JP3921777B2 - Receiving apparatus and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention provides a receiving device, andprogramIn connection withEspecially for processing when receiving dataRelated.
[0002]
[Prior art]
Conventionally, as one of mobile communication systems, for example, a PHS (Personal Handyphone System) that transmits and receives voice information, a wireless paging system that transfers character information, and the like are known. In such a mobile communication system, with the recent development of mobile communication technology, the number of subscribers is rapidly increasing due to a decrease in usage fees and downsizing of terminals.
[0003]
Under these circumstances, in order to further enhance the service content, for example, in the wireless paging system, an advanced wireless calling system (RCR-STD43 standard) is adopted, and large-capacity data exchange and message display in kanji are displayed. In addition, it is possible to improve the function of the internal clock of the paging receiver based on the time correction information periodically transmitted from the base station.
[0004]
[Problems to be solved by the invention]
However, such a conventional paging system has the following problems.
[0005]
That is, with the spread of mobile phones and PHS, the paging system users are becoming younger, and information and functions required by users for paging services are shifting from business use to personal use. These younger users do not simply ask the pager to improve the functionality of the business tool, but add additional elements or a kind of communication tool for communicating information between friends. We are looking for a playful element from businesses.
[0006]
In response to this, for example, on the information service side, operators regularly transmit fortune-telling information, ski slope information, etc., but always provide new services and new functions of paging receivers. Otherwise, there was a concern that these young users would leave.
[0007]
  The present invention has been made in view of such problems, and the receiving apparatus, andWhen it is determined that the data received by the program satisfies a combination condition specified in advance, a new effect or additional element can be added by performing function setting control or information output.A receiving device, andprogramIs to provide.
[0008]
[Means for Solving the Problems]
  Claim 1And claim 5The described inventionIn a receiving device that receives data, when receiving data, the receiving device includes a determining unit that determines whether or not the received data includes data specified in advance, and includes information specified in advance by the determining unit If it is determined that the data is data, the measuring means for measuring the number of times the data is received, and the function of the receiving apparatus are set and controlled according to the number of times the data is received measured by the measuring means.And a control means.
[0014]
  ContractClaim 2In the receiving device for receiving data, when receiving the data, the receiving device that receives the data includes a determination unit that determines whether the received data is data including information designated in advance; When it is determined that the data includes the specified information, attribute information specifying means for specifying attribute information determined based on the data, and data received by the receiving means are used for specifying the attribute information. Output means for outputting in an output form based on the attribute information specified by the means.
[0015]
  ContractClaim 3In the receiving device for receiving data, when receiving data, the reception date acquisition means for acquiring the reception date of the data and the date acquired by the reception date acquisition means are specified in advance. And a control means for setting and controlling the function of the receiving apparatus in accordance with the result of determination by the determination means.
[0016]
  ContractClaim 4In the receiving device for receiving data, when receiving the data, the receiving device that receives the data includes a determining unit that determines whether or not the received data includes data specified in advance, and the determining unit When it is determined that the data includes the specified information, the reception date and time acquisition unit that acquires the reception date and time of the data, and the function of the reception device according to the reception date and time acquired by the reception date and time acquisition unit And a control means for controlling the setting.
[0063]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0064]
In this embodiment, it is assumed that the paging system conforms to the advanced radio paging system (RCR-STD43 standard).
[0065]
First, FIG. 29 shows a data structure in this advanced wireless calling system.
[0066]
In the figure, reference numeral 50 denotes a cycle configuration of data transmitted in a one-hour cycle. A total of 15 cycles marked with are sent. Reference numeral 51 denotes the data structure of the above-mentioned one cycle. It is composed of a total of 128 frames marked with. That is, one frame is 1.875 seconds, and 32 frames are transmitted per minute.
[0067]
Further, as shown in 52, the one frame is divided into eight data areas according to the data contents, and the synchronization unit 1 (S1) 52A, frame information (FI) 52B, synchronization unit 2 (S2) 52C, It is composed of block information (BI) 52D, address field (AF) 52E, vector field (VF) 52F, message field (MF) 52G, and idle block (IB) 52H.
[0068]
Further, as can be seen with reference to the block configuration shown in 53, the eight data areas are the first three data areas, that is, the synchronization unit 1 (S1) 52A, the frame information (FI) 52B, and the synchronization unit. 2 (S2) 52C, which is transmitted in 115 milliseconds, is transmitted in 115 milliseconds, followed by five data areas: block information (BI) 52D, address field (AF) 52E, vector field (VF) 52F, a message field (MF) 52G, and an idle block (IB) 52H, which are transmitted in 11 blocks (# 0 to # 10) in 1.76 seconds in total as 160 milliseconds, and word data of a plurality of phases It is roughly divided into an interleaved block unit 53B that is interleaved.
[0069]
The synchronization unit 1 (S1) 52A stores 112-bit data transmitted with a binary FSK (Frequency Shift Keying) modulation scheme and a transmission speed of 1600 BPS. The data of the interleave block unit 53B in this frame is shown below. Stored is frame type data that defines which frame type is transmitted among the four types of frame types (modulation scheme and transmission rate).
[0070]
Binary FSK / 1600BPS
Binary FSK / 3200BPS
4-level FSK / 3200 BPS
4-level FSK / 6400BPS
[0071]
The frame information (FI) 52B stores 32-bit data transmitted at a binary FSK modulation scheme and a transmission speed of 1600 BPS. , Cycle No. of the cycle including this frame. In the case of multiple transmissions, frame data defining the number of transmissions is stored.
[0072]
The synchronization unit 2 (S2) 52C stores data for matching the reception timing of the receiver with the data of the interleave block unit 53B transmitted in the frame type defined by the synchronization unit 1 (S1) 52A. .
[0073]
The block information (BI) 52D stores data defining the word number, the number of words, and the like serving as starting points of the address field (AF) 52E and the vector field (VF) 52F in the interleave block unit 53B of this frame. In addition, time correction information (real time data (month, day, year, or second, minute, hour)) for correcting the clock function of the receiver as a time correction service at a predetermined frame interval is used for each cycle frame. No. This block information (BI) 52D of 0 is stored.
[0074]
Address field (AF) 52E stores 32-bit or 64-bit address data of the receiver of the call destination.
[0075]
The vector field (VF) 52F is paired with the address field (AF) 52E, and defines the word number and the number of words that are the starting point of the message field (MF) 52G, the length and data type of the message data, etc. Stored vector data.
[0076]
The message field (MF) 52G stores message data in the data format defined by the vector field (VF) 52F.
[0077]
The idle block (IB) 52H is an unused block, and a bit pattern continuous with “0” or “1” is inserted when an empty space is generated in this frame.
[0078]
In addition, the data structure shown in FIG. 29 is interleaved and transmitted in parallel in time series in four independent phases a, b, c, and d, respectively. In other words, if the advanced radio paging method is adopted, a paging service company can multiplex and transmit one frame of data with different contents at a time by using these four phases individually or by using two to four. It becomes possible.
[0079]
A case where the present invention is applied to the paging receiver in the advanced wireless paging paging system having the above data configuration will be described below with reference to FIGS.
[0080]
(First embodiment)
First, the configuration will be described.
FIG. 1 is a block diagram illustrating a circuit configuration of the pager 1 according to the first embodiment.
[0081]
In the figure, a pager 1 includes an antenna 2, a receiving unit 3, a decoder 4, a buffer memory 5, a deinterleave circuit 6, a CPU 7, an ID-ROM 8, a ROM 9, a RAM 10, a display unit 11, an EL backlight 12, a driver 13, and key inputs. The unit 14 (ad), the driver 15, the speaker 16, the LED 17, and the vibrator 18 are configured, and each unit is connected by a bus 19. Reference numeral 20 denotes a power battery.
[0082]
The antenna 2 receives a radio signal that is frequency-modulated and transmitted in a 280 [MHz] band from a base station (not shown) of a pager service company, and outputs the radio signal to the receiving unit 3.
[0083]
The receiving unit 3 is connected to the decoder 4 and intermittently drives based on the control signal from the decoder 4 to demodulate the radio signals of the above-described four types of frame types (modulation scheme and transmission rate) input from the antenna 2. After the detection, the received data is output to the decoder 4.
