the alarm time is “11:00” is displayed together with the two bell pictograms AC.
[0121]
If it is determined in step B10 that the free space of the schedule data memory SD is less than the total amount of message data and the message data cannot be stored and stored in the schedule data memory SD as it is, the schedule data memory SD A message indicating that message data cannot be transferred because there is not enough free space is displayed on the display unit 12 using a preset guide message (step B13), and the processing in FIG.
[0122]
FIG. 21 exemplifies the display state on the display unit 12 at this time. Here, a guide message “Memory cannot be moved” is displayed together with a display symbol of a hand holding a tag of “X”. Thus, if the received message data is worthy to be stored in the schedule data memory SD as its own schedule data, the user of this electronic notebook 1B is urged to organize the schedule data memory SD. And
[0123]
  In step B8Execution key 13kHowever, if it is determined that the release key 13j is operated, the message data in the incoming schedule mode is confirmed to be not required to be set as schedule data in the own schedule data memory SD. The display state returns to the index display state in step B4.
[0124]
Further, when it is determined that message data other than the schedule mode is selected from the state in which the index of the incoming message data is displayed in step B5, the selected message data is read from the incoming message data memory RD as it is. The information is displayed on the display unit 12 (step B7), and the processing in FIG.
[0125]
If it is determined in step B2 that a mode other than the incoming message display mode has been selected from the mode menu screen, processing corresponding to the selected mode is executed according to the processing content described later (step B14). ).
[0126]
In the embodiment described above, the schedule data stored in the schedule data memory SD of the RAM 30 is selected and transmitted as message data by the electronic notebook 1A on the transmission side, and this message data is received by the electronic notebook 1B on the reception side. The operation when the message data is transferred and set to the schedule data memory SD of the RAM 30 by operating the execution key 13k at the time of notification or setting of the incoming message display mode has been described. In addition to the schedule data stored in the schedule data memory SD, data in other modes can be transmitted as message data, and can be stored and set in the memory area of the corresponding mode by a simple key operation on the receiving side. is there
[0127]
Hereinafter, an operation when transmitting / receiving data in each mode will be described.
[0128]
FIG. 22 illustrates the stored contents of the incoming message data memory RD in the RAM 30 of the electronic notebook 1B on the receiving side following FIG.
[0129]
Here, the message data of the storage address “06” is the address book data received from the electronic notebook 1A from the mode code and item switching code enclosed by the broken line, and indicates that the data is the address book mode data at the head position. Mode code “] [3” is attached, and a total of 12 item switching codes “[]” are attached between the items in the data.
[0130]
The message data at the storage address “07” is memo data received from the electronic notebook 1A, and a mode code “] [4” indicating that it is memo mode data is attached to the head position of the message data. Only one item switching code “[]” is added between items.
[0131]
Further, the message data of the storage address “08” is the group talk data received from the electronic notebook 1A, and the mode code “] [1” indicating the group talk mode data is added to the head position of the data. Two item switching codes “[]” are attached between the items in the middle.
[0132]
The message data at the storage address “09” is ToDo data received from the electronic notebook 1A, and a mode code “] [5” indicating that it is ToDo mode data is added to the head position of the message data. Three item change codes “[]” are attached between items.
[0133]
In the stored contents of the incoming message data memory RD, when the incoming message display mode is selected from the mode menu screen, the index portion of each message data in the incoming message data memory RD is read out by the processing of FIG. The corresponding display symbols are read from the mode code table MT of the ROM 29 in accordance with each mode code added to the head portion (step B3), and the index portion of the read message data and the display symbol of the mode code are used. Index display as shown in FIG. 23 is performed (step B4).
[0134]
That is, in FIG. 23, each display symbol in the schedule mode, address book mode, memo mode, group talk mode, and ToDo mode is displayed at the head position of the index portion of each message data.
[0135]
Then, in order to store each message data as described above in the incoming message data memory RD of the RAM 30 of the electronic notebook 1B on the receiving side, the order is reversed from the electronic notebook 1A on the transmitting side in each mode. The operation when selecting and transmitting is described.
