JPH06500218A - facsimile paging system - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Facsimile paging system field of invention TECHNICAL FIELD The present invention relates generally to paging systems, and more particularly to facsimile paging systems. This relates to a paging system that sends and receives data.

Background of the invention In general, selective paging communication (baging) systems operate via links to public telephone exchanges. A radio frequency transmitter/encoder (base station) accessed to the network (PSTN) and A wireless receiver (e.g., a selective call receiver, etc.). Operationally, the selective call receiver transmits from the base station Receives/decodes information, and this information is used to send addresses and data or voice messages. have When the selective calling receiver receives the address of its own station, it notifies the user and It is common to display information.

Current paging systems send audio, numeric or alphanumeric messages to users. We have adopted a messaging method that allows for communication. Most paging systems is GSC (Motorola's Golay 5equential Code) or Or POC3AG (British Po5t Office Code 5tanda Using protocols such as rdisationAdvisoryGroup) Send address and message information. These protocol formats is well known to those skilled in the art of paging systems. Send a message or page If the base station or paging terminal dual-tone-muHi-fr (DTMF) eq uency) It is generally accessed by telephone. Voice message included Although a telephone is suitable as a data input device, other input methods may be desirable. Delicious. Alternate input devices, such as computer terminals or specialized input devices, allow callers to It works well for communicating information to users in text format. Currently, this Alternative input devices such as stomach. Unfortunately, when a caller has to convey a large amount of information to a user, Existing paging systems and data transport protocols Transmit text messages that contain text or graphic data I can't. Therefore, for reasons related to data entry problems, The paging service provider provides an alphanumeric paging message service. is not provided.

Therefore, a large amount of data can be transmitted to selected users, and the data There is a need for an information transmission system that has a convenient means for input. Furthermore, the mark A system that can transmit information contained in printed pages to a paging device. Mums are also needed.

Summary of the invention In accordance with the present invention, a receiver, a controller, and a display of a received source document. A selective call receiver is provided comprising means. This receiver uses the original source document giving a received paging message generated from a facsimile message; The incoming paging message consists of at least a portion of the original source document and the address. The messages are interpreted and decoded by the controller. Using display means , the restored source document is a facsimile message of the original source document. can be displayed in substantially the same format as.

Brief description of the drawing FIG. 11 is a block diagram of a selective call receiver according to a preferred embodiment.

FIG. 2 is a 1177 diagram of a selective call information signaling system according to the present invention.

FIG. 3 can be transmitted via the selective call communication system of FIG. 2 in accordance with the present invention. Indicates a general message.

FIG. 4 shows the facsimile message input processor according to the preferred embodiment. FIG. 2 is a flow diagram illustrating a general message encoding process.

5th Ar! ! J is a protocol diagram of a first embodiment of a selective call signal format; Ru.

5th Bl! I is a protocol diagram of a selective call signal format according to a preferred embodiment. It is.

Figure 6 shows the selective call receiver of Figure 1 when receiving paging messages. It is a flow diagram showing operation.

In FIG. 1, a selective call receiver 100 powered by a battery 101 is connected to a A signal is received via antenna 102. Receiver 103 returns the received signal amto4 The demodulator 104 recovers the superimposed information using conventional methods.

The recovered information is sent to the controller 105 which interprets and decodes this recovered information. is combined with In a preferred embodiment, controller 105 includes processor 106; Address decoder 107 configured with hardware and software , a data decoder 108, and a display driver 109. will be accomplished.

The restored information is read by the address decoder 107, but this address The program decoder 107 is stored in the non-volatile memory 110 of the selective call receiver 100. Correlate the restored address with the predetermined address. Generally non-volatile memo The library 110 has a plurality of configurations that characterize the operation of the selective call receiver. It has multiple registers to store words. When deciding on the selection of a selective calling receiver. If there is a conflict between the predetermined address associated with the selective calling receiver and the received address. conduct a check. Once these addresses are correlated, controller 105 sends the message Binding information to message memory 111. Restored information and user control 1 Based on the settings associated with display 112, the selective call receiver may e.g. displaying at least a portion of the message information by an audible, visual or sensory signal; 114 to notify the user that the message has been received. The user information displayed on the display 113 by activating the appropriate control 112. You can see it.

