JP3674257B2 - Document information transmission system and document information transmission apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention includes, for example, a transmission device that transmits document information including characters or images created by a personal computer or the like, and a reception device that receives the document information transmitted from the transmission device and displays the document information on a display unit. The present invention relates to a document information transmission system. The present invention also relates to a document information transmitting apparatus that transmits the document information.
[0002]
[Prior art]
  In order to transmit document information including characters or images to another person, a method of recording characters or images on a sheet and distributing the sheet to others is common. For example, when a meeting is held, a person in charge uses a personal computer or the like to create a document that describes sentences and graphs related to the contents of the meeting, prints this document on paper, and uses this paper as meeting material to participate in the meeting. Distribute Thereby, the person in charge can transmit the content of the meeting to the participants of the meeting.
[0003]
[Problems to be solved by the invention]
  However, as described above, the method of transmitting document information via paper has a problem that it is troublesome and cumbersome because a document created by a personal computer or the like must be printed on the paper. For example, if there are a large number of participants in a conference, the person in charge must duplicate a large number of conference materials. For this reason, there is a problem that labor, time and labor which must be spent on printing, editing or sorting of meeting materials are large.
[0004]
  On the other hand, recently, a method for transmitting the document information between computers by using a transmission means such as a LAN (Local Area Network) is known. For example, when a meeting is held, a person in charge creates a meeting material using a personal computer or the like, and transmits the meeting material from the personal computer to the personal computer used by the meeting participants via the LAN. Can do. By adopting such a method, it is possible to save the trouble of printing a document on paper.
[0005]
  However, in order to construct a LAN, it is necessary to install a large number of computers having a relatively complicated mechanism such as a workstation or a personal computer, a large power consumption, and a high price. As a result, there is a problem that an increase in power consumption, an increase in facility funds, and the like are caused.
[0006]
  In addition, participants in the conference need to bring a personal computer at the conference, but it is virtually impossible to move a personal computer other than a notebook computer at each conference. For this reason, it is necessary for the participants themselves to print and bring the conference materials, and there remains a problem that the labor, time, and labor of the participants increase.
[0007]
  The present invention has been made in view of the above-described problems, and can eliminate the trouble of printing document information consisting of characters or images on paper, and can easily and inexpensively transmit document information. An object of the present invention is to provide an information transmission system and a document information transmission apparatus.
[0008]
[Means for Solving the Problems]
  In order to solve the above-described problem, the invention of claim 1 is a transmission device that transmits document information in which characters or images are recorded in units of pages, and receives and displays the document information transmitted from the transmission device. A document information transmission system comprising a receiving device, wherein the sending device comprises document information comprising a plurality of pages.Each page is divided into a plurality of blocks, and the document information is divided into blocks.A transmission unit configured to repeatedly transmit, wherein the reception device designates at least one page of document information from among a plurality of pages of document information transmitted by the transmission unit of the transmission device; and the transmission of the transmission device Receiving means for receiving at least one page of document information designated by the designation means among document information consisting of a plurality of pages transmitted by the means; and a display area capable of simultaneously displaying the at least one page of document information. And a display unit for displaying the document information received by the receiving unit on the display unit.
[0009]
  With the above configuration, the receiving apparatus receives at least one page of document information designated by the designation unit of the receiving apparatus from among the plurality of pages of document information transmitted by the transmitting apparatus, and displays the received document information on the display unit. The display unit of the receiving apparatus has a display area capable of displaying at least one page of document information at the same time, and displays at least one page of received document information at a time (simultaneously) in this display area.
[0010]
  Further, since the transmission unit of the transmission apparatus repeatedly transmits document information including a plurality of pages, the reception apparatus can receive the document information many times. Thus, even when an error occurs during transmission / reception and the document information transmitted from the transmission device cannot be normally received, the reception device receives the document information repeatedly transmitted from the transmission device, and receives one page. Document information can be completely received and displayed.
0011]
[0012
  Also,Errors that occur during transmission and reception can be corrected in units of blocks, and document information can be transmitted efficiently and accurately.
[0013]
  Claim2When transmitting document information in block units by the transmitting means of the transmitting device, each time one block is transmitted, each block is transmitted so that a block belonging to a page different from the page to which the previously transmitted block belongs is transmitted. Controls the transmission order of blocks.
[0014]
  For example, if the document information is composed of three pages, first, one block belonging to the first page is transmitted, then one block belonging to the second page is transmitted, and then the third page is transmitted. Send one block to which it belongs. In this way, if the transmission order of each block is controlled so that a block belonging to a page different from the page to which the previously transmitted block belongs is transmitted, each page of document information consisting of a plurality of pages can be transmitted evenly. The characters or images recorded in the can be transmitted substantially simultaneously.
[0015]
  Claim3According to the present invention, the reception apparatus includes a reception determination unit that determines whether there is a block that cannot be normally received in the document information for at least one page received by the reception unit, and the reception determination unit. As a result of the determination, when there is a block that cannot be normally received in at least one page of document information, the designation of the receiving device among the document information consisting of a plurality of pages repeatedly transmitted by the transmitting means of the transmitting device And a re-receiving means for receiving again at least one page of document information designated by the means.
[0016]
  Thereby, the same document information as the document information for one page received last time can be received again, and the block that could not be normally received last time can be received again. Therefore, even when an error occurs during transmission / reception of document information, this error can be easily eliminated, and document information for one page can be completely acquired.
[0017]
  Claim4The present invention is a document information transmission system comprising a transmitting device that transmits document information in which characters or images are recorded in page units, and a receiving device that receives and displays the document information transmitted from the transmitting device. The transmission device receives at least one page of document information.The document information is divided into a plurality of blocks and the document information is divided into the blocks.A display unit including a transmitting unit that repeatedly transmits, the receiving device receiving a document information transmitted by the transmitting unit of the transmitting device, and a display area capable of simultaneously displaying at least one page of document information; And display means for displaying document information for at least one page received by the receiving means on the display section.
[0018]
  With the above configuration, the receiving apparatus receives at least one page of document information transmitted from the transmitting apparatus and displays it on the display unit. The display unit of the receiving apparatus has a display area capable of displaying at least one page of document information at the same time, and displays at least one page of received document information at a time (simultaneously) in this display area.
[0019]
  Further, since the transmission unit of the transmission apparatus repeatedly transmits at least one page of document information, the reception apparatus can receive this document information many times. Thus, even when an error occurs during reception and the document information transmitted from the transmission device cannot be normally received, the reception device receives the document information repeatedly transmitted from the transmission device, and receives one page. Document information can be completely acquired and displayed.
0020]
[[0021]
Also,Errors that occur during transmission and reception can be corrected in units of blocks, and document information can be transmitted efficiently and accurately.
[0022]
  Claim5According to the present invention, the reception apparatus includes a reception determination unit that determines whether there is a block that cannot be normally received in the document information for at least one page received by the reception unit, and the reception determination unit. As a result of the determination, when there is a block that cannot be normally received in at least one page of document information, a re-receiving unit that receives again at least one page of document information that has been repeatedly transmitted by the transmission unit of the transmission device It is in having prepared.
[0023]
  Thereby, the same document information as the document information for one page received last time can be received again, and the block that could not be normally received last time can be received again. Therefore, even when an error occurs during transmission / reception of document information, this error can be easily eliminated, and document information for one page can be completely acquired.
[0024]
  Claim6According to the invention, when the document information is constituted by a character string by the transmission means of the transmission device, the number of characters constituting the one block is smaller than the number of characters for one line of the page. The information is divided.
[0025]
  As a result, the transmission device transmits the document information for each block composed of a character string having a number smaller than the number of characters for one line of the page, and the reception device receives the document information in units of blocks. At this time, even if an error occurs during transmission and reception, the receiving apparatus cannot normally receive the document information for one block, and the document information for one block is not displayed on the display unit, the number of characters constituting one block Is smaller than the number of characters for one line of the page, so there are few characters that are not displayed on the display unit. Therefore, it is possible to suppress the influence of the error during transmission / reception on the contents of the document information displayed on the display unit of the receiving apparatus.