[0136]
FIG. 24 illustrates the storage contents of the address book data memory DB of the RAM 30 of the electronic notebook 1A. Each address book data includes the name of the first item, the reading of the second item, the telephone number of the third item, the fourth item The paging receiver type of the item, the paging receiver number of the fifth item, the address of the sixth item, the pictogram of the seventh item, and the first to sixth other information of the eighth item are set as one set, and a storage address is attached. In addition, a plurality of sets are stored.
[0137]
In the electronic notebook 1A having the storage contents of the address book data memory DB, when the execution key 13k is operated after selecting the address book mode of the number “6” by operating the cursor key 13l from the mode menu screen, FIG. An index portion of the address book data as shown in FIG. 25 is displayed on the display unit 12.
[0138]
That is, FIG. 25 exemplifies an address book mode index screen displayed on the display unit 12 at this time, and the initials of the address book data currently displayed on the first line belong to the “ka” line. And the index part of the address book mode read from the address book data memory DB in the second and subsequent lines, in this case, the name.
[0139]
The figure shows a state in which the name of “Kazuo Kato” is highlighted on the data cursor DC by operating the cursor key 13l. When the execution key 13k is operated from this state, this is determined and the address book is displayed. The address book data is read from the data memory DB and displayed on the display unit 12.
[0140]
FIG. 26 illustrates the display state on the display unit 12 at this time. The name is displayed on the first line, the pictograph and telephone number of the telephone are displayed on the second line, and the paging receiver type is displayed on the third line. The corresponding reversed characters of “Kan” and the paging receiver number are displayed in the fourth and fifth lines, respectively.
[0141]
By operating the bell number key 13i from this display state, the names are collectively read from the contents stored in the address book data memory DB of the RAM 30 to select the next destination, and displayed as a list on the display unit 12. Since the operation after the transmission destination selection operation at this time until the actual transmission is performed is almost the same as that in the case of transmitting the schedule data, description thereof is omitted.
[0142]
In the electronic notebook 1B that has received such address book data, when this address book data is selected from the display state of the index screen in the incoming message display mode shown in FIG. Display as shown.
[0143]
That is, in FIG. 27, the arrival time “'96 .01.21 12:59 AM” and a pictograph indicating that the incoming data is address book data are displayed at the top row position, and the second through the second rows are displayed. On the fourth line, a part of the address book data sent from the electronic notebook 1A is displayed so as to have a line break corresponding to the item switching code “[]”.
[0144]
The bottom line of the display unit 12 displays a guide message that the incoming message is transferred and stored as it is in the address book data memory DB of the ROM 29 by operating the execution key 13k.
[0145]
When the execution key 13k is operated in accordance with the guide message in a state where the address book mode message data thus received is displayed, the address book mode message data received by the user of the electronic notebook 1B is stored in the RAM 30 of the own device. The confirmation for setting as address book data in the address book data memory DB is made.
[0146]
Therefore, after confirming that it can be stored by comparing the free space of the address book data memory DB with the total amount of the message data, the message data is transferred to the address book data memory DB for storage setting. Instead, the message data in the address book mode is erased from the incoming message data memory RD, the address book mode is automatically transferred from the incoming message display mode to the address book mode, and the address book newly stored in the address book data memory DB. The data is displayed on the display unit 12 as in FIG. 26, and it is confirmed that the message data is registered as address book data.
[0147]
FIG. 28 exemplifies the stored contents of the memo data memory MD of the RAM 30 of the electronic notebook 1A. Each memo data has a memo content of the first item and a pictogram of the second item as one set, and a storage address. A plurality of sets are stored after being attached.
[0148]
In this case, the memo content of the first item is configured such that character strings are enumerated at the time of display by appropriately setting a line feed code.
[0149]
In the electronic notebook 1A having the contents stored in the memo data memory MD, when the execution key 13k is operated after selecting the memo mode of the number “7” by operating the cursor key 13l from the mode menu screen, each memo data Are read from the memo data memory MD and displayed on the display unit 12.