[0084]
The decoder 4 determines the frame type of the received data based on the frame type data stored in the synchronization unit 1 (S1) 52A, generates a control signal corresponding to the determination result, outputs the control signal to the receiving unit 3, and receives The unit 3 is driven and controlled. The decoder 4 converts the demodulated and detected self-frame serial data (received data) supplied from the receiving unit 3 into 8-bit parallel data and sequentially outputs the converted data to the buffer memory 5.
[0085]
The buffer memory 5 temporarily stores received data for one frame (for the interleave block unit 53B) converted into parallel data, and has a memory area where interleave recovery and BCH correction processing are performed.
[0086]
The deinterleaving circuit 6 separates each frame of parallel data sequentially output from the buffer memory 5 according to the frame type data stored in the synchronization unit 1 (S1) 52A, and restores the data (interleave recovery). : Reorder).
[0087]
The deinterleave circuit 6 performs interleave recovery only for 3200 BPS (binary / quaternary) 16-bit and 6400 BPS (quaternary) 32-bit received data interleaved from a base station (not shown). That is, in the case of 1600 BPS (binary), it is not necessary to perform deinterleaving (rearrangement) at the stage of conversion to parallel data in the decoder 4, so interleave recovery is not performed.
[0088]
A CPU (Central Processing Unit) 7 is a central processing unit that controls each part of the pager 1 according to various control programs stored in the ROM 9, and measures the current time (year, month, day, hour, minute, second). An internal clock 7a is provided. Specifically, the CPU 7 performs an initial process when the main switch 14a is slid to turn on the power, and then performs an incoming call control process (see FIG. 11) described later.
[0089]
In this incoming call control process, the CPU 7 performs time correction information (real time data), received data addressed to the pager 1, contents of various internal process data of the pager 1, and program operation stored in the operating condition memory 9m of the ROM 9. Each “operation condition” item in the condition table (see FIG. 6) is collated, and if there is an “operation condition” item that matches the condition, the subprogram name corresponding to this “operation condition” item is acquired, After the related flag value is rewritten in the setting content management memory 10a (see FIG. 8) of the RAM 10, this subprogram is read out from the various program memories 9g, 9h, 9i of the ROM 9 and started, and is not set as a normal operation. Display control, notification control, function expansion control, and the like are performed.
[0090]
In addition, after the power is turned on, the CPU 7 performs a key input control process (see FIG. 17), which will be described later, by a pressing operation (cancellation instruction) of the main switch 14a and a pressing operation of the memory key 14b, the select key 14c, and the set key 14d. Execute.
[0091]
In this key input control process, the CPU 7 stores, in response to the key input, the press operation information of a plurality of keys pressed within a predetermined period and various internal process data of the pager 1 stored in the key input memory 10e of the RAM 10. Is compared with each “operation condition” item of the program operation condition table (see FIG. 16) stored in the operation condition memory 9m of the ROM 9, and if there is an “operation condition” item that matches the condition, As in the case of the incoming call control process, the subprogram corresponding to the “operation condition” item is read from the ROM 9 and activated, and display control, notification control, function expansion control, etc. that are not set as normal operation are performed. Do.
[0092]
Further, when receiving data, the CPU 7 sequentially outputs the 8-bit parallel data stored in the buffer memory 5 to the deinterleave circuit 6 to perform restoration processing (interleave recovery).
[0093]
As shown in FIG. 2, an ID-ROM (Identification code ROM) 8 has four types of incoming addresses (1st address, 2nd address (for dual call), 3rd address (for serial number service)) set in the pager 1, 4th address (for information service)), a combination of 32-bit address data (#A, #B) set in the pager 1 and vector type (3-bit information of v2, v1, v0) is stored Memory.
[0094]
When the vector type is “011 (standard numeric vector)”, “100 (special format numeric vector)”, or “111 (numbered numeric vector)”, it corresponds only to the case where the message is numeric or free word. Therefore, the paging type is a numeric pager (NP). When the vector data is “110 (hexadecimal / binary vector)”, kanji can be handled as a message, and the paging type is information pager (IP).
[0095]
The ROM (Read Only Memory) 9 is composed of an EEPROM (Electrical Erasable Programmable ROM), and as shown in FIG. 3, a program memory (PM) 9a, a character generator memory (CG) 9b, a dial data conversion table memory (DT) 9c. , Free word conversion matrix memory (FM) 9d, shift JIS code conversion table memory (ST) 9e, fixed phrase conversion table memory (TT) 9f, display control program memory (DC) 9g, notification control program memory (FC) 9h, A function expansion control program memory (KC) 9i, an image data memory (GC) 9j, a melody data memory (LC) 9k, and an operation condition memory (CM) 9m are included.
[0096]
The program memory (PM) 9a is a memory area that stores various control programs for controlling each part of the pager 1, and programs such as reception control processing (see FIG. 11) and key input control processing (see FIG. 17) described later. is there.
[0097]
The character generator memory (CG) 9b is a memory area for storing character data such as kana, alphanumeric characters, kanji and symbols displayed on the display unit 11.
[0098]
The dial data conversion table memory (DT) 9c shows the message data (bit data) stored in the message field (MF) 52G of the received data when the incoming address is the 1st to 3rd address, as shown in FIG. Thus, a memory area for storing a dial data conversion table for converting into dial data corresponding to 4 bits (B3, B2, B1, B0).
[0099]
The free word conversion matrix memory (FM) 9d uses the free word start code "-" (dial input "* 2 * 2") and subsequent messages for message data converted into dial data by the dial data conversion table. This is a memory area for storing a free word conversion matrix for converting data (dial data) into free words corresponding to two digits or three digits as shown in FIG.
[0100]
In the free word conversion matrix shown in FIG. 5, there are a total of 100 free words that can be converted (usable) when the power is turned on for the first time in the initial setting area 91 corresponding to the dial inputs “11” to “00”. That is, a total of 40 free words in the extended area 92 corresponding to the dial inputs “1 * 2” to “0 * 0” cannot be used when the power is turned on for the first time (the existence of free words in this extended area 92). Is not informed by the user).
[0101]
The extension area 92 is composed of a total of five sub-areas 92a to 92e each consisting of eight free words, and each sub-area 92a to 92e is protected from use. When a predetermined condition is satisfied in an incoming call control process (see FIG. 11) or a key input control process (see FIG. 17) described later, this protection is performed by the setting contents management memory (MCM) 10a (described later) in each of the sub areas 92a to 92e. It is released every time, and the free word of the released part can be used thereafter.
[0102]
The shift JIS code conversion table memory (ST) 9e converts the message data (bit data) stored in the message field (MF) 52G of the received data into a shift JIS code when the incoming address is a 4th address. This is a memory area for storing a shift JIS code conversion table (not shown).
[0103]
The fixed phrase conversion table memory (TT) 9f has two digits after the “UU” (dial input “* 4 * 4”) which is a fixed phrase start code for the message data converted into the dial data by the dial data conversion table. This is a memory area for storing a fixed phrase conversion table (not shown) for converting the message data (dial data) into a fixed phrase such as “Good morning” and “Contact me”.
[0104]
The display control program memory (DC) 9g, the notification control program memory (FC) 9h, and the function expansion control program memory (KC) 9i are an incoming call control process (see FIG. 11) and a key input control process (see FIG. 17) described later. , Display control such as various image display and automatic illumination display executed as its subprogram, notification control such as melody alarm notification, or use in a free word conversion matrix (see FIG. 5) according to establishment of a predetermined condition This is a memory area for storing each program for controlling function expansion such as expanding the possible area.
[0105]
The image data memory (GC) 9j stores various image data displayed on the display unit 11 by the subprograms that control the display control and function expansion control stored in the display control program memory 9g and the function expansion control program memory 9i. This is the memory area to store.
[0106]
The melody data memory (LC) 9k is a memory area for storing various melody data output from the speaker 16 by the subprograms for controlling the notification stored in the notification control program memory 9h.
[0107]
The operating condition memory (CM) 9m is used for display control, notification control, or function expansion control activated as a subprogram in incoming call control processing (see FIG. 11) and key input control processing (see FIG. 17) described later. This is a memory area for storing a program operation condition table (see FIGS. 6 and 16) in which a program name of a program and an activation condition (operation condition) of each program are stored in association with each other.