[0026]
  Claim7In the invention, when the document information is constituted by bitmap data by the transmission means of the transmission device, the number of bits of the bitmap data constituting the one block is equal to that of the bitmap data constituting one line of the page. The document information is divided so as to be an integral multiple of the number of bits.
[0027]
  As a result, an error occurs during transmission / reception, and even when the receiving apparatus cannot receive the document information for one block normally and the document information for one block is not displayed, the display unit of the receiving apparatus has an elongated streak shape. It is only enough to form blanks and lines. Therefore, it is possible to reduce the influence of errors during transmission and reception on the document information displayed on the receiving apparatus.
[0028]
  Claim8In the invention, the receiving device includes storage means having a minimum storage capacity necessary for storing at least one page of document information, and the display means receives the document information received by the receiving means. The document information is stored in the storage means and the stored document information is displayed on the display unit.
[0029]
  Thereby, the receiving apparatus can display document information for one page at a time on the display unit, and can realize such a display function with a minimum necessary configuration.
[0030]
  Claim9According to the present invention, in the receiving apparatus, after the document information is received by the receiving means, a power supply stopping means for stopping power supply to the receiving means, and a power supply to the receiving means by the power supply stopping means. A power supply restarting means for supplying power to the receiving means and a power supply to the receiving means by the power supply restarting means while the power supply is being supplied to the receiving means every predetermined time after the stop. Display update means for displaying the received document information on the display unit when the received document information is different from the previously received document information.
[0031]
  Thereby, after the document information is normally received once, the power supply stopping unit stops the power supply to the receiving unit, so that the power consumption of the receiving apparatus can be reduced. When the power supply restarting means periodically supplies power to the receiving means and the document information is updated, the display update means displays the updated document information, so that the latest document information is always obtained. can do.
[0032]
  Claim10The document information transmitting apparatus transmits document information including a plurality of pages on which characters or images are recorded, and each page of the document information including the plurality of pages is divided into a plurality of blocks. The transmission order of each block is controlled so that the document information is transmitted in units of blocks, and each time one block is transmitted, a block belonging to a page different from the page to which the previously transmitted block belongs is transmitted. It is in the configuration to do.
[0033]
  As a result, errors that occur during transmission and reception can be corrected in units of blocks, document information can be transmitted efficiently and accurately, and each page of document information consisting of multiple pages can be transmitted evenly. The characters or images recorded on each page can be transmitted substantially simultaneously.
[0034]
  Claim11In the document information transmitting apparatus, when the document information is composed of character strings, the number of characters constituting one block is smaller than the number of characters for one line of the page. The information is divided.
[0035]
  As a result, the transmission apparatus transmits the document information to the reception apparatus for each block composed of a character string having a number smaller than the number of characters for one line of the page. At this time, an error occurs during transmission / reception, and even when the receiving apparatus cannot normally receive the document information for one block and the document information for one block is not displayed, the number of characters constituting one block is the number of pages. Since the number is smaller than the number of characters for one line, the number of characters not displayed is very small. Therefore, it is possible to suppress the influence of errors during transmission / reception on the document information displayed on the receiving apparatus.
[0036]
  Claim12In the document information transmitting apparatus, when the document information is composed of bitmap data, the number of bits of the bitmap data constituting the one block is equal to the number of bits of the bitmap data constituting one row of the page. The document information is divided so as to be an integer multiple of the number.
[0037]
  As a result, the transmitting device sends the document information to the receiving device for each block configured such that the number of bits of the bitmap data is an integral multiple of the number of bits of the bitmap data constituting one line of the page. Send. At this time, even when an error occurs during transmission / reception, the receiving apparatus cannot normally receive the document information for one block, and the document information for one block is not displayed, the display unit of the receiving apparatus has an elongated streak shape. It is only enough to form blanks and lines. Therefore, it is possible to suppress the influence of errors during transmission / reception on the document information displayed on the receiving apparatus.
[0038]
DETAILED DESCRIPTION OF THE INVENTION
  Embodiments of the present invention will be described below with reference to FIGS. In the present embodiment, a document information transmission system and a document information transmission apparatus according to the present invention will be described by taking a viewer system and a transmission apparatus used therefor as examples.
[0039]
(1) Viewer system configuration
  As shown in FIG. 1, a viewer system 100 as a document information transmission system uses a frequency hopping method to transmit document information composed of characters or images, and the document information transmitted from the transmission device 200. And a viewer 300 as a receiving device that receives and displays and reproduces the received document information.
[0040]
  Here, the configuration of transmitting apparatus 200 will be described. As shown in FIG. 2, the transmitting apparatus 200 is connected to a personal computer 210 that generates document information and the document information generated by the personal computer 210 to transmission data D (see FIG. 7) described later. The transmission unit 220 converts the transmission data D, modulates, spreads, and amplifies the transmission data D to generate a spread signal, and a transmission antenna 230 that is provided in the transmission unit 220 and transmits the spread signal.
[0041]
  Furthermore, the transmission unit 220 includes a transmission control unit 240 and a transmission unit 250 as shown in FIG. The transmission control unit 240 converts document information generated by the personal computer 210 into transmission data D having a data format as shown in FIG. 7 and outputs the transmission data D to the transmission unit 250. The configuration of the transmission data D will be described later.
[0042]
  Here, the transmission control unit 240 is provided with a storage circuit (not shown) that stores various programs for controlling the transmission device 200. The storage circuit stores a transmission program for performing document information transmission processing, and the transmission control unit 240 performs document information transmission processing based on the transmission program. The document information transmission process will be described later. The transmission control unit 240 also has a function of performing error detection and correction processing on the transmission data D. Further, as shown in FIG. 3, the transmission control unit 240 is provided with a hopping table 241 in which frequency data corresponding to the spread code is recorded, and the hopping table 241 is connected to the PLL circuit 254.
[0043]
  On the other hand, the transmitter 250 includes a modulator 251, an up-converter 252, a power amplifier 253, and a PLL (Phase Locked Loop) circuit 254, as shown in FIG. The modulator 251 receives the transmission data D output from the transmission control unit 240, modulates the transmission data D, and generates a modulated signal. Further, the up-converter 252 and the PLL circuit 254 use the hopping table 241 provided in the transmission control unit 240 to spread the modulated signal by a frequency hopping method to generate a spread signal. More specifically, as shown in FIG. 4, frequency data (f0, f1, f2,...) Corresponding to a predetermined spreading code is recorded in the hopping table 241. Here, the spreading code is a code that can form a hopping pattern suitable for spreading using a frequency hopping method, such as a PN code (pseudo-noise code), and more specifically M Sequence code and the like. The frequency data is randomly arranged based on these spreading codes. The frequency data is data specifying the oscillation frequency of the PLL, and can be directly input to the PLL circuit 254, and corresponds to the oscillation frequency of the PLL circuit 254 at 1: 1.
[0044]
  The frequency data recorded in the hopping table 241 is input to the PLL circuit 254. As a result, a signal whose frequency changes corresponding to the frequency data is output from the PLL circuit 254 toward the up converter 252. The up-converter 252 changes (hops) the carrier frequency of the modulation signal output from the modulator 251 based on the signal output from the PLL circuit 254 to generate a spread signal. Further, power amplifier 253 amplifies the spread signal output from up converter 252 and outputs the amplified signal to transmitting antenna 230.
[0045]
  Next, the configuration of the viewer 300 will be described. As shown in FIG. 5, the viewer 300 performs despreading and demodulation on the received spread signal and the reception antenna 310 as a reception unit that receives the spread signal transmitted from the transmission device 200, and converts the original transmission data D into A receiving unit 320 to be restored, an error correction and the like for the transmission data D, a reception control unit 330 for extracting document information from the transmission data D, and a storage circuit 341 for storing the document information extracted by the reception control unit 330 And a display control unit 340 that controls display switching, a liquid crystal panel, and the like, a display unit 350 that displays document information, and a display switching command, page designation, and the like are input to the display control unit 340 An input unit 360.