[0150]
However, if the execution key 13k is operated by operating the cursor key 13l while the index portion of arbitrary memo data, for example, the memo data at the storage address “01” in FIG. The memo data is read from the memory MD and displayed on the display unit 12.
[0151]
FIG. 29 exemplifies the display state on the display unit 12 at this time. The memo contents are displayed on the first to third lines, and the pictograms are displayed on the fourth line.
[0152]
By operating the bell number key 13i from this display state, the names are collectively read from the contents stored in the address book data memory DB of the RAM 30 to select the next destination, and displayed as a list on the display unit 12. Since the operation after the transmission destination selection operation at this time until the actual transmission is performed is almost the same as that in the case of transmitting the schedule data and the address book data, description thereof will be omitted.
[0153]
In the electronic notebook 1B that has received such memo data, as shown in FIG. 30, when the memo data is selected from the index screen display state in the incoming message display mode shown in FIG. Display.
[0154]
That is, in FIG. 30, the arrival time “'96 .01.22 07:56 AM” and a pictograph indicating that the incoming data is memo data are displayed at the top row position, and the second to fourth lines are displayed. On the line, a part of the memo data sent from the electronic notebook 1A is displayed so that a line break is made corresponding to the line feed code in the memo contents.
[0155]
The bottom line of the display unit 12 displays a guide message indicating that the incoming message is transferred and stored as it is in the memo data memory MD of the ROM 29 by operating the execution key 13k.
[0156]
When the execution key 13k is operated in accordance with the guide message in a state where the incoming memo mode message data is displayed in this manner, the user of the electronic notebook 1B converts the incoming memo mode message data into the memo of the own RAM 30. This confirms that the data memory MD is set as memo data.
[0157]
Therefore, after confirming that the free space of the memo data memory MD and the total amount of the message data can be stored, the message data is transferred to the memo data memory MD for storage setting. The message data in the memo mode is erased from the incoming message data memory RD, and the memo mode is automatically transferred from the incoming message display mode to the memo mode as it is. Similarly, it is displayed on the display unit 12 to confirm that the message data has been registered as memo data.
[0158]
FIG. 31 illustrates the storage contents of the group talk memory GT in the RAM 30 of the electronic notebook 1A. Each group talk data includes a first item file name, a second item sender, and a second item message. The contents are stored as a set, and a plurality of sets are stored after storage addresses are assigned.
[0159]
In the electronic notebook 1A having the stored contents of the group talk memory GT, when the group key mode of the number “3” is selected by operating the cursor key 13l from the mode menu screen and the execution key 13k is operated, The file name of the first item of the talk data is read from the group talk memory GT as an index part and displayed on the display unit 12.
[0160]
However, when the cursor key 13l is operated and the execution key 13k is operated in a state where the index portion of any group talk data, for example, the group talk data at the storage address “01” in FIG. The group talk data is read from the group talk memory GT and displayed on the display unit 12.
[0161]
FIG. 32 exemplifies the display state on the display unit 12 at this time. The file name of the first item in the first line, the sender name of the second item in the second line, and the third line. Through the fourth line, the message contents of the third item are displayed.
[0162]
By operating the bell number key 13i from this display state, the names are collectively read from the contents stored in the address book data memory DB of the RAM 30 to select the next destination, and displayed as a list on the display unit 12. Since the operation after the transmission destination selection operation at this time until the actual transmission is performed is almost the same as that in the case of transmitting the schedule data and the address book data, description thereof will be omitted.
[0163]
In the electronic notebook 1B that has received such group talk data, when this group talk data is selected from the display state of the index screen in the incoming message display mode shown in FIG. Display as shown.
[0164]
That is, in FIG. 33, the arrival time “'96 .122.09: 58AM” and the pictogram indicating that the incoming data is group talk data are displayed at the top row position, and the second through the second rows. In the fourth line, a part of the group talk data sent from the electronic notebook 1A is displayed with a line feed by the item switching code.
[0165]
The bottom line of the display unit 12 displays a guide message that the incoming message is transferred and stored as it is in the group talk memory GT of the ROM 29 by operating the execution key 13k.