Support circuitry 115 includes conventional signal multiplexing integrated circuits, voltage regulation control mechanisms, Current regulation control mechanism, environmental sensing circuitry such as lighting or temperature conditions, audio power increase It preferably consists of a width circuit, a control interface circuit and a display lighting circuit. Delicious. These elements are configured in a well-known manner and display information according to the user's requirements. Provide a receiver.

In Figure 2, the block diagram of the selective call information signaling system is A Sage human-powered processor 201 is shown, which is a traditional facsimile machine. Milli (FAX) device 202. Image memory 2o3. symbol recognition processor 204. Text memory 205. Message controller 206 and network network interface 207. A saw like the one shown in Figure 3 The fax document 208 is read (scanned) by the fax machine 202 and Quantize the image. The fax machine 202 has a facsimile message input process. It does not need to be physically located in the same location as the computer 201; be it a traditional document scanner or a dedicated message input device, respectively. inputs facsimile messages via network interface 207 Many devices may be substituted for communicating with processor 201.

In the first embodiment, the fax is sent to a subscriber (a person with a selective calling fax receiver or equipment). Users wishing to send out to call your service provider and provide your cap-code. (A unique number assigned by your paging service provider that is the pager's number. (a unique number corresponding to the actual encoded address). Basing service The service provider maintains a list of fax-compatible cap codes and - Once the code is received, the procedure for receiving traditional fax messages begins. do. Therefore, the user brings the conventional facsimile machine 202 online and to the facsimile message input processor 201 on the printing service provider side. Load and send the document. When you receive this fax message, the fax - Message input processor 201 encodes the paging message and Send to your subscribers. The methods and programs required to send paging messages. The rodol and apparatus are described in detail below.

In the second embodiment, a user who wishes to send a fax to a subscriber can A conventional facsimile machine with the ability to store a list of call numbers is used. this In some embodiments, the phone number may be entered with a finger or a note on the caller's fax machine. You can send a fax message by calling the phone number from . The user's cap code is the same as this cap code and the basting service. aliases (alins) or nicknames indicating predetermined memory locations, including the vendor's telephone number. can be represented by a name. When sending a fax message, use this message. The person sending the message should call or dial the number of the paging service. Enter the user's cap code (or connect to the service). Once established, the device will automatically fill it in).

After a successful connection with the paging service provider, the facsimile machine will fax the document. It is transmitted to the facsimile message human processor 201.

In a third embodiment, a conventional facsimile machine has at least one paging sensor. Enter the “key” that selects the service and at least one paging user, and press F. It has a built-in function to scan the AX message area. Basing service and select the desired subscriber by printing or handwriting 2 selected " This can be done by recognizing 'check boxes' or barcodes. Wear. In any case, what is recognized directly (absolutely) data) or indirectly (as information stored in a facsimile machine's memory address). (as a pointer to information). Or the user's base Encoding information (e.g., bar, symbol) representing the programming service and cap code. A pre-printed label may be attached to the fax document containing a label (e.g. be Alternatively, you can use a pre-printed form that specifies where to fill out the text or the text you are sending. request the sender to define the relevant part by drawing a box around it. Good too. A connection is established with the paging service, as in another embodiment. Then, the fax document is sent.

In the 1!14 embodiment, the FAX machine 202 is a facsimile machine as shown in FIG. is closely coupled to the message input processor 201. This preferred embodiment first It includes all the functionality described in the three examples, and also includes all the functions described in the three examples. Performance is further improved by not requiring a PSTN connection to access the network. child In the embodiment, facsimile message input processor 201 is connected to a high speed network. paging terminal 2 via a network (e.g. R5-232, DEEEE802.3) 80 for extremely high message throughput. Ru.

When a document is entered (scanned) into fax machine 202, the message controller The controller 206 has an image memory 203, a symbol recognition processor 204, and a text processor. quantized data is sent to at least one of the storage memories 205; image memory After saving at least a portion of the document to 203, the message controller 206 starts processing the document.