[0108]
In the program operation condition table shown in FIG. 1, the received message data (dial data) includes a free word start code “-” (dial input “* 2 * 2”), “79” (telephone mark), and a free word end code “_” (space). ) ”(Dial input“ * 8 ”) are included in order, and if the same message data has been received five times or more, the operation condition is satisfied, and“ display control program I ”is This means that display control of received messages is performed based on this subprogram.
[0109]
In addition, the storage address No. 4, when the address data stored in the address field (AF) 52E of the received data is “#A” and the vector data stored in the vector field (VF) 52F is “111”, that is, the incoming call When the address is a 3rd address and the message number received by the message sequence number service is “10”, the operating condition is satisfied, and the “function expansion control program II” is started. This means that the function expansion control of the pager 1 is performed.
[0110]
As shown in FIG. 7, a RAM (Random Access Memory) 10 includes a setting content management memory (MCM) 10a, a message memory (MM) 10b, an address book memory (AM) 10c, an operation condition establishment count memory (DM) 10d, And a key input memory (IM) 10e.
[0111]
As shown in FIG. 8, the setting content management memory (MCM) 10a is stored in the upper limit number of received data and address book data in the message memory 10b and the address book memory 10c of the RAM 10, and is stored in the free word conversion matrix memory 9d of the ROM 9. A usable area in the free word conversion matrix (see FIG. 5), a display control program that is actually used for displaying a message from among the display control subprograms stored in the display control program memory 9g of the ROM 9, From among the notification control subprograms stored in the notification control program memory 9h, the notification control program that is actually used for notification and the function expansion control subprograms stored in the function expansion control program memory 9i. Function expansion control program that is actually used, A memory area managed by the flag.
[0112]
Further, the setting content management memory 10a has a memory area for storing the number of received data and address book data currently stored in the message memory 10b and the address book memory 10c of the RAM 10.
[0113]
In the setting content management memory 10a shown in FIG. 8, the value of the flag indicates the initial state when the power is turned on for the first time. That is, in the initial state, the message memory 10b and the address book memory 10c of the RAM 10 can store 15 and 12 received data and address book data, respectively, as will be described later. In the initial state, the free word conversion matrix (see FIG. 5) can use a total of 100 initial setting areas 91 corresponding to the dial inputs “11” to “00”. In this case, the “normal display control program” is activated to perform normal display control, and at the time of notification, the “normal notification control program” is activated to perform normal notification control. In the initial state, none of the “function expansion control programs” is activated.
[0114]
The values of the flags in the setting content management memory 10a are the operating conditions shown in the program operating condition table (see FIG. 6) in the incoming call control process (see FIG. 11) and the key input control process (see FIG. 17) described later. When it is satisfied, it is rewritten by the CPU 7.
[0115]
As shown in FIG. 9, the message memory (MM) 10b receives the addressed pager 1 including incoming address data, vector data, message data, incoming date and time, and additional information (such as message number data in a message sequence number service). It has a memory area that can store a predetermined number of data in ascending order of management numbers.
[0116]
In the message memory 10 b shown in FIG. 9, the upper limit number of received data stored at the first power-on is 15 in total in the initial setting area 101. In other words, a total of ten storage areas shown in the expansion area 102 cannot be used when the power is turned on for the first time (and the existence of the expansion area 102 is not informed to the user). This extended area 102 is protected to prohibit use, and this protection is canceled when a predetermined condition is satisfied in an incoming control process (see FIG. 11) or a key input control process (see FIG. 17) described later. The upper limit number of received data is 25.
[0117]
The storage flag is set from “0” to “1” when the received data is stored. Therefore, the number of received data stored in the message memory 10b can be determined from the set number of storage flags (the number of “1”).
[0118]
As shown in FIG. 10, the address book memory (AM) 10c is a memory area that can store a predetermined number of address book data consisting of name, gender, telephone number (call number), address, and birthday in ascending order of management numbers. Have The gender data stored in the gender column is “1” for women and “0” for men.
[0119]
In addition, in the address book memory 10c shown in FIG. 10, the upper limit number of address book data when the power is turned on for the first time is a total of 12 shown in the initial setting area 111. That is, the total 18 storage areas shown in the expansion area 112 cannot be used when the power is turned on for the first time (and the existence of the expansion area 112 is not informed to the user). This extended area 112 is protected to prohibit use, and this protection is canceled when a predetermined condition is satisfied in an incoming call control process (see FIG. 11) or a key input control process (see FIG. 17) described later. Thereafter, the upper limit number of address book data is 30. The storage flag is set from “0” to “1” when the address book data is stored. Therefore, the number of address book data stored in the address book memory 10c can be determined from the number of sets of the storage flag (the number of “1”).
[0120]
The operation condition satisfaction count memory (DM) 10d has a memory area for storing the number of times of establishment of the operation condition for each operation condition (storage address No.) shown in the program operation condition table (see FIG. 6). Have. The operation condition satisfaction count memory 10d has a memory area for storing the total number of incoming data of the reception data addressed to the pager 1.
[0121]
The key input memory (IM) 10e stores information on the pressing operation of each key (pressed key, pressing time, presence / absence of simultaneously pressed key, etc.) according to the pressing operation of each key provided in the pager 1. It has a memory area for storing a plurality.
[0122]
The display unit 11 is configured by a dot matrix type liquid crystal display panel, for example, and displays a received message, an animation (moving image), or the like based on display data from the driver 13. The EL (Elector Luminescence) backlight 12 is a light source that emits light based on a drive signal from the driver 13 and illuminates the liquid crystal panel of the display unit 11 from the back surface. The driver 13 is a circuit controlled by the CPU 7 to drive and control the display unit 11 and the EL backlight 12.
[0123]
The key input unit 14 is connected to, for example, the positive electrode of the power supply battery 20 whose negative electrode is grounded, and is stored in the main switch 14a for detecting the ON / OFF switching of the power supply and the reset of the incoming call notification, and the message memory (MM) 10b. A memory key 14b for detecting a message reading operation based on the message data being received, a select key 14c for detecting a mode switching operation such as an incoming call waiting mode and a notification mode setting mode, and a select key for detecting determination of various settings in each mode. 14d, and outputs various operation signals to the CPU 7 according to the input operation of each key.
[0124]
The driver 15 is a circuit that is controlled by the CPU 7 and drives and controls the speaker 16, the LED 17, and the vibrator 18. The speaker 16 sounds a ringing tone when receiving an incoming call based on a drive signal from the driver 15 or a predetermined melody sound or the like according to a message display. An LED (Light Emitting Diode) 17 illuminates or flashes when receiving an incoming call based on a drive signal from the driver 15. The vibrator 18 generates a vibration when receiving an incoming call based on a drive signal from the driver 15.
[0125]
The above is the configuration of the pager 1 in the first embodiment.
[0126]
Next, the operation will be described.
First, the incoming call control process executed by the CPU 7 of the pager 1 will be described based on the flowchart shown in FIG. 11 and the display examples shown in FIGS.
[0127]
In the CPU 7, when the main switch 14a is operated and the power is turned on, initial processing is performed. In this initial processing, for example, referring to the value of each flag stored in the setting content management memory 10a of the RAM 10, the data storage possible area of the message memory 10b and the address book memory 10c is set, or the free word of the ROM 9 is set. This includes processing such as setting an available area of the free word conversion matrix (see FIG. 5) stored in the conversion matrix memory 9d. After this initial processing, the CPU 7 reads a program related to the incoming call control processing stored in the program memory 9a of the ROM 9 and starts the processing.
[0128]
First, the CPU 7 continuously receives data until the self-frame is detected. When the CPU 7 detects the self-frame, thereafter, the CPU 7 is involved in data reception so that only the frame including the self-frame and the time correction information is intermittently received. Each part of the pager 1 is controlled.
[0129]
By the way, this time correction information (real time data (month, day, year, second, minute, hour)) is basically the frame number of each cycle. It is stored in the block information (BI) 52D of 0, and is received once every 4 minutes. The real-time data that can be acquired by one reception is either “month, day, year” data or “second, minute, hour” data.