[0046]
  Furthermore, as shown in FIG. 6, the reception unit 320 includes a low noise amplifier 321, a down converter 322, a demodulator 323, and a PLL circuit 324. The low noise amplifier 321 amplifies the spread signal received by the receiving antenna 310. Then, the down converter 322 and the PLL circuit 324 use the hopping table 331 provided in the reception control unit 330 to despread the spread signal amplified by the low noise amplifier 321 to generate a despread signal. More specifically, in the hopping table 331, the same frequency data as the frequency data recorded in the hopping table 241 provided in the transmission device 200 is recorded. The frequency data recorded in the hopping table 331 is input to the PLL circuit 324. As a result, a signal whose frequency changes corresponding to the frequency data is output from the PLL circuit 324 toward the down converter 322. The down converter 322 despreads the spread signal output from the low noise amplifier 321 based on the signal output from the PLL circuit 324 to generate a despread signal. Further, the demodulator 323 demodulates the despread signal and restores the transmission data D.
[0047]
  Further, the reception control unit 330 performs error correction or the like on the transmission data D output from the reception unit 320, then extracts document information from the transmission data D, and stores the document information in the storage circuit 341 of the display control unit 340. To remember. Here, the reception control unit 330 is provided with a storage circuit (not shown) in which various programs for controlling the viewer 300 are stored. The storage circuit stores a reception program for performing document information reception processing. When the reception control unit 330 stores the document information in the storage circuit 341 of the display control unit 340, the storage program is based on the reception program. Perform document information reception processing. The document information reception process will be described later. Furthermore, the reception control unit 330 also has a function of performing synchronization acquisition on the spread signal transmitted from the transmission device 200.
[0048]
  As shown in FIG. 5, the display control unit 340 includes a storage circuit 341 that stores the document information extracted by the reception control unit 330. The storage circuit 341 is configured by a rewritable storage element, and is a so-called VRAM (Video RAM) for displaying document information on the display unit 350. That is, the document information written in the storage circuit 341 is displayed on the display unit 350 as it is. The storage circuit 341 is a relatively small-capacity storage circuit having a minimum storage capacity for recording document information that can be displayed at the same time (simultaneously) in the display area 351 of the display unit 350. is there. In this manner, the storage circuit 341 can be made inexpensive by setting the storage capacity of the storage circuit 341 to a minimum capacity necessary for storing document information for one screen of the display unit 350.
[0049]
  As shown in FIG. 1, the display unit 350 has a display area that can display document information at a normal scale for one page at a time (simultaneously). For example, the display unit 350 has substantially the same area as an A4 size sheet.
[0050]
  As shown in FIG. 1, the input unit 360 has a plurality of switches disposed on the viewer body 301. When the receiver operates these switches, a signal corresponding to the switches is input to the display control unit 340. The display control unit 340 controls display switching of the display unit 350 and the like.
[0051]
(2) Structure of document information and transmission data
  Next, document information and transmission data D generated by the transmission apparatus 200 will be described with reference to FIGS. 7, 12, 13, and 15. FIG.
[0052]
  FIG. 12 shows, for example, document information N1, N2, and N3 consisting of three pages. As described above, the document information N1, N2, and N3 is information in which characters or images are recorded in units of pages, and is generated by, for example, a word processor program or a graphic creation program of the personal computer 210. Here, “page” means one division when document information is divided in an appropriate amount unit. For example, when document information is printed on A4 size paper, it is divided by the area of the paper. Means one break.
[0053]
  The document information is data generated by the personal computer 210, and the data format differs depending on whether the information included in the document information is text or image, as will be described below. That is, in the case of document information consisting only of characters, the document information is text data (characters) consisting of ASCII code (US standard code for information exchange), JIS code or EBCDIC code (extended binary code). Data). On the other hand, in the case of document information including an image, it is composed of bitmap data.
[0054]
  When document information is transmitted from the transmission apparatus 200 to the viewer 300, the document information is divided into a plurality of blocks a for each page and transmitted in units of blocks, as shown in FIGS. . Here, when the document information is text data, as shown in FIG. 13, the number of characters constituting one block a is divided so as to be smaller than the number of characters for one line of each page of the document information. The When the document information is graphic data (bitmap data), as shown in FIG. 15, the number of bits of bitmap data constituting one block is a bit constituting one line (line element) of the page. The map data is divided so as to be an integer multiple of the number of bits. The document information may be divided so that the number of bits of bitmap data constituting one block is equal to or less than the number of bits of bitmap data constituting one line (line element) of the page.
[0055]
  Further, when document information is transmitted from the transmission apparatus 200 to the viewer 300, each block a constituting the document information is converted into transmission data D having a plurality of frames F and hopping slots H as shown in FIG. Is done. Each frame F in the transmission data D includes a header S1 and a document data area S2.
[0056]
  Here, the hopping slot H is an area for securing a frequency transition time when the transmission data D is spread for each frame F by the frequency hopping method. That is, the document information is converted into transmission data D, modulated by the modulator 251, and spread by the up-converter 252 and the PLL circuit 254 using a frequency hopping method. At this time, the up converter 252 and the PLL circuit 254 perform spreading by hopping the frequency for each frame F of the transmission data D. As a result, the up-converter 252 or the PLL circuit 254 must change the frequency for each frame F. Therefore, by providing a hopping slot H between adjacent frames F, the frequency transition time is secured, and the oscillation frequency of the up converter 252 or the PLL circuit 254 is stabilized.
[0057]
  The header S1 includes an ID of the viewer 300 that receives the transmission data D, a synchronization signal for synchronizing the transmission device 200 and the viewer 300, page information indicating the page number of the page to which the frame F belongs, Block information indicating various blocks to which the frame F belongs and various control information are recorded. Here, the control information is information indicating whether or not the frame F is transmitted in the page designation transmission mode, information indicating whether or not the contents of the character or image recorded on the page to which the frame F belongs, Information indicating the display format of the page to which the frame F belongs, information indicating whether the data recorded in the document data area S3 of the frame F is text data or graphic data, information indicating the page size of the page to which the frame F belongs, etc. It is.
[0058]
  Further, text data or graphic data indicating characters or images is recorded in the document data area S2. When the reception control unit 330 of the viewer 300 extracts the document information from the despread transmission data D and records it in the storage circuit 341 of the display control unit 340, it is recorded in the document data area S2 of the transmission data D. Data is extracted and stored in the storage circuit 341.
[0059]
(3) Document information transmission processing
  Next, document information transmission processing executed by the transmission control unit 240 of the transmission apparatus 200 will be described with reference to the flowchart of FIG.
[0060]
  When the sender operates the personal computer 210 to transmit the document information generated by the personal computer 210 of the transmission apparatus 200, the document information generated by the personal computer 210 is output from the personal computer 210 to the transmission control unit 240. The At this time, the transmission control unit 240 activates the transmission program stored in the storage circuit of the transmission control unit 240. Thereby, the document information transmission process described below starts.
[0061]
  That is, in step 1, power is supplied to the transmission unit 250 that has been turned off until now, and the transmission unit 250 is turned on.
[0062]
  In step 2, the control information output from the personal computer 210 is read, and it is determined whether it is “page designation transmission mode” or “all page transmission mode”.
[0063]
  Here, the “page designation transmission mode” is a mode in which the page number of the document information to be transmitted is designated on the transmission apparatus 200 side and the designated one page of document information is transmitted. In this mode, even when the document information covers a plurality of pages, only the specified one page of document information is transmitted from the transmission device 200. On the other hand, the “all page transmission mode” is a mode in which no page is specified and all pages of document information over a plurality of pages are transmitted.