[0166]
When the execution key 13k is operated in accordance with the guide message while the incoming group talk mode message data is displayed, the user of the electronic notebook 1B stores the received group talk mode message data in the RAM 30 of the own device. Confirmation for setting as group talk data in the group talk memory GT is confirmed.
[0167]
Therefore, after confirming that the free space of the group talk memory GT and the total amount of the message data can be stored, the message data is transferred to the group talk memory GT to be stored and set. The message data of the group talk mode is erased from the incoming message data memory RD, the incoming message display mode is automatically switched to the group talk mode, and the group talk data newly stored in the group talk memory GT is stored in the group talk memory GT. Similar to FIG. 32, the message is displayed on the display unit 12 to confirm that the message data is registered as group talk data.
[0168]
FIG. 34 exemplifies storage contents of the ToDo data memory TD of the RAM 30 of the electronic notebook 1A. Each ToDo data includes a check status flag of the first item, a ToDo content of the second item, a pictogram of the third item, And the check time of the fourth item is set as one set, and a plurality of sets are stored after a storage address is given.
[0169]
In the electronic notebook 1A having the contents stored in the ToDo data memory TD, when the ToDo mode of the number “8” is selected by operating the cursor key 13l from the mode menu screen and the execution key 13k is operated, each ToDo data The ToDo content of the second item is read from the ToDo data memory TD as an index portion and displayed on the display unit 12.
[0170]
However, if the execution key 13k is operated in a state where the index portion of any ToDo data, for example, ToDo data at the storage address “01” in FIG. 34 is highlighted by the data cursor DC by operating the cursor key 13l, the ToDo data is displayed. The ToDo data is read from the memory TD and displayed on the display unit 12.
[0171]
FIG. 35 illustrates the display state on the display unit 12 at this time. In the first row, the check symbol corresponding to the check status flag of the first item, the contents of ToDo of the second item, and the pictogram of the third item The check time of the fourth item is displayed in the second line.
[0172]
By operating the bell number key 13i from this display state, the names are collectively read from the contents stored in the address book data memory DB of the RAM 30 to select the next destination, and displayed as a list on the display unit 12. Since the operation until the actual transmission after the selection operation of the transmission destination at this time is almost the same as the case of transmitting the schedule data, address book data, and group talk data, the description thereof is as follows. Omitted.
[0173]
In the electronic notebook 1B that receives such ToDo data, as shown in FIG. 33, when the ToDo data is received or when the ToDo data is selected from the display state of the index screen in the incoming message display mode shown in FIG. Display.
[0174]
That is, in FIG. 36, the arrival time “'96 .01.22 11:58 AM” and a pictograph indicating that the incoming data is ToDo data are displayed at the top row position, and the second through fourth lines are displayed. On the line, the ToDo data sent from the electronic notebook 1A is displayed with a line feed by the item switching code.
[0175]
The bottom line of the display unit 12 displays a guide message indicating that the incoming message is transferred and stored as it is in the ToDo data memory TD of the ROM 29 by operating the execution key 13k.
[0176]
When the execution key 13k is operated according to the guide message in a state where the incoming ToDo mode message data is displayed in this way, the user of the electronic notebook 1B converts the incoming ToDo mode message data into the ToDo in the RAM 30 of the own device. This confirms that the data memory TD is set as ToDo data.
[0177]
Therefore, after confirming that the free space of the ToDo data memory TD and the total amount of the message data can be stored, the message data is transferred to the ToDo data memory TD to be stored and set. The message data in the ToDo mode is erased from the incoming message data memory RD, the incoming message display mode is automatically transferred to the ToDo mode as it is, and the ToDo data newly stored in the ToDo data memory TD is stored as shown in FIG. Similarly, the message is displayed on the display unit 12 to confirm that the message data is registered as ToDo data.
[0178]
In this embodiment, the transmission data is converted into a DTMF signal and emitted from the speaker 18. However, the present invention is not limited to this, and the transmission data is converted into an infrared signal and output from the IR transmission / reception unit 14. The transmission data may be output from the connector 38 and transmitted.