[0130]
Then, the CPU 7 determines whether or not the time correction information has been received (step S1), and when the time correction information is received, after acquiring the real time data (step S2), the acquired real time data, Various internal processing data of the pager 1 is collated with each “operation condition” item of the program operation condition table (see FIG. 6) stored in the operation condition memory 9m of the ROM 9 (step S3), and the conditions match. It is determined whether or not there is an “operation condition” item (step S4). When the CPU 7 determines that there is no “operation condition” item that matches the condition, the CPU 7 returns to step S1.
[0131]
On the other hand, when the CPU 7 determines that there is an “operation condition” item that matches the condition, the corresponding operation condition storage address No. Then, the program name of the subprogram corresponding to the “operation condition” item that matches the condition is acquired in the program operation condition table.
[0132]
Then, the CPU 7 rewrites the value of the flag related to each item of “display control program memory”, “notification control program memory”, and “function expansion control program memory” in the setting content management memory 10a (see FIG. 8) of the RAM 10. Thereafter, the subprogram having the acquired program name is read from the display control program memory 9g, the notification control program memory 9h, or the function expansion control program memory 9i of the ROM 9 and activated (step S5).
[0133]
Then, the CPU 7 executes various control processes such as display control, notification control, or function expansion control that are not set as normal operations based on the activated subprogram (step S6), and ends the subprogram. (Step S7), the process returns to Step S1.
[0134]
An example of the control process executed when the operation condition is satisfied in response to the reception of the time correction information will be described below.
[0135]
For example, the “hour” data of the time correction information (real time data) received by the pager 1 is “8”, and the total number of address book data stored in the address book memory 10 c of the RAM 10 is “8”. The storage address No. in the program operation condition table (see FIG. 6). 5 is established, and the CPU 7 activates the “function expansion control program III”.
[0136]
In this “function expansion control program III”, the CPU 7 refers to the setting content management memory 10a (see FIG. 8) of the RAM 10 and when the upper limit number of address book data stored in the address book memory 10c is “12”, The storage upper limit number is set to be expanded to “30”, and that effect is displayed on the display unit 11.
[0137]
On the other hand, if the CPU 7 determines that the time correction information has not been received in step S1, the CPU 7 then determines whether or not a self frame has been detected (step S8), and if the self frame has not been detected. The process returns to step S1.
[0138]
If the CPU 7 determines that the self frame has been detected, the CPU 7 sequentially receives the data of the self frame (including demodulation, detection, parallel data conversion, interleave recovery, and error correction processing) (step S9). The combination of the address data stored in the address field (AF) 52E and the vector data stored in the vector field (VF) 52F is the own incoming address (1st to 4th) stored in the ID-ROM 8. It is determined whether or not it matches any one (step S10). If the CPU 7 determines that the incoming address of the received data does not match any of its own incoming addresses, the CPU 7 stops data reception and returns to step S1.
[0139]
If the CPU 7 determines that the incoming address of the received data matches any of its own incoming addresses, the CPU 7 continues to receive the data of the own frame and stores the message data stored in the message field (MF) 52G. After completing the reception process, the reception data addressed to the pager 1 including the incoming address, vector, message data, incoming date and time, and additional information is stored in the message memory 10b (see FIG. 9) of the RAM 10 (step S11). Further, the CPU 7 updates the value of the total number of incoming times data of the received data in the operation condition establishment count memory 10d of the RAM 10.
[0140]
Then, the CPU 7 obtains the received data, the contents of various internal processing data of the pager 1, and each “operation condition” item of the program operation condition table (see FIG. 6) stored in the operation condition memory 9m of the ROM 9. Collation is performed (step S12), and it is determined whether or not there is an “operation condition” item that matches the condition (step S13).
[0141]
If the CPU 7 determines that there is no “operating condition” item that matches the condition, the CPU 7 refers to the “display control program memory” and “notification control program memory” items in the setting content management memory 10a of the RAM 10 and sets the flag. The normal display control program and the normal notification control program in which the value of “1” is set to “1” are read from the display control program memory 9g and the notification control program memory 9h of the ROM 9 and activated, and the received message data After performing display control and incoming call notification control (step S14), the process returns to step S1.
[0142]
If the CPU 7 determines that there is an “operating condition” item that matches the condition in step S13, the corresponding operating condition storage address No. in the operating condition establishment count memory 10d of the RAM 10 is determined. After updating the value of the number-of-establishment times data, the processes in steps S5 to S7 described above are executed, and the sub-program corresponding to the “operation condition” item whose condition is matched in the program operation condition table is read and activated. Based on the activated subprogram, various control processes such as display control, notification control, and function expansion control that are not set as normal operations are executed, and then the process returns to step S1.
[0143]
Specific examples of various control processes executed when the operation condition is satisfied in response to the data reception will be described below.
[0144]
For example, when pager 1 receives “* 2 * 279 * 80123-456-7890” as dial data as received data (message data) (actually, it is not dial data but bit data corresponding to this dial data. In the message display process, the CPU 7 in the message display processing, in order from the head of the message data, “* 2 * 2” is a free word start code, “79” is a “phone mark” (free word), “* 8 "" Is analyzed as a free word end code. If the message data having such a configuration has been received five times or more, the operation condition storage address No. is stored in the operation condition establishment count memory 10d of the RAM 10. Since the value of the establishment number data equal to or greater than “5” is stored in association with No. 1, the storage address No. is stored in the program operation condition table (see FIG. 6). 1 is detected and the “display control program I” is started.
[0145]
In this “display control program I”, the CPU 7 displays the message content on the display unit 11 based on the received message data as shown in FIG. 12A, and the image data shown in FIG. The data is read from the image data memory 9j of the ROM 9 and displayed on the display unit 11. The message content display shown in FIG. 12A and the image data display shown in FIG. 12B are alternately performed at predetermined time intervals.
[0146]
Further, when the pager 1 receives “* 2 * 2157444044513881636 * 8” as dialed data as received data (message data), the CPU 7 starts from the beginning of the message data, “* 2 * 2” is a free word start code, “ 157444044513 "is analyzed as" congratulations "(free word) and" 88 "is blank. Therefore, in the program operation condition table, the storage address No. 2 is detected and the “display control program II” is started.
[0147]
In this “display control program II”, the CPU 7 displays the message content on the display unit 11 based on the received message data as shown in FIG. The three pieces of image data shown in (d) are read from the image data memory 9j and continuously displayed on the display unit 11 to display a moving image (animation display). This series of moving image display is repeated after the message content is displayed.
[0148]
When the pager 1 receives “00-7777-9999” as dial data as received data (message data), the CPU 7 uses the “777” included in the message data to store the storage address No. in the program operation condition table. 3 is detected and the “function expansion control program I” is started.
[0149]
In this “function expansion control program I”, the CPU 7 displays the message content on the display unit 11 based on the received message data as shown in FIG. Slot game).
[0150]
That is, the CPU 7 displays an image of the slot machine on the display unit 11 as shown in FIG. 14B, and displays a plurality of symbols such as numbers, marks, and pictures in the three display windows 11a, 11b, and 11c. Variable display is performed in a predetermined order, and the symbols of the display windows 11a, 11b, and 11c are stopped in response to the pressing operation of the memory key 14b, the select key 14c, and the set key 14d.
[0151]
In this slot game, when the stop symbol pattern on the display unit 11 is a winning symbol such as “777” as shown in FIG. 14C, for example, the CPU 7 can use the free word conversion matrix shown below. Execute area expansion processing.
[0152]
In other words, the CPU 7 manages “free” in the setting content management memory 10a (see FIG. 8) of the RAM 10 that manages the protection release status of the extended area 92 consisting of a total of five sub areas 92a to 92e in the free word conversion matrix (see FIG. 5). Refer to the value of each flag in the “Word Conversion Matrix” item, and set the flag value of the item corresponding to any one of the sub-areas that have not been expanded from “0” to “1” to cancel protection. As shown in FIG. 14 (d), a message indicating that the free word of the released part can be used is displayed on the display unit 11.
[0153]
Note that image data necessary for this variable display game (slot game) is stored in the image data memory 9j of the ROM 9, and is normally set not to be displayed. The variable display game is not limited to the slot game, and may be a game that is established by changing the display, such as a roulette game or a janken game.
[0154]
When the CPU 7 detects that the received data (message data) includes dial data “_OOXXX” (space + 4-digit numerical data), the storage address No. is stored in the program operation condition table. 6 or the storage address No. The establishment of the operation condition No. 8 is detected.