[0064]
  In addition to the document information, the personal computer 210 outputs control information for controlling the document information. The control information includes the ID of the viewer 300 that transmits the document information, information about the page of the document information, information that indicates whether the document information is transmitted in the page designation transmission mode, information that indicates the display format of each page of the document information, Information indicating whether the document information is text data or graphic data, information indicating the page size of the document information, and the like. In step 2, based on the control information output from the personal computer 210, it is determined whether or not the document information to be transmitted is transmitted in the page designation transmission mode. As a result, when document information is transmitted in the page designation transmission mode, the process proceeds to step 3.
[0065]
  In step 3, when document information covers a plurality of pages, a page number to be transmitted is set from the document information of the plurality of pages. That is, when transmitting document information in the page designation transmission mode, the sender operates the personal computer 210 to set the page number of the document information to be transmitted. The page number is output from the personal computer 210 to the transmission control unit 240 as a control signal. In step 3, the page number to be transmitted is recognized based on this control information.
[0066]
  In step 4, the document information for one page corresponding to the page number set in step 3 is divided into a plurality of blocks a (see FIGS. 13 and 15), and the transmission data D as described above (see FIG. 7). ). At this time, the header S1 of each frame F constituting the transmission data D is generated based on control information output from the personal computer 210 or the like. The transmission data D converted in step 4 is modulated and spread by the transmission unit 250 and transmitted from the transmission antenna 230 to the viewer 300 in units of blocks.
[0067]
  In step 5, it is determined whether or not transmission of one page of document information (transmission data D) corresponding to the page number set in step 3 has been completed, and as a result, transmission of one page of document information has been completed. If not, the process returns to Step 4 and Steps 4 and 5 are repeated until the transmission of the document information for one page is completed.
[0068]
  In step 6, it is determined whether or not to end the document information transmission process. For example, when the viewer system 100 is stopped or when all the viewers 300 that receive document information transmitted from the transmission device 200 are in the hold state, the document information transmission processing by the transmission device 200 is terminated. In this case, the sender operates the personal computer 210 and inputs a command to end the document information transmission process by the transmission apparatus 200. Thereby, this command is transmitted from the personal computer 210 to the transmission control unit 240 as control information. Therefore, in step 6, it is determined whether or not to end the document information transmission process by the transmission apparatus 200 based on this control information.
[0069]
  If the document information transmission process is terminated as a result of the determination in step 6, the process proceeds to step 11, and the power of the transmission unit 250 is turned off in step 11. On the other hand, if the result of determination in step 6 is that document information transmission processing is not terminated, the routine proceeds to step 7.
[0070]
  In step 7, it is determined whether or not the page of document information to be transmitted has been changed. That is, when the sender operates the personal computer 210 to input a command for changing the page of document information to be transmitted, the command is output from the personal computer 210 to the transmission control unit 240 as a control signal. The Therefore, in step 7, it is determined whether or not the page of the document information to be transmitted has been changed based on this control signal.
[0071]
  If the page of the document information to be transmitted is changed as a result of the determination in step 7, the process proceeds to step 3, and a new page number is set in steps 3 to 5, and the new page number is handled. One page of document information is transmitted.
[0072]
  On the other hand, if the page of the document information to be transmitted has not been changed as a result of the determination in step 7, the process proceeds to step 4 and the document information of the same page is repeatedly transmitted by the processing in steps 4 and 5.
[0073]
  On the other hand, if the result of determination in step 2 is not the page designation transmission mode, that is, the all-page transmission mode, the routine proceeds to step 8.
[0074]
  In step 8, all pages of document information over a plurality of pages are transmitted. That is, the document information over a plurality of pages is divided into a plurality of blocks a, converted into transmission data D, and output to the transmission unit 250. Thus, the transmission data D is modulated and spread by the transmission unit 250 and transmitted from the transmission antenna 230 to the viewer 300 in units of blocks. At this time, the transmission order of each block is controlled by a transmission order control process. The transmission order control process will be described later.
[0075]
  In step 9, it is determined whether or not all pages of document information covering a plurality of pages have been transmitted. As a result, when all pages of document information are not transmitted, the process returns to step 8 and steps 8 and 9 are repeated until all pages of document information are transmitted. On the other hand, when all pages of the document information have been transmitted, the process proceeds to step 10 and it is determined whether or not the document information transmission process is to be terminated as in step 6 described above.
[0076]
  If the document information transmission process is not terminated as a result of the determination in step 10, the process returns to step 8 to repeatedly transmit document information over a plurality of pages. On the other hand, when the document information transmission process is terminated, the power of the transmission unit 250 is turned off in step 11 and the document information transmission process is terminated.
[0077]
  As described above, according to the document information transmission process, in the page designation transmission mode, the transmission apparatus 200 determines that 1 unless the sender inputs a command to the personal computer 210 to end the document information transmission process. The document information for the page is continuously transmitted to the viewer 300 repeatedly. In particular, when the page number of the document information to be transmitted is not changed, the transmission apparatus 200 continues to transmit the document information of the same page to the viewer 300 repeatedly.
[0078]
  On the other hand, in the all-page transmission mode, the transmitting apparatus 200 displays all pages of document information over a plurality of pages unless the sender inputs an instruction to end the document information transmission processing to the personal computer 210. Continue to send repeatedly to 300.
[0079]
(4) Document information reception processing
  Next, document information reception processing executed by the reception control unit 330 of the viewer 300 will be described with reference to the flowcharts of FIGS.
[0080]
  When the receiver starts the viewer 300 to obtain document information transmitted from the transmission apparatus 200, the power supply of the reception control unit 330 is turned on, and the reception program stored in the storage circuit of the reception control unit 330 is activated. Thereby, the document information receiving process described below starts.
[0081]
  That is, in step 21 in FIG. 9, the power is supplied to the receiving unit 320 that has been turned off until now, and the receiving unit 320 is turned on. Thereby, the reception unit 320 receives the spread signal transmitted from the transmission device 200. At this time, the reception control unit 330 acquires synchronization based on the spread signal received by the reception unit 320 and establishes synchronization with the transmission apparatus 200. Thereafter, the receiving unit 320 despreads and demodulates the received spread signal to restore the original transmission data D. Then, the transmission data D is input to the reception control unit 330.
[0082]
  In step 22, the contents of the header S1 of each frame F constituting the transmission data D are checked, and whether the document information (transmission data D) is transmitted in the “page designated transmission mode” or “all page transmission mode”. Determine. If the document information is transmitted in the “page designation transmission mode” as a result of the determination in step 22, the process proceeds to step 23 in FIG.
[0083]
  In step 23 in FIG. 10, the document information transmitted from the transmitting apparatus 200 is received for one block. More precisely, the reception unit 320 restores the transmission data D based on the spread signal transmitted from the transmission device 200, and the reception control unit 330 restores the document data area S2 of each frame F constituting the transmission data D. 1 block is extracted from the document information recorded in.
[0084]
  In step 24, it is determined whether or not there is an error in the document information for one block received in step 23. If there is no error as a result of the determination in step 24, the document information for one block is written in the storage circuit 341 of the display control unit 340 in step 25. When document information is written in the storage circuit 341, the written document information is displayed on the display unit 350.
[0085]
  On the other hand, if there is an error as a result of the determination in step 24, the document information for one block is not written in the storage circuit 341 but is discarded in step 26. As a result, an unwritten area is formed in the memory circuit 341. In this case, a blank b is displayed on the display unit 350 as shown in FIG.
[0086]
  Here, FIG. 13 to FIG. 15 respectively show document information N1 (left side) for one page when all the blocks are normally received, and an error occurs during reception, and the blocks cannot be partially received. The document information N1 ′ (right side) for one page is shown. 13 and 14 show the case where the document information is text data, and FIG. 15 shows the case where the document information is graphic data.
[0087]
  That is, when an error occurs during reception and one block of document information composed of text data cannot be received, one block that cannot be received is blank b as shown in FIG. Here, as described above, when document information composed of text data is transmitted by the transmission device 200, the number of characters constituting one block a is greater than the number of characters for one line of each page of the document information. It is divided so that it becomes a small number. Thereby, even if a blank b for one block is formed in the document information due to a reception error, the area of the blank b is small and fits within one line of the document information. Therefore, even if a reception error occurs, the recipient can understand the contents of the document information by looking at the entire page of the document information.