At this point, the symbol (e.g. alphanumeric or traditional graphics) The processor 204 processes at least a portion of the scanned quantized image to determine which If the region is a recognizable symbol (e.g. ASCII text, Kanji, etc.) or Determine whether it contains graphic data. Symbols using traditional methods A file recognition processor 204 identifies areas in image memory as symbols or graphics. map (or categorize) into a book section. Mapping quantized data When editing, each section has a relative (or absolute) page position and marked for boundaries. This process allows you to split a document into its constituent parts. and can be reconfigured after transmission in response to markers corresponding to each section. can.

After mapping the quantized images, message controller 206 maps each quantized image. Symbol recognition to identify symbols within the pinged symbol section instructions to processor 204; The code obtained for the identified symbol is It is saved in the text memory 205. Retrieval by identifying each symbol In the quantized image memory 203, the quantized graphic symbols A data word with a one-to-one correspondence is obtained. Identifying symbols by data words The selective call information signaling system can encode/transmit/receive/decode The amount of information that must be transmitted is significantly reduced. 200x200 dots/in A4 page size (approximately 21.0 x 29.7 cm) ), contains 35 lines with an average of 50 characters/line, and contains only text. Assuming a message, the binary quantization of this message is approximately 4 million bits of information. including. Assuming a byte-based serial protocol with no error correction, this The transmission of the message is 1200 baud (1 baud is 1 baud with 8 information bits per second). symbol) takes 403 seconds. Like this almost 7 minutes/when sending the page time is impractical from the economic point of view of using radio frequency paging channels. be.

CCITT (International Telegraph and Telephone Consultative Committee) tte on International Telegraph andTe Group II facsimile (lephone) defined by the facsimile standard ( When sending a message using a fax (fax) device, use modified Huffman marks. A coding method called a modified Huffnan code is used. is first encoded. This modified Huffman code is RE　A　D(Relative　Element　AddressingDe signate) code and standard Huffman code.

Standard Huffman encoding searches n-bit data words, generally using a predetermined look. Use up-tables to map “commonly” repeating sequences to the original data work. code with fewer bits than words. A variant of the standard Huffman code is the code Based on the statistical occurrence of patterns in the data columns that are analyzed to It is possible to improve coding efficiency by generating a dynamic coding table. can.

The modified READ code is line-by-1in e) method, the position of each changing element on the encoding line is (directly above the encoding line) , or the immediately preceding change element on the coding line is coded. Sodefa These two modes of ID READ code are vertical mode and horizontal or passing mode. This is passing mode. Vertical mode encoding uses only 1 bit and the black pixel (pel or picture element) of the encoding line The case where the run starts directly below the black pixel run of the reference line is shown. Pixels that change If the pairs are not within three pixels, horizontal or pass mode encoding is used. line is After being encoded, this line becomes the reference line for the next line. each encoded line becomes the reference line for the next line, so if one error propagates to multiple lines, The fact is that this two-dimensional encoding method is susceptible to repeated transmission errors. It means.

Therefore, Group III facsimiles use Modified Huffman encoding periodically. This method is used to prevent error patterns from occurring. 200X200dp i In terms of resolution, every fourth line is encoded with a modified Huffman code, and the remaining The line is encoded with a modified READ code to prevent errors and reduce transmission time. It is shortened.

Modified Huffman encoding only considers horizontal dependence between pixels on the same scan line. I am considering it. Operationally, Modified Huffman encoding works as follows. Ru. Consider an A4 document with 1728 pixels/line and 3.85 lines/mm.

Each scan line is considered a series of alternating black and white runs. All scan lines are zero Assuming you start with a white run length of bits greater than or equal to be done. White and black run lengths from 0 to 63 bits are terminating marks. 6 White and black run lengths of 4 to 1728 bits are the make-up code word (m akeup code word) followed by the terminating code word It is represented by. Next to each code line is the 12-bit code EOL ( end-of-1ine) code word, which can be used for any kind of code word. Duplication is not possible depending on the code or combination thereof. This modified Huffman mark This is the easiest encoding method to configure, and the average compression ratio is about 20:1.