[0155]
First, the storage address No. The case of 6 will be described. The CPU 7 stores the storage address no. When the establishment of the operation condition 6 is detected, the “display control program III” is started.
[0156]
In this “display control program III”, the CPU 7 displays the message content on the display unit 11 based on the received message data as shown in FIG. 15A, and then displays the dial data “_OOXX”. The data is determined to be the last four digits of the telephone number, and the address book data of the corresponding person having the telephone number is retrieved from the address book memory 10c of the RAM 10.
[0157]
If there is a corresponding person, the birthday data is acquired from the address book data, and this birthday data is compared with the date data obtained from the internal clock 7a. And the moving image display as shown in FIGS. 15B, 15C, and 15D based on the image data read from the image data memory 9j and the “notification control program I” is started. Then, the melody data related to the birthday is read from the melody data memory 9k and the melody sound is output from the speaker 16.
[0158]
On the other hand, the CPU 7 stores the storage address no. When the establishment of the operation condition No. 8 is detected, the “display control program V” is started.
[0159]
In this “display control program V”, the CPU 7 determines that the dial data “_XXX” is the last four digits of the telephone number, and the address of the person having the telephone number from the address book memory 10 c of the RAM 10. Search recording data. And if there is a corresponding person, gender data is acquired from the address book data, and it is determined whether or not the value of this gender data is “1” (female). Message display based on data is performed in a round font.
[0160]
If the CPU 7 detects that the received data (message data) includes “kinkyu” as a free word or “emergency” as a shift JIS, the storage address No. is stored in the program operation condition table. 7 is detected, first, the “notification control program II” is started.
[0161]
In this “notification control program II”, the CPU 7 performs an incoming call notification with an emergency notification sound and activates the “display control program IV” so that the message data read operation is performed between PM 6: 00 and AM 2:00. If this is done, the EL backlight 12 is turned on when this message is displayed.
[0162]
Further, when the address data stored in the received data address field (AF) 52E is “#A” or “#B”, that is, the received data addressed to the pager 1, and the operation of the RAM 10 When the value of the total incoming call count data of the received data stored in the condition satisfaction count memory 10d is a preset predetermined number (for example, 50 times, 100 times, 200 times, etc.), the CPU 7 Storage address No. 9 is satisfied and the “function expansion control program I ′” is activated.
[0163]
In this “function expansion control program I ′”, the CPU 7 displays the message content on the display unit 11 based on the received message data, and then does not play the variable display game, and the free word conversion matrix (see FIG. 5). The extension process of the usable area is executed. That is, the CPU 7 refers to the value of each flag of the “free word conversion matrix” item in the setting content management memory 10a of the RAM 10, and determines the flag value of the item corresponding to any one of the sub-regions that has not been expanded yet. The protection is canceled by setting from “0” to “1”, and a message to the effect that the free word of the canceled part is usable is displayed on the display unit 11.
[0164]
The above is the operation procedure of the incoming call control process executed by the CPU 7.
[0165]
Next, key input control processing executed by the CPU 7 of the pager 1 will be described based on the program operation condition table shown in FIG. 16 and the flowchart shown in FIG.
[0166]
FIG. 16 is a diagram (No. 2) showing the program operation condition table stored in the operation condition memory 9m of the ROM 9. The program operation condition table shown in the figure includes the program name of each program for display control, notification control, or function expansion control that is activated as its subprogram in the key input control process, and the activation condition (operation condition) of each program. ) Are stored in association with each other.
[0167]
In the program operation condition table shown in FIG. 11, the operation condition is established when the memory key 14b is pressed once, the select key 14c is pressed twice, and the set key 14d is pressed five times continuously within a predetermined period, and the “function expansion control program I” is activated. This means that the function expansion control of the pager 1 is performed based on this subprogram.
[0168]
In this program operation condition table, a predetermined combination of pressing operations of each key provided in the pager 1 or that the combination and internal processing data of the pager 1 satisfy a predetermined condition is set as an operation condition of the subprogram is doing.
[0169]
Next, FIG. 17 is a flowchart of a key input control process executed by the CPU 7. In the CPU 7, after the power is turned on, the key input control processing stored in the program memory 9a of the ROM 9 is performed by pressing the main switch 14a (instruction for canceling) or pressing the memory key 14b, the select key 14c, and the set key 14d. The program regarding is read and the processing is started.
[0170]
First, the CPU 7 analyzes the key input of the key that has been pressed (step S21), and inputs the pressing operation information (the key that has been pressed, the pressing time, the presence / absence of the key that has been pressed simultaneously, etc.) Store in the memory 10e (step S21).
[0171]
Next, the CPU 7 acquires the press operation information of a plurality of keys pressed within a predetermined period, stored in the key input memory 10e, and the press operation information of the plurality of keys and various internal processes of the pager 1 The content of the data is collated with each “operation condition” item of the program operation condition table (see FIG. 16) stored in the operation condition memory 9m of the ROM 9 (step S23). It is determined whether or not there is (step S24). If the CPU 7 determines that there is no “operation condition” item that matches the condition, the CPU 7 performs normal key input processing based on the pressed key (step S25), and then returns to step S1.
[0172]
On the other hand, when the CPU 7 determines that there is an “operation condition” item that matches the condition, the corresponding operation condition storage address No. After updating the value of the number of times of establishment, the same as in steps S5 to S7 of the incoming call control process (see FIG. 11), the sub corresponding to the “operation condition” item whose condition is matched in the program operation condition table The program is read and activated (step S26), and various control processes such as display control, notification control, or function expansion control that are not set as normal operations are executed based on the activated subprogram (step S27). In response to the end of the subprogram (step S28), the process returns to step S21. Note that the key input control process ends when there is no key input for a predetermined time or when an interrupt command is input.
[0173]
Specific examples of various control processes executed when an operation condition is established according to this key input will be described below.
[0174]
For example, when the memory key 14b is pressed once, the select key 14c is pressed twice, and the set key 14d is pressed five times continuously within a predetermined period, or when the select key 14c is pressed (one time). When the time data (hour, minute, second) of the same number continues three or more like 3:11:11, the CPU 7 stores the storage address No. in the program operation condition table (see FIG. 16). 11 and storage address no. The establishment of the 12 operation conditions is detected, the above-mentioned “function expansion control program I” is activated, and the usable area of the free word conversion matrix is expanded and set according to the stop symbol form of the variable display game.
[0175]
When the timing at which the select key 14c is pressed (once) coincides with the reception timing of the time correction information (received at a rate of once every 4 minutes), the “function expansion control program I” described above. It is good also as an operating condition which starts.
[0176]
Further, when the set key 14d is pressed twice continuously within a predetermined period and the number of message data stored in the message memory 10b of the RAM 10 is "10", the CPU 7 stores it in the program operation condition table. Address No. 13 is detected, the “function expansion control program II ′” is activated, and the upper limit number of message data stored in the message memory 10b is “10” with reference to the setting content management memory 10a (see FIG. 8). In the case of “book”, the storage upper limit number is set to be expanded to “25”, and this is displayed on the display unit 11.
[0177]
The operation procedure of the key input control process executed by the CPU 7 has been described above.
[0178]
As described above, according to the pager 1 in the first embodiment, the CPU 7 (detection means and control means) includes the antenna 2, the reception unit 3, the decoder 4, the buffer memory 5, the deinterleave circuit 6, Predetermined address data, vector data, message data, time correction information, etc. stored in the program operating condition table of the operating condition memory 9m from the received data received by the data receiving unit (receiving means) comprising the ID-ROM 8 or the like When one of the data is detected, a subprogram corresponding to the data is read from the ROM 9 and activated, and display control, notification control, or function expansion control that is not set as a normal operation based on the subprogram is executed. Control processing (such as invalid during normal operation preset in the pager 1) And specific functions are) carried out.
[0179]
Therefore, if predetermined data is included in the received data, the CPU 7 can operate a control process which is invalid during normal operation preset in the pager 1 in response to data reception. .
[0180]
At this time, the CPU 7 receives message data, free word start code, shift JIS code, etc. (control data for controlling the display mode of the message), time correction information (periodically received) when receiving data. Control data for controlling the pager 1) and address data (identification data individually set for the pager 1) to detect predetermined data included in the pager 1. It is possible to operate a control process (specific function) that is invalid during operation.