[0088]
  If there is document information written last time in the storage circuit 341, as shown in FIG. 14, the document information written last time (hereinafter referred to as “previous information c”) remains without being rewritten. . In this case, the previous information c is displayed on the display unit 350. At this time, not only the previous information c is displayed, but also the color or font of the previous information c is changed, or the previous information c is underlined to notify the receiver of the occurrence of the error. It may be.
[0089]
  Furthermore, when an error occurs during reception and one block of document information made up of graphic data cannot be received, the one block that could not be received becomes a blank b as shown in FIG. Here, as described above, when document information consisting of graphic data is transmitted by the transmission apparatus 200, the number of bits of bitmap data constituting one block is one line (line element) of the page. Is divided so as to be an integral multiple of the number of bits of the bitmap data constituting the. Thus, even if a blank b for one block is formed in the document information due to a reception error, the area of the blank b is small, and a thin blank streak is formed in the document information. Therefore, even if a reception error occurs, the recipient can understand the contents of the document information by looking at the entire page of the document information.
[0090]
  In step 27 in FIG. 10, it is determined whether or not all the document information for one page has been received. As a result, when all the document information for one page has not been received, the process returns to step 23 and the processing of step 23 to step 27 is repeated until all the document information for one page is received.
[0091]
  Subsequently, in step 28, it is determined whether or not the document information for one page transmitted from the transmission apparatus 200 has been completely written in the storage circuit 341 of the display control unit 340 by the processing in steps 23 to 27. . In other words, if there is no error during the reception of the document information for one page by the processing of step 23 to step 27, the received document information is completely written in the storage circuit 341. However, if there is an error while receiving document information for one page, a portion that is not written in the storage circuit 341 occurs. Therefore, in step 28, it is checked whether or not the document information for one page has been completely written in the storage circuit 341. If there is a portion that is not written in the storage circuit 341, it is determined that there is an error during reception. Returning to step 23, the processing of step 23 to step 27 is repeatedly executed.
[0092]
  Here, the transmission apparatus 200 repeatedly transmits document information for one page. Therefore, if there is an error while the viewer 300 receives one page of document information, the document information can be received again.
[0093]
  On the other hand, when the viewer 300 has completely received the document information for one page repeatedly transmitted from the transmission device 200 and the storage circuit 341 of the display control unit 340 is completely written, “YES” is determined in step 28. Then, the process proceeds to step 29. At this time, since the document information for one page is completely written in the storage circuit 341, the document information for one page is completely and accurately displayed on the display unit 350. That is, even if an error occurs during the first reception and a blank b or the like is formed as in the document information N1 shown on the right side in each of FIGS. 13 to 15, the processing of step 23 to step 27 is repeatedly executed. By receiving the document information having the same contents a plurality of times, the error can be solved, and the document information for one page can be completely displayed as shown on the left side in FIGS.
[0094]
  In step 29, the power of the demodulator 321, the down converter 322, and the low noise amplifier 323 of the receiving unit 320 is turned off, and a so-called sleep state is set. Thereby, power consumption can be reduced. Even in the sleep state, the power of the PLL circuit 324 is kept on. As a result, the oscillation frequency of the PLL circuit 324 can be stabilized, and synchronization acquisition becomes easy when the sleep state is released.
[0095]
  In step 30, it is determined whether to hold the viewer 300 or end the document information reception process. Here, “hold” is to turn off the power of the reception unit 320, the reception control unit 330, etc. in a state where the received document information is displayed on the display unit 350. To specify the hold, the input unit 360 of the viewer 300 is operated. When the viewer 300 is held, the display of the display unit 350 can be fixed and power consumption can be minimized. When the viewer 300 is to be held or the document information reception process is terminated, the process proceeds to step 49 in FIG.
[0096]
  In step 31, it is determined whether or not a predetermined time has elapsed since the viewer 300 is in the sleep state in step 29. If the predetermined time has not elapsed, the process returns to step 29 to maintain the sleep state. On the other hand, when the predetermined time has elapsed, in step 32, the viewer 300 is woken. That is, the power sources of the demodulator 321, the down converter 322, and the low noise amplifier 323 of the receiving unit 320 are turned on. In step 33, the document information transmitted from the transmission apparatus 200 is received.
[0097]
  In step 34, it is determined whether or not the page number of the document information transmitted from the transmission apparatus 200 has been changed, or whether the content of the document information transmitted from the transmission apparatus 200 has been changed. As a result, when the page number or the content of the document information transmitted from the transmission apparatus 200 is changed, the process returns to step 23, and the changed document information for one page is received and displayed on the display unit 350. On the other hand, if the page number or the content of the document information transmitted from the transmission apparatus 200 has not been changed as a result of the determination in step 34, the process returns to step 29. As a result, the viewer 300 enters the sleep state again. Note that whether or not the content of the document information transmitted from the transmission device 200 has been changed is recorded in the header S1 of each frame F constituting the transmission data D. Therefore, by examining the content of these headers S1, Can be recognized.
[0098]
  As described above, the processing of Step 29 to Step 34 causes the viewer 300 to wake periodically at predetermined time intervals, and only when the document information displayed on the display unit 350 of the viewer 300 is changed. In other cases, a sleep state is mainly entered.
[0099]
  On the other hand, if the document information is transmitted in the “all page transmission mode” from the transmission apparatus 200 as a result of the determination in step 22 in FIG. 9, the process proceeds to step 35.
[0100]
  In step 35, the reception page is set by the input unit 360 of the viewer 300. That is, the receiver operates a switch provided on the viewer body 301 of the viewer 300 to set the page number of the document information to be displayed on the viewer 300.
[0101]
  In step 36, the document information of the page number set in step 35 is received. Here, the transmission apparatus 200 transmits the document information in the all page transmission mode. In other words, the transmission device 200 repeatedly transmits all pages of document information over a plurality of pages. Therefore, the viewer 300 recognizes the page number of the document information transmitted from the transmission device 200 and receives the document information only when the page number matches with the page number set in step 35. More precisely, the reception control unit 330 receives the transmission data D for one block from the reception unit 320, examines the header S1 of each frame F included in the transmission data D for one block, and each frame F Recognize the page number of the page to which it belongs. When the recognized page number matches the page number input by the receiver using the input unit 360, the document information recorded in the document data area S2 of each frame F is extracted for one block.
[0102]
  In step 37, it is determined whether or not there is an error in the document information for one block received in step 36. As a result, if there is no error, the received document information for one block is displayed in step 38 in step 38. Write to the memory circuit 341 of 340. As a result, the received document information for one block is displayed on the display unit 350. On the other hand, if there is an error in receiving the document information for one block as a result of the determination in step 37, the document information is discarded without being written in the storage circuit 341 in step 39. Thus, since an unwritten area is formed in the storage circuit 341, a blank is displayed on the display unit 350, or document information (previous information) written in the previous time is displayed.
[0103]
  In step 40, it is determined whether or not the receiver has changed the page number of the document information to be displayed on the viewer 300 by operating the input unit 360 of the viewer 300. As a result of the determination in step 40, when the receiver changes the page number, the process returns to step 35 to perform reception again, and when not changed, the process proceeds to step 41.
[0104]
  In step 41, it is determined whether or not reception of one page of document information set in step 35 is completed among the plurality of pages of document information transmitted from the transmission apparatus 200. If the content of the document information is changed during reception, it is determined whether or not reception of the changed document information is completed. Here, whether or not the content of the document information transmitted from the transmission device 200 has been changed can be recognized by examining the content of the header S1 of each frame F constituting the transmission data D. If the reception of document information for one page is not completed as a result of the determination in step 41, the process returns to step 36, and the processes of steps 36 to 41 are performed until reception of the document information for one page is completed. The document information for one page is repeatedly written in the storage circuit 341.