By applying the modified Huffman code described above, the sample page transmission (after scanning) takes 92 seconds at 1200 ports (1 per line of text information). 00 transitions, and 33% of the document area contains text information, approximately 110 kilobytes. ). Facsimile message input processor 2 This can be achieved by applying the symbol recognition described for the preferred embodiment of It takes only 1.5 seconds to transmit a message (approximately 1800 bytes of data) ). As can be seen from the foregoing description, the facsimile message input processor 2 Transmission of messages using 01 is 269 times better than binary data; This is a 61x improvement over Loop III facsimile machines. These examples are SC (Motorola's Golay Sequential Code) or PO C5AG (UK Po5t Office Code 5 standard ton Advisory Group), etc. e-air) encoding method, the overhead is The number of parity bits associated with the code is increased by the amount of parity bits associated with the increase the total transmission time in proportion to the converted data. (23,12) code (total 23 bits) Of these, 11 bits are parity bits and 12 bits are data bits. ) is about 109% (i.e. binary data) compared to unencoded data. 842 seconds for Group III FAX and 192 seconds for FAX 3.1 seconds) time of the page human processor 201 is considered to increase.

Simple graphic shapes (e.g. circles, rectangles, lines).

(e.g. fills) and encode each with its own corresponding data word. This allows graphics parts to be treated in much the same way as text. can be done. This method requires complex Also applies to graphical areas (e.g. grayscale, color, logos, etc.) be able to. The graphic parts of these bitmaps are Using 1-dimensional, 2-dimensional and 3-dimensional compression algorithms similar to the human encoding method The amount of data to be transmitted can be further reduced by encoding the data. Also graph The facsimile message input processor 201 adaptively processes the scaled, quantized, and conditioned on the display 113 of the selective call receiver 100. can meet the requirements.

With the mapping described above, the preferred embodiment of the selective call information signaling system 1984 CCIT for Group IV facsimile as well as Group III standards It is also possible to comply with T Recommendation. Group IV facsimile operates in dual mode The system uses the same equipment to open facsimile encoded information and character encoded information. It can be processed within the page. Group IV facsimile is Group II Options such as grayscale and color features not available with I-Fax also provides more. Group IV fax machines have built-in error checking. , minimum 200x200dp i to maximum 480x480dp i+7) 5 solutions Provides a random mode.

Facsimile message input processor 201 includes a network interface Group II and Group IV facsimile transmissions via base 207. can be received. 4.800 or via the public switched telephone network (PSTN) Receives Group III transmissions at 9,600 baud and also receives a new IS DN (In tegrated 5 services Digital Network) etc. Because it receives Group IV transmissions at 48,000 baud over high-speed data networks, At least one input is built-in. The network interface 207 is Not only 5DN equipment but also LAN (local area network) or VAN (wide area network) computer system Expand to include hardware that handles high-speed coaxial or optical communications for can be done. This allows F from any consistent device on the network. By allowing AX to be sent directly, flexibility is increased for users. spread.

Document 208 is scanned by facsimile message human processor 201 Once encoded and processed, the encoded data is coupled to paging terminal 208 and transmitted over the air. message data using a protocol suitable for transmitting information over a wave link. The data is further encoded. Such a protocol is known as GSC (Motorola's GSC). olay 5equentialCode) and POC5AG (UK Po5t 　office　CodeStaodmrdisation　Advisory Group). These protocols provide error detection and correction on information links. Add functionality to ensure that error-free data is transmitted to the paging users. Ru. Also, the paging terminal is a transmitter 2o9 (or multi-cast) The system controls multiple transmitters (incoming and outgoing paging messages) A queue is created. In addition, fax/message input As described for processor 201, receiving facsimile mail for retransmission is The graphic portion of the sage is adaptively scaled by the paging terminal 208. and quantize it to satisfy the conditions of the display 113 of the selective call receiver 100. be able to.