[0181]
Further, according to the pager 1 in the first embodiment, the CPU 7 (detection means and control means) includes the antenna 2, the receiving unit 3, the decoder 4, the buffer memory 5, the deinterleave circuit 6, the ID-ROM 8, and the like. A plurality of operating conditions consisting of address data, vector data, message data, time correction information, etc., stored in the program operating condition table of the operating condition memory 9m from the received data string received by the data receiving unit (receiving means) When it is detected that one of the operation condition items among the items (predetermined combinations of data) is established, the subprogram corresponding to the operation condition item is read from the ROM 9 and activated, and the normal operation is performed based on this subprogram. Control such as display control, notification control, or function expansion control that is not set as Sense (normal operation that is preset in the pager 1 are certain features that are disabled) performs.
[0182]
Therefore, if the received data includes a predetermined combination of data, the CPU 7 can operate a control process that is invalid during normal operation set in advance in the pager 1 in response to the data reception. .
[0183]
At this time, message data, free word start code, shift JIS code, etc. (control data for controlling the display mode of the message), time correction information (control data for controlling the pager 1 received periodically), address Data included in the data (identification data individually set in the pager 1) is received for operating a control process (specific function) that is invalid during normal operation set in the pager 1 in advance. It can be set as individual data constituting a predetermined combination of data included in the data.
[0184]
Further, according to the pager 1 in the first embodiment, the CPU 7 (detection means and control means) includes the antenna 2, the receiving unit 3, the decoder 4, the buffer memory 5, the deinterleave circuit 6, the ID-ROM 8, and the like. When data is received by the data receiving unit (receiving means), the external condition (for example, receiving) set for the received data with reference to the program operation condition table (storage means) in the operating condition memory 9m The data includes predetermined data, the received data includes a predetermined combination of data, etc.) and internal conditions set for the internal processing data by the pager 1 (for example, data reception) Multiple operation conditions consisting of a combination of the number of times being a predetermined number or more, and the date / time data being three or more identical numbers consecutively) When it is detected that any one of the operation condition items is established, the subprogram corresponding to the operation condition item is read from the ROM 9 and activated, and display control that is not set as the normal operation based on the subprogram. And control processing such as information control or function expansion control (a specific function that is disabled during normal operation preset in the pager 1).
[0185]
Therefore, when receiving the data, if both the external condition set for the received data and the internal condition set for the internal processing data by the pager 1 are satisfied, the CPU 7 sets the pager 1 in advance. It is possible to operate a specific function that is disabled during normal operation.
[0186]
At this time, when data is received, message data as received data, a free word start code, a shift JIS code, etc. (control data for controlling the display mode of the message), time correction information (the data received periodically) The fact that the predetermined data is included in the control data for controlling the pager 1 and the address data (identification data individually set for the pager 1) is invalid during normal operation set in advance for the pager 1. It can be set as an external condition for operating the control process (specific function).
[0187]
Further, according to the pager 1 in the first embodiment, the internal conditions based on the internal processing data of the pager 1 are the operation conditions stored in the operation condition establishment count memory 10d (reception count storage means) of the RAM 10. It is set for the number-of-establishment-count data for each (storage address No.) or the total number of incoming-call data of the received data addressed to the pager 1. The internal condition is set for the current time (year, month, day, hour, minute, second) measured by the internal clock 7a (time measuring means).
[0188]
Therefore, at the time of data reception, the data reception count and date / time data in the pager 1 can be set as internal conditions for operating a specific function that is disabled during normal operation set in the pager 1 in advance.
[0189]
Further, according to the pager 1 in the first embodiment, the notification control (specific function) that is invalid during normal operation preset in the pager 1 is performed by the speaker 16, the LED 17, the vibrator 18 (notification). The notification by means) is performed in a different notification form from normal.
[0190]
Therefore, the reception data includes predetermined data, the reception data includes a predetermined combination of data, external conditions set for the reception data, and internal processing data by the pager 1 If a predetermined operation condition such as that the internal condition set in the above is satisfied, or the like is satisfied at the time of data reception, notification control that is invalid during normal operation set in advance for the pager 1 operates. Thus, the notification is performed in a different notification form than usual. Thereby, for example, when message data indicating “emergency” is included in the received data, the incoming notification sound can be changed to an emergency notification sound.
[0191]
Further, according to the pager 1 in the first embodiment, the display control (specific function) that is disabled during normal operation preset in the pager 1 is displayed on the display unit 11 (display unit). Is performed in a different display form.
[0192]
Therefore, the reception data includes predetermined data, the reception data includes a predetermined combination of data, external conditions set for the reception data, and internal processing data by the pager 1 If a predetermined operation condition such as that the internal condition set in the above is satisfied, or the like is satisfied when data is received, display control that is invalid during normal operation set in advance for the pager 1 operates. Thus, the display is performed in a display form different from the normal one. Thereby, for example, when message data indicating “emergency” is included in the received data, it is possible to change the size and font of the display character.
[0193]
Further, according to the pager 1 in the first embodiment, the display control (specific function) that is invalid during normal operation preset in the pager 1 is the image data memory 9j (image storage means). The image data stored in is displayed on the display unit 11 (display means).
[0194]
Therefore, the reception data includes predetermined data, the reception data includes a predetermined combination of data, external conditions set for the reception data, and internal processing data by the pager 1 If a predetermined operation condition such as that the internal condition set in the above is satisfied, or the like is satisfied when data is received, display control that is invalid during normal operation set in advance for the pager 1 operates. Display an image on the display screen. Thus, for example, when message data indicating “congratulations” is included in the received data, it is possible to display a prestored image corresponding to this message.
[0195]
Further, according to the pager 1 in the first embodiment, the function expansion control (specific function) that is invalid during normal operation preset in the pager 1 is set in the setting content management memory 10a (extension information). Based on the flag information (extended information) stored in the storage means), the free word conversion function set in the pager 1 and the data storage function (normal setting function) in the message memory 10b and the address book memory 10c are expanded. To do.
[0196]
Therefore, the reception data includes predetermined data, the reception data includes a predetermined combination of data, external conditions set for the reception data, and internal processing data by the pager 1 If a predetermined operation condition such as that the internal condition set in the above is satisfied or the like is satisfied at the time of data reception, the function expansion control that is disabled during the normal operation set in advance in the pager 1 operates. Thus, the normal setting function of the pager 1 is expanded. Thereby, for example, it becomes possible to increase (expand) the free words that can be used step by step in accordance with the number of times the self-addressed message is received.
[0197]
(Second Embodiment)
In the first embodiment, when a predetermined operating condition is established at the time of data reception, a specific function that is disabled during normal operation set in advance in the receiving device operates, and a notification mode or The case where it is possible to provide an additional element as a communication tool or a kind of playful element to the subscriber by changing the display form or expanding the image display or setting function has been described. In the second embodiment, a pager 1 that automatically sets a background image to be displayed on an incoming call waiting screen when message data transmitted from another party and received will satisfy a predetermined condition will be described.
[0198]
The circuit configuration of the pager 1 in the second embodiment is substantially the same as the circuit configuration of the pager 1 in the first embodiment shown in FIG. 1, and the ROM 9, the RAM 10 in FIG. Since only the components of the display unit 11 are changed, the entire configuration diagram is omitted by replacing them with the ROM 9 ′, the RAM 10 ′, and the display unit 11 ′, and only the details of the changes will be described below. It will be explained in the following.
[0199]
The ROM 9 ′ is an EEPROM, and as shown in FIG. 18, the same program memory (PM) 9a, character generator memory (CG) 9b, and dial data conversion table memory (DT) as those in FIG. 3 in the first embodiment. 9c, free word conversion matrix memory (FM) 9d, shift JIS code conversion table memory (ST) 9e, fixed phrase conversion table memory (TT) 9f, display control program memory (DC) 9g, notification control program memory (FC) 9h A function expansion control program memory (KC) 9i, an image data memory (GC) 9j, a melody data memory (LC) 9k, an operation condition memory (CM) 9m ′ as a change part, and a background image memory (BC) 9n It is comprised by.