[0105]
  In step 42, it is determined whether or not one page of document information has been completely written in the storage circuit 341 of the display control unit 340 in substantially the same manner as in step 28 described above. If the document information for one page is not completely written in the storage circuit 341 as a result of the determination in step 42, it means that an error has occurred during reception of the document information for one page. Therefore, the process proceeds to step 36, and the document information for one page specified in step 35 is received again.
[0106]
  Here, the transmission apparatus 200 repeatedly transmits document information for a plurality of pages on all pages. Therefore, if there is an error while the viewer 300 receives the specified page of document information, the specified page of document information can be received again.
[0107]
  On the other hand, when the viewer 300 has completely received one page of document information repeatedly transmitted from the transmission apparatus 200 and one page of this document information has been completely written to the storage circuit 341 of the display control unit 340, In step 42, “YES” is determined, and the routine proceeds to step 43. At this time, since the document information for one page is completely written in the storage circuit 341, the document information for one page is completely displayed on the display unit 350.
[0108]
  In step 43, as in step 29 described above, the power of the demodulator 321, the down converter 322, and the low noise amplifier 323 of the receiving unit 320 is turned off, and the viewer 300 is put in a so-called sleep state. In step 44, it is determined whether the viewer 300 is to be held or terminated.
[0109]
  In step 45, during the sleep state, the receiver operates the input unit 360 of the viewer 300 to determine whether or not the page number of the document information to be displayed on the viewer 300 has been changed. As a result, when there is a page change, sleep is canceled and the process proceeds to step 35, where the document information of the new page is received and displayed on the display unit 350.
[0110]
  In step 46, it is determined whether or not a predetermined time has elapsed since the viewer 300 is in the sleep state in step 43. If the predetermined time has not elapsed, the process returns to step 43 to maintain the sleep state. On the other hand, when the predetermined time has elapsed, in step 47, the viewer 300 is woken.
[0111]
  In step 48, whether the page number of the document information transmitted from the transmission apparatus 200 has been changed, whether the content of the document information transmitted from the transmission apparatus 200 has been changed, or the recipient has entered the input unit 360 of the viewer 300. To determine whether or not the page number of the document information to be displayed on the viewer 300 has been changed. As a result, when the page number or content of the document information is changed, the process returns to step 35, and the changed document information for one page is received and displayed on the display unit 350. On the other hand, if the page number or content of the document information has not been changed as a result of the determination in step 48, the process returns to step 43. As a result, the viewer 300 enters the sleep state again.
[0112]
  As described above, the processing of step 43 to step 48 causes the viewer 300 to wake periodically at predetermined time intervals, and only when the document information displayed on the display unit 350 of the viewer 300 is changed. Receives, otherwise goes to sleep.
[0113]
  On the other hand, when the viewer 300 is held or the document information reception process is ended as a result of the determination in step 30 or step 44, the process proceeds to step 49 in FIG. When the document information receiving process is to be ended, “YES” is determined in the step 50, and the document information receiving process is ended. On the other hand, when releasing the hold of the viewer 300, “YES” is determined in the step 51, and the process proceeds to the step 21 in FIG. As a result, the viewer 300 receives the document information transmitted from the transmission device 200 again.
[0114]
(5) Transmission order control process
  Next, transmission order control processing for controlling the transmission order of each block when the transmission apparatus 200 transmits document information in units of blocks will be described with reference to FIGS. 16 and 17.
[0115]
  As described above, in the document information transmission process executed by the transmission control unit 240 of the transmission apparatus 200, the document information is divided into blocks, and the document information is modulated, spread, and transmitted in units of blocks (FIG. 8). Step 4 or Step 8). At this time, the order in which the blocks are transmitted is controlled by a transmission order control process executed by the transmission control unit 240.
[0116]
  According to this transmission order control process, there are three patterns in the transmission order of each block.
[0117]
  First, as shown in FIG. 16, in the first pattern, each block of document information is transmitted in order from the beginning to the end of the document information. Therefore, in the first pattern, for example, first, the document information N1 of the first page is transmitted continuously for one page, and then the document information N2 of the second page is transmitted continuously for one page. In addition, the document information N3 of the third page is continuously transmitted for one page.
[0118]
  Next, as shown in FIG. 17, the second pattern controls the transmission order of each block so that each time one block is transmitted, a block belonging to a page different from the page to which the previously transmitted block belongs is transmitted. It is. Accordingly, in the second pattern, for example, first the first block of the first page of document information N1 is transmitted, and then the first block of the second page of document information N2 is transmitted. Subsequently, the first block at the top of the document information N3 on the third page is transmitted, and then the second block of the document information N1 on the first page is transmitted. As described above, since the page is changed every time one block is transmitted, the document information of each page is substantially transmitted at substantially the same time. Therefore, when document information over a plurality of pages is transmitted in the second pattern, the viewer 300 can quickly receive the document information of the set pages regardless of which of the plurality of pages is to be received. can do.
[0119]
  Next, the third pattern is transmitted from the transmission device 200 to the viewer 300 in the first pattern until a predetermined time elapses after the transmission of the document information is started, and after the predetermined time elapses, Transmitting in the second pattern.
[0120]
  Thus, according to the viewer system 100 according to the present embodiment, document information in which characters or images are recorded in units of pages is transmitted by the transmission device 200, and the document information transmitted from the transmission device 200 is transmitted by the viewer 300 for one page. Since it is configured to receive, the sender can easily transmit the document information, and the receiver can easily check the transmitted document information in units of pages.
[0121]
  Therefore, for example, when the viewer system 100 is used for a meeting or the like, it is possible to eliminate the sheet on which the contents of the meeting are printed. Thereby, the person in charge of the meeting can save the trouble of printing the meeting material and sorting it to each participant, and the efficiency of the meeting can be improved.
[0122]
  In addition, since the viewer 300 is provided with a display unit 350 that can display one page of normal-scale document information at a time, the document information has the same scale and layout as when document information is printed on paper. Can be displayed easily. Accordingly, the recipient can view the document information as if he / she viewed the paper on which the document information is printed, and can understand the contents of the document information accurately and quickly.
[0123]
  Further, according to the viewer system 100 according to the present embodiment, the transmission apparatus 200 repeatedly transmits document information for one page in the page designation transmission mode, and stores document information for a plurality of pages in the all page transmission mode. Since all the pages are repeatedly transmitted, even if an error occurs when the viewer 300 receives the document information transmitted from the transmission device 200, the viewer 300 simply receives the document information that has been repeatedly transmitted. The error can be eliminated and the document information for one page can be completely received. In particular, since the viewer system 100 transmits and receives document information by the frequency hopping method, the document information transmitted from the transmission apparatus 200 is transmitted by a carrier wave whose frequency pattern (hopping pattern) changes almost randomly. For this reason, the document information transmitted from the transmission device 200 for the first time and the document information transmitted for the second time are transmitted with different frequency patterns. Therefore, even if the reception state of some frequency bands is poor and an error occurs in a part of the document information at the first reception, the error can be resolved by the second reception. This is because, in the second reception, the document information of the part where the error has occurred is transmitted by a carrier wave having a frequency band different from that in the first reception.
[0124]
  Furthermore, according to the viewer system 100 according to the present embodiment, the viewer 300 is configured to receive only one page of document information from the document information transmitted from the transmission device 200 and display it on the display unit 350. The function of the viewer 300 can be greatly simplified, and the viewer 300 can be made inexpensive.
[0125]
  In particular, since the display control unit 340 of the viewer 300 is provided with a storage circuit 341 having a minimum storage capacity necessary for storing one page of document information of normal scale, the viewer 300 is manufactured at a lower cost. be able to.
[0126]
  In addition, the viewer 300 enters a sleep state after completing reception of document information for one page. The viewer 300 periodically wakes up every predetermined time and receives the document information only when the document information displayed on the display unit 350 is changed. Thereby, the power consumption of the viewer 300 can be reduced.