When paging terminal 208 finishes processing the incoming message, transmitter 209 selects It broadcasts a signal modulated with data representing a selective calling address and a message. selective call The sender/receiver 210 detects this address, restores the message, and notifies the user. , including (but not limited to) text, graphics and audio. Present the received information to the user in a simple format.

Dedicated applications supported by the preferred embodiment of the selective call information signaling system Functions include e-mail, storage, retrieval and forwarding of facsimile messages and , compatible with industry standard computer software applications. compound document architecture ture) may integrate text and graphics.

In Figure 3, the 21st! The present invention utilizes the selective call communication system described in Section I. 3 shows a general message 300 that can be quantized, adjusted, and transmitted according to FIG. this An example message is sent to the facsimile message input processor 201 in FIG. Therefore, it consists of three sections that can be recognized using the mapping function performed. Ru. The first section 301 is a Tosugi sans serif (saans 5erif) block. A text area using a rock style font. 2nd section 302 is a graphic area including characters and lines.

The third section 303 uses a monospaced sans serif block style font. This is the text area. Messages can be sent in at least one of the following ways: can be input to the facsimile message input processor 201 using the method Wear. That is, it is integrated with the facsimile message input processor 201. A method of scanning via a conventional facsimile (FAX) device 202 and a method of scanning via a conventional facsimile (FAX) device 202 Group III or Group I by scanning via remote facsimile device V FAX via PSTN connection to facsimile message input processor 2 01, using a traditional modem, or by facsimile Retrieve a predetermined message from a storage device coupled to message input processor 201. to a selected user or group of users to establish a PSTN connection. Enter facsimile messages from a local or remote computer via send a complex architecture document (or simple document) to the force processor 201; to the facsimile message input processor 201 in at least one of the methods. You can enter messages.

In FIG. 4, when a document is input (402), a facsimile message input Power processor 201 begins processing the document. Processor is standard CCITT group Process the document as a Group III or IV sofa simile, or ) (Smart) If you turn on J mode, it will be more efficient as explained below. It has an onsicon that is treated in a certain way. When you turn off smart mode, the Step 4.3 goes to No and sends the standard facsimile received at step 404. - Manage facsimile mail by creating message headers in response to data. Tsage is characterized. Next, the message is an optional terminated by the end of the data marker. Turn on smart mode to Step 403 proceeds to YES, and the quantized data representing the FAX message is A bitmap of recognizable symbols and graphics is divided into N sections (but , N is an integer of 1 or more). Step 407 In this case, the Mth section (M=1.2, 3., , N) is the symbol section. You can check whether it is valid or not. If the Mth section is a symbol section, If so, step 408 checks to see if it is an alphanumeric symbol. Step 40 If 8 is YES, step 409 converts the current symbol section to an alphanumeric object. encoded as an object word. If you go to No in step 408, step 410 indicates that the current symbol section is a graphic object word. is encoded as Once the section has completed the encoding process, step 411 is reached. virtual page position, data length, and optional parameters described in Figure 5B. Add a flag consisting of data to this section. The last section is encoded Then, step 412 becomes YES and control is passed to step 404. Ste If step 407 is NO and indicates a graphic area with no recognizable objects, If so, each region is encoded by step 413. Step 412 If NO, the processor has not completed all recognized sections. sign Once the encryption is complete, the resulting header and data blocks are The data is then further encoded using an over-the-air encoding scheme for transmission by a streaming terminal.

Figure 5A shows how to selectively call facsimile data using arbitrary facsimile criteria. The signal protocol for calling and transmitting a receiver is shown. FAX Basing Metsu The message packet includes a selective call address 501 and a facsimile message packet. header 502 and, for example, a group III or group IV facsimile encoding a data block 503 with data and an end-on-message flag; 504. The end-on-message flag 504 is It can be omitted without compromising the integrity of this signal format. address signal No. 501 comprises a conventional selective call address of the type well known to those skilled in the art. Metsuse The header 502 contains the data block length, FAX protocol type and Information about encryption types for use in real fax messaging systems can include. Following the message header 502 is the standard facsimile data. A data block 503 containing data.