[0200]
The operating condition memory (CM) 9m ′ is a program for display control, notification control, or function expansion control that is activated as a subprogram in the incoming call control process (see FIG. 11) described in the first embodiment. Is a memory area for storing a program operation condition table (see FIG. 19) in which the program names and the activation conditions (operation conditions) of the respective programs are stored in association with each other.
[0201]
In the program operation condition table shown in FIG. 10, the received message data (dial data) includes a free word start code “-” (dial input “* 2 * 2”), a free word “create” (dial input “432393”), and a free word. If a keyword (a keyword stored in the background image memory (BC) 9n in advance, see FIG. 20) and a two-digit number indicating the display position of the image data are included in order, the operating condition is satisfied. This means that the “display control program VI” is started and display control of a predetermined background image is performed based on this subprogram.
[0202]
The background image memory (BC) 9n is a background image data table (stored by associating a storage address and a keyword in the image data memory (GC) 9j of the image data displayed on the basic screen when waiting for an incoming call. This is a memory area for storing (see FIG. 20).
[0203]
In the background image data table shown in FIG. 11, the keyword “No” (dial input “1214”) is associated. Further, the GC storage address No. in the image data memory (GC) 9j. 11 stores image data representing “No” as shown in the right column of FIG. Similarly, the GC storage address No. 14, the keyword “with” (dial input “4322”) is associated with the GC storage address No. in the image data memory (GC) 9j. 14 stores image data representing “tagged” as shown in the right column of FIG. 20 and the like. In the background image memory (BC) 9n, a plurality of keywords and image data storage addresses No. 14 are stored. Are stored in association with each other.
[0204]
As shown in FIG. 21, the RAM 10 ′ includes the same message memory (MM) 10b, address book memory (AM) 10c, operation condition establishment count memory (DM) 10d, key, and key as in FIG. 7 in the first embodiment. An input memory (IM) 10e, a setting content management memory (MCM) 10a ′ which is a change portion, and a basic screen display control memory (DCM) 10f are configured.
[0205]
As shown in FIG. 22, the setting content management memory (MCM) 10a ′ includes the upper limit number of received data and address book data stored in the message memory 10b and the address book memory 10c of the RAM 10 ′, and the free word conversion matrix memory of the ROM 9 ′. The usable area in the free word conversion matrix (see FIG. 5 in the first embodiment) stored in 9d, the actual display control subprograms stored in the display control program memory 9g of the ROM 9 ′ The display control program used for displaying the message, the notification control program stored in the notification control program memory 9h, the notification control program actually used for notification, and the function expansion control program memory 9i are stored. From each subprogram for function expansion control Extension control program for use in, such as a memory area managed by the flag.
[0206]
Further, the setting content management memory 10a 'has a memory area for storing the number of received data and address book data currently stored in the message memory 10b and the address book memory 10c of the RAM 10'.
[0207]
In the setting content management memory 10a 'shown in FIG. 22, the flag value indicates the initial state when the power is turned on for the first time. That is, in the initial state, the message memory 10b and the address book memory 10c of the RAM 10 ′ can store 15 and 12 received data and address book data, respectively, as in the first embodiment. . In the initial state, the free word conversion matrix (see FIG. 5 in the first embodiment) can use a total of 100 initial setting areas 91 corresponding to the dial inputs “11” to “00”. In addition, when displaying a message, the “normal display control program” is activated to perform normal display control, and when informing, the “normal notification control program” is activated to perform normal notification control. Done. In the initial state, none of the “function expansion control programs” is activated.
[0208]
Further, in the first embodiment, the value of each flag in the setting content management memory 10a ′ is set in the program operation condition table (see FIG. 11) in the incoming call control process (see FIG. 11) and the key input control process (see FIG. 17). In the second embodiment, the program shown in FIG. 19 is stored in the setting content management memory 10a ′ shown in FIG. The storage address No. in the operation condition table 9m ′ is stored. The value of the flag of the display control program VI corresponding to 10 is always set to “1” (can be activated).
[0209]
The basic screen display control memory (DCM) 10f stores the image data to be displayed on the basic screen in association with the display designated position when the incoming screen is shifted to the basic screen (incoming standby screen). This is a memory area for storing (see FIG. 23). In FIG. 23, the basic screen image table includes a display designation position 11a ′ ((01 to 22) shown in FIG. 24) set on the display unit 11 ′ and an image data memory (GC) of image data to be a background image. 9j is stored in association with the storage position.
[0210]
The display unit 11 ′ is configured by, for example, a dot matrix type liquid crystal display panel, and displays a received message, an animation (moving image), and the like based on display data from the driver 13 illustrated in FIG. 1. A display position as shown in FIG. 24 is set on the display screen of the display unit 11 ′. In other words, the display screen of the display unit 11 ′ is composed of 4 × 11 display blocks. The first and fourth lines (display designation position 11a ′ indicated by hatching in the drawing) have display positions. It is defined by a two-digit number (01 to 22), and image data based on the data stored in the basic screen display control memory (DCM) 10f is displayed.
[0211]
The above is the structural difference between the pager 1 in the second embodiment and the pager 1 in the first embodiment.
[0212]
Next, the operation of the pager 1 in the second embodiment will be described.
In the same process as the incoming call control process (see FIG. 11) of the first embodiment, the display unit 11 ′ displays a basic screen as shown in FIG. When the pager 1 receives “* 2 * 2433393423220096” as dial data as received data (message data), the CPU 7 in the message display process, “* 2 * 2” is a free word start code, It is analyzed that “432393” is “create” (free word), “4322” is “attach” (keyword by free word (see FIG. 20)), and “0096” is “01” (free word).
[0213]
Then, from this analysis result, the display unit 11 ′ displays “Tsukitsuki 01” as shown in FIG. 27, and the CPU 7 sets “Keyword” and “Background image memory (BC) 9n”. ”Is detected, the storage address No. in the program operation condition table (see FIG. 19). The establishment of the ten operating conditions is detected, and the “display control program VI” is started.
[0214]
In this “display control program VI”, the CPU 7, as shown in FIG. 25, sets the GC storage address No. “set” set in the background image memory (BC) 9 n. 14 is set in the basic screen display control memory (DCM) 10f in association with the display designation position “01” designated after “Tsukutsutsuki”. When the operation of the key input unit 14 (any key operation) is detected, the screen returns to the basic screen (incoming call standby screen), and the data set in the basic screen display control memory (DCM) 10f as shown in FIG. As shown in FIG. 28, the background image data 11b ′ (the moon image in FIG. 28) is displayed at the display designation position “01” on the display unit 11 ′.
[0215]
In the display of the basic screen, when message data for setting image data is newly received at a display designated position where image data is already set, it is always overwritten.
[0216]
As described above, according to the pager 1 in the second embodiment, the CPU 7 (detection unit and control unit) includes the antenna 2, the reception unit 3, the decoder 4, the buffer memory 5, the deinterleave circuit 6, When predetermined message data stored in the program operation condition table of the operation condition memory 9m ′ is detected from the reception data received by the data reception unit (reception means) including the ID-ROM 8 or the like, a subprogram corresponding to the data is detected. As described above, the display control program VI is read from the ROM 9 ′ and activated, and a background image is displayed at a predetermined display position of the display unit 11 ′ based on the display control program VI.
[0217]
Therefore, since the background image is set not only by the user's own setting but also by the message data received from the other party, both the sender and the receiver enjoy the message exchange by the pager 1. Can be increased.
[0218]
The present invention has been specifically described above based on the embodiments. However, the present invention is not limited to the above-described embodiments, and can of course be changed as appropriate without departing from the scope of the invention. It is.
[0219]
For example, in the above embodiment, the case where the present invention is applied to the paging receiver 1 corresponding to the advanced radio paging method has been described. However, this is not limited to the paging receiver. It may be a paging receiver of the system or POCSAG system. Moreover, although the said embodiment described the case where this invention was applied to a paging receiver, it is utilized with MCA data communication systems, such as FM character multiplex broadcasting receiver which can receive character broadcasting, and a tele terminal system. The present invention may be applied to a PDA (Personal Digital Assistant), a mobile phone having a data communication function, a PHS, a smart phone (Smart Phone), and the like. Furthermore, it may be a data receiving terminal such as an electronic mail system.
[0220]
【The invention's effect】
  Claim 1And 5According to the described invention,When it is determined that the data includes information specified in advance, the number of data reception is further measured, and the function of the reception device is set and controlled according to the measured number of receptions. You can add effects and additional elements.