[0127]
  Furthermore, the viewer 300 can hold the document information displayed on the display unit 350. Thereby, the document information displayed on the display unit 350 can be fixed. Therefore, for example, if each viewer 300 is held after each of the plurality of viewers 300 receives document information of different pages, the document information over a plurality of pages can be displayed at a time by each viewer 300.
[0128]
  On the other hand, according to the viewer system 100 according to the present embodiment, when the document information is text data, when the document information is transmitted by the transmission device 200, the number of characters constituting one block a is the number of each page of the document information. When the document information is graphic data (bitmap data), the number of bits of the bitmap data constituting one block is 1 in the page. The line is divided so that it is an integral multiple of the number of bits of the bitmap data constituting the line (line element). As a result, an error occurs while the document information is being received by the viewer 300, and even if a blank b for one block is temporarily formed in the document information, the area of the blank b is small. Therefore, the receiver can easily grasp the contents of the document information by looking at the entire document information, and can reduce the influence of the reception error.
[0129]
  In the embodiment, the document information transmission process (see FIG. 8) executed by the transmission control unit 240 of the transmission apparatus 200 is a specific example of the transmission unit. Further, step 35 of the document information reception process (see FIGS. 9 to 11) executed by the reception control unit 330 of the viewer 300 is a specific example of the designation unit, and steps 23 and 36 are specific examples of the reception unit. . Further, step 25 and step 38 of the document information receiving process are specific examples of the display means.
[0130]
  In the embodiment, Steps 28 and 42 of the document information reception process executed by the reception control unit 330 of the viewer 300 are specific examples of the reception determination unit and the re-reception unit, and Steps 29 and 43 are the power supply. It is a specific example of a stop means. Further, step 32 and step 47 are specific examples of the power supply restarting means, and step 34 and step 48 are specific examples of the display update means.
[0131]
  In the above embodiment, the case where the transmission control unit 240 of the transmission apparatus 200 is provided with the hopping table 241 and the frequency spreading is performed using the hopping table 241 has been described as an example. Instead of the table 241, a spread code generation circuit for generating a PN code such as an M-sequence code or a spread RS code may be provided. Further, instead of the hopping table 331 provided in the viewer 300, the spread code generation circuit may be provided. Note that the spread code generation circuit includes, for example, a shift register, a tap register, an adder, and the like.
[0132]
  In the above embodiment, the document information transmission process is executed by the transmission control unit 240. However, the present invention is not limited to this, and the personal computer 210 may execute the document information transmission process. In this case, a transmission program for executing document information transmission processing is stored in the personal computer 210.
[0133]
  In the above embodiment, the document information is transmitted and received using the frequency hopping method. However, the present invention is not limited to this, and a direct spreading method and other transmission methods may be used.
[0134]
  Furthermore, in the embodiment, the viewer 300 is configured to display document information for one page at a time. However, the present invention is not limited to this, and the viewer 300 is configured to display document information of about 2 to 4 pages at a time. Also good. In this case, the transmission apparatus 200 repeatedly transmits about 2 to 4 pages of document information in the page designation transmission mode. When the document information is transmitted in the all page transmission mode, the viewer 300 designates about 2 to 4 page numbers.
[0135]
  In the above-described embodiment, the viewer 300 is described as having the display unit 350 having an A4 size, for example. However, the present invention is not limited to this, and the viewer 300 may be downsized to the B5 or A6 size. You may enlarge to the extent. Furthermore, the viewer 300 may be a wall-hanging type. At this time, one page in the present invention does not need to be equal to one page at the time of printing, and the information amount for one page is selected according to the display size of the viewer. Further, the information amount for one page may be slightly smaller than the viewer display amount, and the entire page and a part of the page before and after the page may be displayed simultaneously. This makes it easy to understand the contents of the entire page.
[0136]
【The invention's effect】
  As described above in detail, according to the invention of claim 1, the document information transmission system includes: a transmission device that repeatedly transmits document information including a plurality of pages; and document information transmitted by a transmission unit of the transmission device. Since the receiving apparatus is configured to receive and display at least one page of document information, the document information created by a personal computer or the like can be directly transmitted to an arbitrary partner. Therefore, the work of printing, editing, and sorting document information can be eliminated, and the work efficiency of transmitting document information can be improved.
[0137]
  Further, since the transmission device repeatedly transmits the document information, the reception device can receive the document information many times. Therefore, when an error occurs during transmission / reception, the receiving apparatus can easily eliminate the error by receiving again the document information repeatedly transmitted from the transmitting apparatus.
[0138]
  further,Since the transmission unit of the transmission device is configured to divide each page of document information composed of a plurality of pages into a plurality of blocks and transmit the document information in units of the blocks, errors and the like that occur during transmission and reception are in units of blocks. The document information can be corrected efficiently and accurately.
[0139]
  Claim2According to the invention, the transmission order of each block is controlled so that each time one block is transmitted by the transmission means of the transmission device, a block belonging to a page different from the page to which the previously transmitted block belongs is transmitted. Thus, each page of document information consisting of a plurality of pages can be transmitted equally, and characters or images recorded on each page can be transmitted substantially simultaneously. Accordingly, even when the latter half of the document information covering a plurality of pages is designated by the receiving device, the recipient can quickly acquire the document information of the page as in the case where the first half page is designated. it can.
[0140]
  Claim3According to the invention, in the reception device, the reception determination unit that determines whether or not there is a block that has not been normally received in the document information for at least one page received by the reception unit, and the reception determination As a result of the determination by the means, when there is a block that cannot be normally received in at least one page of document information, the reception of the document information including a plurality of pages repeatedly transmitted by the transmission means of the transmission device By including a re-receiving unit that re-receives at least one page of document information designated by the designation unit of the apparatus, it is possible to receive again the same document information as the one-page received document information, Blocks that could not be normally received last time can be received again. Therefore, even if an error occurs during transmission / reception of document information, this error can be easily resolved, and document information for one page can be acquired with certainty.
[0141]
  Claim4According to the invention, the document information transmission system includes a transmission device that repeatedly transmits document information for one page, and a reception device that receives and displays document information for one page transmitted by the transmission unit of the transmission device. Therefore, document information created by a personal computer or the like can be directly transmitted to an arbitrary party. Therefore, the work of printing, editing, and sorting document information can be eliminated, and the work efficiency of transmitting document information can be improved.
[0142]
  Further, since the transmission device repeatedly transmits the document information, the reception device can receive the document information many times. Therefore, when an error occurs during transmission / reception, the receiving apparatus can easily eliminate the error by receiving again the document information repeatedly transmitted from the transmitting apparatus.
[0143]
  further,Since the transmission unit of the transmission device divides at least one page of document information into a plurality of blocks and transmits the document information in units of blocks, errors generated during transmission / reception can be corrected in units of blocks. Document information can be transmitted efficiently and accurately.
[0144]
  Claim5According to the invention, in the receiving device, the reception determining means for determining whether or not there is a block that has not been normally received in the document information for at least one page received by the receiving means, and the reception determining means As a result of the determination, when there is a block that cannot be normally received in at least one page of document information, a re-receiving unit that receives again at least one page of document information that has been repeatedly transmitted by the transmission unit of the transmission device Thus, the same document information as the one page of document information received last time can be received again, and the block that could not be normally received last time can be received again. Therefore, even if an error occurs during transmission / reception of document information, this error can be easily resolved, and document information for one page can be acquired with certainty.
[0145]
  Claim6According to the invention, when the document information is constituted by a character string by the transmission means of the transmission device, the number of characters constituting the one block is smaller than the number of characters for one line of the page. Since the document information is divided, it is possible to reduce the influence of errors that occur during transmission and reception, and even when there is interference between the transmission device and the reception device, the content of the document information is transmitted to the recipient. be able to.