This example receives fax messages over a wireless data channel. Therefore, it can be used with conventional FAX machines. In addition, a computer (e.g. For example, by using a laptop computer), the selection shown in Figure 1 can be achieved. The selective call receiver combines the received fax messages into a computer and saves them to a file. The user can save and receive faxes in a seven-large tube. reception The fax message data is unchanged from its original transmission format, so Utilizing traditional facsimile data processing hardware and software, You can obtain a hard copy of the received fax.

FIG. 5B shows how facsimile data can be selectively called by a receiver in accordance with a preferred embodiment. Indicates the signal protocol to be transmitted. - Example of FAX basic message The page packet is sent to selective call address 505. facsimile message header da506. 1st text data flag 507.1111 text data flag Block 508. Graphic data flag 509. graphink data - Block 510. Second text data flag 511. 2nd text day data block 512 and an end-on-message flag 513.

End of Message Flag 513 destroys the integrity of this signal format. It can be omitted without saying. Address signal 505 is of the type well known to those skilled in the art. It consists of a conventional selective call address.

Message header 506 includes the number of sections in the data block, the number of sections in the data block, Block length information, fax protocol type, on virtual fax page Subsequent data block location and secure fax messaging system 4: Contains the type of encryption for the eyebrows. Data blocks are Fax message header 506 onward and end-on-message header 506 onwards and end-on-message It consists of all information before flag 513. Virtual page (virEualpag e) is a temporary representation of the last page in memory, and the last page is It may be a computer file, an in-memory image, or a hardcopy. 1st text The text data flag 507 and the second text data flag 511 are message section delimiter ter) to control the length of text blocks and virtual facsimile pages. It may also include information such as the range of area required on the page. 1st and 2nd Tee The text data blocks 508 and 512 are mapped during the recognition process. data representing text symbols from the first and second text sections including. Graphic data flag 509 indicates the graphic data block. 510 and serves as a delimiter for the graphic data block 510. Length, range of area required on virtual facsimile page, and encoding method May include other information regarding the content, such as laws and use of color graphics. stomach. Graphic data block 510 is a Group III facsimile. Modified Huffman encoding used and JPEG (Joir+t 3D defined by Photographic Experts Group) Color/luminance (chrominanee and luminat+ee) color compression may include graphic data in at least one format, such as stomach.

In FIG. 6, this flow diagram shows the receiving operation of the selective calling receiver of FIG. vinegar At step 602, the address decoder searches the received signal for the address signal. . In step 603, the restored address signal is examined and this signal is selected. Determining whether correlated with at least one predetermined address associated with the paging receiver do. If the received addresses are uncorrelated, control is returned to step 602 and a new An examination will be conducted. at least one receiving address associated with a selective calling receiver; If so, step 604 decodes the message header. and passes control to step 605. Step 605 includes graphic data Check the presence or absence of flags. If step 605 is NO, the next data block The block contains symbols and is decoded in step 606. Once decryption is complete, the status 607 indicates an end-on-message marker or another data flag. Find out about end-of-message conditions that can be indicated by absence.

If step 607 is NO (not yet an end-on message), the step If step 605 is YES, the next data block contains graphics and the step This graphic is decoded in step 608. If step 607 is YES, the control Control is returned to step 601, where address decoder 107 searches for a valid address. resume.

Decoding a text, symbol or graphic data block is shown in Figure 2. This is done by applying the reverse of the procedure described. Received fax message To draw, each encoded section must be decoded and its position displayed on the display device. map into display memory.

Start rectilinear coordinate (startir+g rectilinear coordinate ates) to the display space of the display device and then reconstructing the (the processor and message memory shown in Figure 1) have at least one the original source document into a restored document that is substantially similar to the format of the original source document. , view this restored document.