[0179]
In the above embodiment, the present invention is applied to an electronic notebook with a paging signal reception function and a dial tone output function. However, the present invention is not limited to this, and a digital mobile phone, a transceiver, a data communication terminal, etc. Of course, the present invention can be applied to various electronic devices that transmit radio signals.
[0180]
In addition, the present invention can be variously modified and implemented without departing from the scope of the invention.
[0181]
【The invention's effect】
  According to invention of Claim 1,If the received data has an attribute, the storage area for classifying and storing the data based on the attribute can be recognized when the received data is displayed, and the data is set as the attribute. When storing in the storage area of the corresponding storage means, it is stored by a simple instruction operation.be able to.
[0182]
  Claim2According to the invention described,In addition to the effect of the first aspect of the present invention, since it has a function of transmitting attributed data to another information management apparatus, the data is shared with other information management apparatuses.be able to.
[0183]
  Claim3According to the described invention,It is easy to select desired received data to be displayed from the received data stored in the received data storage means. When the selected received data has an attribute, the received data is displayed. A storage area for classifying and storing the data based on the attribute can also be recognized, and when the data is stored in the storage area of the storage unit corresponding to the attribute, the data is stored by a simple instruction operation. be able to.
[0184]
  Claim4According to the described invention,In addition to the effect of the invention described in claim 3, since the data having attributes is also transmitted to other information management apparatuses, the data is shared with other information management apparatuses.be able to.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of an entire system according to an embodiment of the present invention.
FIG. 2 is a front view illustrating an external configuration of the electronic notebook in FIG.
FIG. 3 is a rear view showing an external configuration of the electronic notebook of FIG. 1;
4 is a block diagram showing a circuit configuration of the electronic notebook in FIG. 1. FIG.
5 is a diagram showing a memory area configuration of a ROM 29 in FIG. 4;
6 is a view showing the contents of a paging receiver type table PT in FIG. 5. FIG.
7 is a view showing the contents of a mode code table MT in FIG.
8 is a diagram showing a memory area configuration of a RAM 30 in FIG. 4;
9 is a diagram exemplifying storage contents of the schedule data memory SD of FIG. 8;
FIG. 10 is a flowchart showing processing details of a schedule data transmission operation according to the embodiment;
FIG. 11 is a diagram illustrating a mode menu display screen according to the embodiment;
FIG. 12 is a view showing an example of a display screen during a schedule data transmission operation according to the embodiment;
FIG. 13 is an exemplary view showing a display screen during a schedule data transmission operation according to the embodiment;
FIG. 14 is a view showing an example of a display screen during a transmission operation according to the embodiment;
FIG. 15 is a flowchart showing processing contents of an incoming call operation according to the embodiment;
FIG. 16 is a view showing an example of a schedule data display screen during an incoming call operation according to the embodiment;
FIG. 17 is a flowchart showing processing contents in an incoming message display mode according to the embodiment;
18 is a diagram exemplifying storage contents of an incoming message data memory RD in FIG. 8;
FIG. 19 is an exemplary view showing an index display screen in an incoming message display mode according to the embodiment;
FIG. 20 is a view showing an example of a schedule data display screen in the incoming message display mode according to the embodiment;
FIG. 21 is an exemplary view showing a display screen in an incoming message display mode according to the embodiment;
22 is a diagram exemplifying storage contents of an incoming message data memory RD in FIG. 8;
FIG. 23 is an exemplary view showing an index display screen in an incoming message display mode according to the embodiment;
FIG. 24 is a diagram exemplifying storage contents of the address book data memory DB of FIG. 8;
FIG. 25 is an exemplary view showing a display screen at the time of address book data transmission operation according to the embodiment;
FIG. 26 is an exemplary view showing a display screen at the time of address book data transmission operation according to the embodiment;
FIG. 27 is an exemplary view showing a display screen of address book data in the incoming message display mode according to the embodiment;
FIG. 28 is a diagram exemplifying storage contents of the memo data memory MD of FIG. 8;
FIG. 29 is a view showing an example of a memo data display screen during a memo data transmission operation according to the embodiment;
FIG. 30 is a view showing an example of a memo data display screen in the incoming message display mode according to the embodiment;
FIG. 31 is a diagram exemplifying storage contents of the group talk memory GT of FIG. 8;
FIG. 32 is a view showing an example of a display screen during group talk data transmission operation according to the embodiment;
FIG. 33 is a view showing an example of a group talk data display screen in the incoming message display mode according to the embodiment;
34 is a diagram exemplifying storage contents of the ToDo data memory TD of FIG. 8;
FIG. 35 is a diagram showing an example of a display screen during ToDo data transmission operation according to the embodiment;
FIG. 36 is an exemplary view showing a display screen of ToDo data in the incoming message display mode according to the embodiment;
FIG. 37 is a diagram showing a data format of one frame of RCR / STD-43.