[0221]
  Claim 2And 6According to the described invention,When it is possible to determine that the received data is data including information designated in advance, the attribute information is further specified and output in an output form based on the specified attribute information. Additional elements can be added.
[0227]
  According to the third and seventh aspects of the invention, the reception date and time of the received data is acquired, and when the reception date and time is included in a predetermined time zone, the function of the receiving device is set and controlled. New effects and additional elements can be added to the receiver.
[0228]
  According to the fourth and eighth aspects of the present invention, when it is possible to determine that the data includes information designated in advance, the reception date and time are further acquired, and the function of the receiving device is set and controlled according to the acquired reception date and time. Thus, new effects and additional elements can be added to the receiving apparatus.
[0232]
As described above, according to the present invention, when a predetermined operating condition is established at the time of data reception, a specific function that is invalid during normal operation set in advance in the receiving apparatus operates. The notification form and display form are changed, and the image display and setting functions are expanded. Therefore, the user is presented with questions about what kind of operating conditions such functions will operate, and the user's interest in the receiving device can be enhanced, and the operating conditions can be grasped. Thus, it is possible to provide the subscriber with an additional element as a communication tool and a kind of playful element, such as obtaining various effects of the function.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a circuit configuration of a pager 1 in a first embodiment to which the present invention is applied.
FIG. 2 is a diagram showing a memory configuration of the ID-ROM 8 of FIG.
FIG. 3 is a diagram showing a memory configuration of a ROM 9 in FIG. 1;
4 is a diagram showing a dial data conversion table stored in a dial data conversion table memory (DT) of FIG. 3; FIG.
5 is a diagram showing a free word conversion matrix stored in the free word conversion matrix memory (FM) of FIG. 3. FIG.
6 is a diagram (No. 1) showing a program operation condition table stored in the operation condition memory (CM) of FIG. 3; FIG.
7 is a diagram showing a memory configuration of a RAM 10 in FIG. 1. FIG.
8 is a diagram showing a memory configuration of a setting content management memory (MCM) in FIG. 7;
9 is a diagram showing a memory configuration of a message memory (MM) in FIG. 7;
10 is a diagram showing a memory configuration of the address book memory (AM) of FIG. 7;
11 is a flowchart of incoming call control processing executed by the CPU 7 of FIG. 1;
12 is a diagram (No. 1) illustrating an example of display control of a received message executed in the incoming call control process of FIG. 11. FIG.
FIG. 13 is a diagram (part 2) illustrating an example of display control of a received message executed in the incoming call control process of FIG. 11;
14 is a diagram showing an example of function expansion control executed in the incoming call control process of FIG. 11. FIG.
15 is a diagram illustrating an example of display and notification control of a received message executed in the incoming call control process of FIG.
FIG. 16 is a diagram (No. 2) showing a program operation condition table stored in the operation condition memory (CM) of FIG. 3;
FIG. 17 is a flowchart of key input control processing executed in the CPU 7 of FIG.
FIG. 18 is a diagram showing a memory configuration of a ROM 9 ′ constituting the pager 1 in the second embodiment to which the present invention is applied.
19 is a diagram showing a program operation condition table stored in an operation condition memory (CM) 9m ′ shown in FIG.
20 is a diagram showing a background image data table stored in a background image memory (BC) 9n shown in FIG.
FIG. 21 is a diagram showing a memory configuration of a RAM 10 '.
22 is a diagram showing a memory configuration of a setting content management memory (MCM) 10a ′ in FIG. 21;
23 is a diagram showing a basic screen image table stored in a basic screen display control memory (DCM) 10f shown in FIG.
FIG. 24 is a diagram showing a display designation position 11a 'of the display unit 11'.
FIG. 25 is a diagram illustrating an example of data stored in a basic screen display control memory (DCM) 10f when message data is received in the pager 1 according to the second embodiment to which the present invention is applied.
FIG. 26 is a diagram showing an example of a basic screen (screen during standby for incoming calls) of the display unit 11 ′.
FIG. 27 is a diagram illustrating an example of a screen when an incoming call is received from the display unit 11 ′.
FIG. 28 is a diagram showing a basic screen on which a predetermined background image is displayed after switching from the incoming call screen of the example shown in FIG. 27;
FIG. 29 is a diagram showing a data structure in the advanced wireless paging method.
[Explanation of symbols]
1 pager
2 Antenna
3 receiver
4 Decoder
5 Buffer memory
6 Deinterleave circuit
7 CPU
7a Internal clock
8 ID-ROM
9 ROM
9a Program memory (PM)
9b Character generator memory (CG)
9c Dial data conversion table memory (DT)
9d Free word conversion matrix memory (FM)
91 Initial setting area
92 Extended area
92a-92e sub-region
9e Shift JIS code conversion table memory (ST)
9f Fixed phrase conversion table memory (TT)
9g Display control program memory (DC)
9h Notification control program memory (FC)
9i Function expansion control program memory (KC)
9j Image data memory (GC)
9k Melody data memory (LC)
9m Operating condition memory (CM)
10 RAM
10a Setting content management memory (MCM)
10b Message memory (MM)
101 Initial setting area
102 Extended area
10c Address book memory (AM)
111 Initial setting area
112 Extended area
10d Operating condition satisfaction count memory (DM)
10e Key input memory (IM)
11 Display
11a, 11b, 11c Display window
12 EL backlight
13 Drivers
14 Key input section
14a Main switch
14b Memory key
14c Select key
14d set key
15 Driver
16 Speaker
17 LED
18 Vibrator
19 Bus
20 Power battery

Claims (8)

In a receiving device that receives data,
Determining means for determining whether or not the received data is data including pre-designated information when receiving data;
When it is determined that the data includes information specified in advance by the determination unit, a measurement unit that measures the number of times the data is received;
Control means for setting and controlling the function of the receiving device according to the number of times of reception of the data measured by the measuring means ;
A receiving apparatus comprising: In a receiving device that receives data,
Determining means for determining whether or not the received data is data including pre-designated information when receiving data;
An attribute information specifying unit for specifying attribute information determined based on the data when the determining unit determines that the data includes information specified in advance;
Output means for outputting the data received by the receiving means in an output form based on the attribute information specified by the attribute information specifying means;
A receiving apparatus comprising: In a receiving device that receives data,
A reception date and time acquisition means for acquiring the reception date and time of the data when receiving the data;
A discriminating unit for discriminating whether or not the date and time acquired by the reception date and time acquiring unit is included in a time zone designated in advance;
Control means for setting and controlling the function of the receiving device according to the determination result by the determination means;
A receiving apparatus comprising: In a receiving device that receives data,
Determining means for determining whether or not the received data is data including pre-designated information when receiving data;
A reception date and time acquisition unit that acquires the reception date and time of the data when the determination unit determines that the data includes information specified in advance;
Control means for setting and controlling the function of the receiving device according to the reception date and time acquired by the reception date and time acquisition means;
A receiving apparatus comprising: In a computer that controls a receiving device that receives data,
A function for determining whether or not the received data is data including pre-designated information when receiving data;
A function for measuring the number of times the data is received when it is determined by the determination means that the data includes information specified in advance;
A function of setting and controlling the function of the receiving device according to the number of times of reception of data measured by the measuring means;
A program characterized by realizing. In a computer that controls a receiving device that receives data,
A function for determining whether or not the received data is data including pre-designated information when receiving data;
A function for specifying attribute information determined based on the data when the determination unit determines that the data includes information specified in advance;
  A function of outputting the data received by the receiving means in an output form based on the attribute information specified by the attribute information specifying means
A program characterized by realizing. In a computer that controls a receiving device that receives data,
A function to acquire the reception date and time of data when receiving the data
A function for determining whether or not the date and time acquired by the reception date and time acquisition means is included in a predetermined time zone
Function for setting and controlling the function of the receiving device according to the determination result by the determination means
A program characterized by realizing. In a computer that controls a receiving device that receives data,
A function for determining whether or not the received data is data including information designated in advance when receiving data
A function for acquiring the reception date and time of data when it is determined by the determination means that the data includes information specified in advance.
A function for setting and controlling the function of the receiving device according to the reception date and time acquired by the reception date and time acquisition means
A program characterized by realizing.

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