Figure 3 Figure 6 international search report I"'#1""A-"m-1, niguchi 1104fu O1

Claims (1)

[Claims] 1. a receiver that provides a received paging message generated from a facsimile message of an original source document, the received paging message being generated from a facsimile message of an original source document; a receiver comprising at least a portion of the original source document and an address; a controller for interpreting and decoding said received paging message; and a facsimile message in a format substantially similar to said original source document facsimile message; means for displaying a restored source document at a selective call receiver. 2. The controller includes: an address decoder that determines the selection of the selective call receiver; a data decoder for recovering data blocks from the original source document; and a processor for decoding the data blocks to provide a recovered source document that is substantially similar to the original source document. A selective call receiver according to claim 1. 3. 3. The selective call receiver of claim 2, wherein said address decoder comprises a signal processor that correlates said address with a predetermined address stored in non-volatile memory. 4. The non-volatile memory is configured to establish the predetermined address of the selective call receiver. multiple registers holding at least one configuration word The selective call receiver according to claim 3, characterized in that: 5. 2. The selective call receiver of claim 1, wherein said means for displaying comprises: a visual display device capable of displaying an image of a recovered source document substantially similar to said optical source document; . 6. The visual display device displays a section of the recovered source document. the visual display device in response to at least one data word sent to the visual display device; 6. The selective call receiver according to claim 5, wherein the image is generated by controlling at least one surface element in the selective call receiver. 7. 7. The selective call receiver of claim 6, wherein said at least one data word is a symbol representing an alphanumeric character. 8. The at least one data word represents a graphic object. 7. The selective calling receiver according to claim 6, wherein said symbol is a symbol. 9. The at least one data word is a graphic bitmap image. 7. The selective call receiver according to claim 6, wherein the symbol represents at least one element of the image. 10. characterized in that said section includes at least one data word. 7. The selective call receiver according to claim 6. 11. The means for displaying: at least one section of the recovered document that is substantially similar to the original source document; 2. The selective call receiving method according to claim 1, further comprising: means for reconstructing the selected call reception method. Shinki. 12. a facsimile message input processor: receiving a user identifier and a source document; processing at least a portion of the source document to generate a message representing the source document; a facsimile message input processor for transmitting a paging request comprising a selected unique identification code in response to a received user identifier; and a paging processor operatively coupled to said facsimile message input processor. the facsimile message input processor, and the facsimile message input processor sends: receiving the paging request received in the paging request, determining at least one selective call address in response to the unique layer code received in the paging request, and determining at least one selective call address in response to the unique layer code received in the paging request; Select call address and the page a pager that encodes a paging message into a paging message and transmits the paging message to at least one selective call receiver; 1. A facsimile transmission system comprising: a facsimile transmission terminal; 13. 13. The facsimile transmission system of claim 12, wherein said facsimile message input processor comprises: a facsimile machine; 14. The facsimile message input processor is: a message controller coupled to at least one network interface capable of receiving the source document, the source document being converted into quantized message data; This quantized message data is stored in image memory and symbol recognition. the message controller in at least one of a memory processor and a text memory; 14. The facsimile transmission system of claim 13, further comprising: a message controller that is combined and processed by a controller into the messages representing the source documents. 17. The message representing the source document: identifies a destination of the source document; selective call address; a message corresponding to the content of the message representing the source document; a message header; and a data block containing data representing the source document. 13. The facsimile transmission system according to claim 12. 18. 13. The facsimile transmission system of claim 12, wherein the message representing the source document comprises: an end of data marker; 19. 18. The facsimile transmission system of claim 17, wherein the message header comprises: a length parameter representing the length of a data block. 20. 18. The facsimile transmission system of claim 17, wherein the message header comprises: a count parameter representing the number of sections within a data block; 21. 18. The facsimile transmission system according to claim 17, wherein the message header comprises: an encoding parameter representing a data block encoding method. 22. 18. The facsimile transmission system according to claim 17, wherein the message header comprises: an encryption parameter representing an encryption method for the data block. 23. 18. The facsimile transmission system of claim 17, wherein the data block consists of: at least one section of the source document. 24. 18. The facsimile transmission system of claim 17, wherein the data block comprises: a data flag representing a delimiter and specifying a range and location of data in at least one section of the source document. 25. 