[Explanation of symbols]
1, 1A, 1B ... Electronic notebook
2 ... Telephone terminal
3. Public network
4 ... Center (Central Control Station)
5 ... Transmitting station
12 ... Display section
13a ... Display on key
13b ... Display off key
13c ... Display switching key
13d ... Menu key
13e ... Search key
13f ... Emoji search key
13g ... Function key
13h ... Secret key
13i ... Bell number key
13j ... Release key
13k ... execution key
13l ... Cursor key
13m ... Message key
13n ... Dial key
13o ... Sheet key
14 ... IR transceiver
15 ... Battery cover
16 ... Lock switch
17 ... Backup battery cover
18 ... Speaker
21 ... Antenna
22: Receiver
23. Decoder
24 ... ID-ROM
25 ... Control unit
26 ... Key input section
27. Deinterleave circuit
28 ... Buffer memory
29 ... ROM
30 ... RAM
31 ... Driver
32 ... Transmission buffer
33 ... Interface
34 ... Speaker
35 ... Vibrator
36 ... LED
37. Tone signal generator
38 ... Connector
CP ... Control program
CG ... Character generator
JC ... # JIS code table
PT ... Paging receiver type table
MT: Mode code table
CT: Various transmission code conversion tables
RD: Incoming message data memory
GT ... Group talk memory
SD: Schedule data memory
DB ... Address book data memory
MD: Memo data memory
TD ... ToDo data memory

Claims (4)

A plurality of storage areas, a storage unit for classifying and storing data in said plurality of storage areas in accordance with the attribute of the data,
Display means for displaying data stored in the storage means;
Receiving means for receiving a signal including data and a designation code designating the attribute;
Display control means for displaying the data received together with the designation code by the receiving means on the display means together with a guide message based on the designation code representing a storage area corresponding to the attribute of the data in which the data is to be stored ; ,
Instructing means for instructing whether to store the data displayed together with the guide message on the display means in the storage area indicated by the guide message ;
And storage control means for storing data displayed together with the guide message on the display means in the storage area indicated by the guide message when storage is instructed by the instruction means. Management device. Information management apparatus according to claim 1, characterized by further comprising transmission means for transmitting a signal including a designation code for designating the attributes and data read from said storage means. First storage means having a plurality of storage areas, and classifying and storing data in the plurality of storage areas in accordance with attributes of the data;
Display means for displaying data stored in the storage means;
Receiving means for receiving a signal including data and a designation code designating the attribute;
Second storage means for storing data received by the receiving means and a designation code for designating the attribute;
First display control means for causing the display means to display an index of received data stored in the second storage means;
Means for selecting one of the indexes displayed on the display means by the first display control means;
When one of the indexes is selected by the selection means, the display content of the display means represents received data corresponding to the selected index and a storage area corresponding to the attribute of the data in which the data is to be stored. Second display control means for switching to a guide message based on the specified code;
Instructing means for instructing whether to store the data displayed together with the guide message on the display means in the storage area indicated by the guide message;
Storage control means for storing data displayed together with the guide message on the display means in the storage area indicated by the guide message when storage is instructed by the instruction means;
An information management apparatus comprising: 4. The information management apparatus according to claim 3, further comprising a transmission unit configured to transmit a signal including data read from the storage unit and a designation code designating an attribute thereof.

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