25. The facsimile transmission system of claim 24, wherein the data flag comprises: a length parameter representing a length of the at least one section. 26. 25. The facsimile transmission system according to claim 24, wherein the data flag comprises: an encoding parameter representing an encoding method for the at least one section; 27. 25. The facsimile transmission system according to claim 24, wherein the data flag comprises: an encryption parameter representing an encryption method for the at least one section. 28. Must have a base station capable of communicating with at least one selective calling receiver. In a selective call communication system comprising: a facsimile message input processor; receiving a user identifier and a source document; paging comprising: processing at least in part to generate a message representative of the source document; and a unique identification code selected in response to the message representative of the source document and the received user identifier. Sends the request to the paging terminal at the paging terminal: receiving the paging request; and determining at least one selective paging address in response to the unique identification code received in the paging request. encoding the message representing the source document and the at least one selective call address into a paging message; transmitting the paging message to at least one selective call receiver; and the steps of: and in one selective call receiver: receiving said paging message; and displaying the paging message. 29. receiving a user identifier in said facsimile message input processor; The steps of: entering the user identifier as a user cap code; 29. The method of claim 28, further comprising the step of: 30. 30. The method of claim 29, wherein the step of inputting comprises: keying in a user cap code. 31. 30. The method of claim 29, wherein the step of entering comprises: keying in an alias; and, in response to the alias, recalling a usercap code from memory. 32. The inputting step includes: scanning an area of the received source document; and determining the user cap code in response to the at least one symbol recognized from the received source document. 30. The method of claim 29. 33. 29. The method of claim 28, wherein the step of processing at least a portion of the source document in the facsimile message input processor comprises: mapping the source document to a data block. 34. 34. The method of claim 33, wherein the step of mapping comprises: creating a message header specifying a range of the data block. 35. The mapping step includes: creating a message header specifying the encoding method of the data block. 34. The method of claim 33, comprising: 36. The mapping step includes: creating a message header specifying an encryption method for the data block. 34. The method of claim 33, comprising: 37. 29. The method of claim 28, wherein the step of processing at least a portion of the source document in the facsimile message input processor comprises: mapping the source document into at least one section. 38. 38. The method of claim 37, wherein the step of mapping comprises: creating a message header. 39. The step of mapping: a message with a count parameter representing the number of sections in the data block; 38. The method according to claim 37, further comprising: creating a message header. Law. 40. The mapping step includes: creating a message header with a length parameter representing the length of the data block; 38. The method of claim 37, comprising the steps of: 41. The mapping step includes: mapping a message header with an encoding parameter representing the encoding scheme of the data block; 38. The method of claim 37, comprising: creating a header. 42. The mapping step includes: mapping a message header with an encryption parameter representing the encryption method of the data block; 38. The method of claim 37, comprising: creating a header. 43. The step of mapping: represents a delimiter and a delimiter of the at least one section of the source document. 38. The method of claim 37, comprising: generating a data flag specifying a range and location of the data. 44. 38. The method of claim 37, wherein the step of mapping comprises: generating a data flag having a length parameter representative of the length of the at least one section. 45. 38. The method of claim 37, wherein the step of mapping comprises: generating a data flag having an encoding parameter representing an encoding scheme of the at least one section. Law. 46. 38. The method of claim 37, wherein the step of mapping comprises: generating a data flag having an encryption parameter representing an encryption method of the at least one section. Law. 47. A method for processing facsimile messages, comprising: In a message input processor: receiving a user identifier and a source document; processing at least a portion of the source document to generate a message representing the source document; transmitting a paging request comprising a selected unique identification code in response to the received user identifier to a paging terminal; and at the paging terminal: receiving the paging request; determining at least one paging address in response to a unique identification code; encoding the message representing the source document and the at least one selected paging address into a paging message; and converting the paging message into at least one paging address. A method characterized in that the method comprises the steps of: transmitting to one selective call receiver. 48. A method of receiving, in a selective call receiver, a facsimile message of an original source document, comprising: at least a portion of the original source document, and an address or the like. receiving a paging message from the selective call receiving address; recovering a data block from the paging message when correlated with a predetermined address associated with a mobile device; decoding the data block to obtain a recovered data block substantially similar to the original source document; providing a source document; and a format substantially similar to the facsimile message of the original source document. Displaying the restored source document in a mat.