[0146]
  Claim7According to the invention, when the document information is constituted by bitmap data by the transmission means of the transmission device, the number of bits of the bitmap data constituting the one block is the bitmap data constituting one line of the page. When the document information is divided so as to be an integral multiple of the number of bits, it is possible to reduce the influence of errors that occur during transmission and reception, and there is interference between the transmission device and the reception device However, the contents of the document information can be transmitted to the recipient.
[0147]
  Claim8According to the invention, the receiving device includes storage means having a minimum storage capacity necessary for storing at least one page of document information, and the display means receives the document information received by the receiving means. Is stored in the storage means, and the stored document information is displayed on the display unit, so that the manufacturing cost of the receiving device can be reduced and the receiving device can be made cheaper.
[0148]
  Claim9According to the invention, in the receiving apparatus, after the document information is received by the receiving means, the power supply stopping means for stopping the power supply to the receiving means, and the power supply to the receiving means by the power supply stopping means. A power supply restarting means for supplying power to the receiving means and a power supply to the receiving means by the power supply restarting means while the power supply is being supplied to the receiving means every predetermined time after the stop. When the received document information is different from the previously received document information, display update means for displaying the received document information on the display unit is provided, so that the power consumption of the receiving apparatus is reduced. be able to.
[0149]
  Claim10According to the invention, the document information transmitting device divides each page of document information composed of a plurality of pages into a plurality of blocks, transmits the document information in units of the blocks, and transmits one block each time. Since the transmission order of each block is controlled so as to transmit a block belonging to a page different from the page to which the previously transmitted block belongs, errors generated during transmission / reception can be corrected in units of blocks, and document information Can be transmitted efficiently and accurately, each page of document information consisting of a plurality of pages can be transmitted equally, and characters or images recorded on each page can be transmitted substantially simultaneously. .
[0150]
  Claim11According to the invention, in the document information transmitting apparatus, when the document information is composed of character strings, the number of characters constituting the one block is smaller than the number of characters for one line of the page. Since the document information is divided, when the document information cannot be normally transmitted / received due to an error that occurs during transmission / reception, the influence of the error can be reduced.
[0151]
  Claim12According to the invention, in the document information transmitting apparatus, when the document information is composed of bitmap data, the number of bits of the bitmap data constituting the one block is the bitmap data constituting one row of the page. Since the document information is divided so as to be an integral multiple of the number of bits of the document information, the document information is divided. The influence can be reduced.
[Brief description of the drawings]
FIG. 1 is an overall view showing a viewer system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a transmission device according to an embodiment of the present invention.
FIG. 3 is a block diagram illustrating a transmission control unit, a transmission unit, and a transmission antenna of the transmission device according to the embodiment of the present invention.
FIG. 4 is an explanatory diagram showing a hopping table provided in the transmission apparatus according to the embodiment of the present invention.
FIG. 5 is a block diagram illustrating a viewer according to an embodiment of the present invention.
FIG. 6 is a block diagram illustrating a reception antenna, a reception unit, and a reception control unit of a viewer according to an embodiment of the present invention.
FIG. 7 is an explanatory diagram showing a configuration of transmission data according to the embodiment of the present invention.
FIG. 8 is a flowchart showing document information transmission processing according to an embodiment of the present invention.
FIG. 9 is a flowchart illustrating document information reception processing according to an embodiment of the present invention.
FIG. 10 is a flowchart showing document information reception processing following FIG. 9;
FIG. 11 is a flowchart showing document information reception processing following FIG. 10;
FIG. 12 is an explanatory diagram showing document information over three pages in the embodiment of the present invention.
FIG. 13 shows an embodiment of the present invention in which one page of document information composed of text data is divided into a plurality of blocks and one page of blocks having blocks that could not be received. It is explanatory drawing which shows an example of document information.
FIG. 14 is a diagram illustrating a state in which document information for one page composed of text data is divided into a plurality of blocks and one page having blocks that could not be received partially in the embodiment of the present invention; It is explanatory drawing which shows the other example of document information.
FIG. 15 is a diagram illustrating a state in which document information for one page composed of graphic data is divided into a plurality of blocks and a portion of one page having blocks that could not be received in the embodiment of the present invention. It is explanatory drawing which shows an example of document information.
FIG. 16 is an explanatory diagram showing an example of a transmission pattern of document information in the embodiment of the present invention.
FIG. 17 is an explanatory diagram showing another example of a transmission pattern of document information in the embodiment of the present invention.
[Explanation of symbols]
  100 Viewer system (document information transmission system)
  200 Transmitter
  210 Personal computer
  230 Transmitting antenna
  240 Transmission control unit
  250 Transmitter
  300 Viewer (document information receiving device)
  310 Receiving antenna
  320 Receiver
  330 Reception control unit
  340 display controller
  341 Memory circuit
  350 display
  360 input section
  N1, N2, N3 Document information
  a block

Claims (12)

A document information transmission system comprising a transmission device that transmits document information in which characters or images are recorded in units of pages, and a reception device that receives and displays document information transmitted from the transmission device,
The transmission device includes a transmission unit that divides each page of document information including a plurality of pages into a plurality of blocks, and repeatedly transmits the document information in units of the blocks .
The receiving device is:
A designating unit for designating at least one page of document information among the plurality of pages of document information transmitted by the transmission unit of the transmission device;
A receiving means for receiving at least one page of document information designated by the designation means among the plurality of pages of document information transmitted by the transmission means of the transmission device;
A display unit having a display area capable of simultaneously displaying the document information for at least one page;
A document information transmission system comprising: display means for displaying the document information received by the receiving means on the display unit. Transmitting means of the transmitting apparatus 1 each time the block transmission, to transmit a block belonging to a page different from the page belongs block previously transmitted, according to claim 1 and controls the transmission order of each block Document information transmission system. The receiving device is:
A reception determination unit that determines whether or not there is a block that could not be normally received in the document information for at least one page received by the reception unit;
As a result of the determination by the reception determination means, when there is a block that cannot be normally received in the document information for at least one page, the document information consisting of the plurality of pages repeatedly transmitted by the transmission means of the transmission device is stored. among them, the document information transmission system according to claim 1 or 2 comprising a re-receiving means for receiving the document information specified at least one page again by specifying means of the receiving device. A document information transmission system comprising a transmission device that transmits document information in which characters or images are recorded in units of pages, and a reception device that receives and displays document information transmitted from the transmission device,
The transmission device includes a transmission unit that divides document information for at least one page into a plurality of blocks, and repeatedly transmits the document information in units of the blocks .
The receiving device is:
Receiving means for receiving document information transmitted by the transmitting means of the transmitting device;
A display unit having a display area capable of simultaneously displaying the document information for at least one page;
A document information transmission system comprising: display means for displaying the at least one page of document information received by the receiving means on the display section. The receiving device is:
A reception determination unit that determines whether or not there is a block that could not be normally received in the document information for at least one page received by the reception unit;
As a result of the determination by the reception determination means, when there is a block that cannot be normally received in the document information for at least one page, the document information for at least one page that is repeatedly transmitted by the transmission means of the transmission device The document information transmission system according to claim 4 , further comprising: a re-receiving unit that receives the data again. When the document information is composed of a character string, the transmission unit of the transmission device is configured so that the number of characters constituting one block is smaller than the number of characters for one line of the page. 6. The document information transmission system according to claim 1 , wherein the document information transmission system is divided. When the document information is composed of bitmap data, the transmission means of the transmission device is configured such that the number of bits of the bitmap data configuring one block is the number of bits of the bitmap data configuring one line of the page. The document information transmission system according to any one of claims 1 to 5 , wherein the document information is divided so as to be an integral multiple of. The receiving device includes a storage unit having a minimum storage capacity necessary to store the document information for at least one page, and the display unit stores the document information received by the receiving unit in the storage unit. 8. The document information transmission system according to claim 1, wherein the document information is stored and displayed on the display unit. The receiving device is:
Power supply stop means for stopping power supply to the receiving means after receiving the document information by the receiving means;
Power supply restarting means for supplying power to the receiving means every predetermined time after stopping power supply to the receiving means by the power supply stopping means;
While the power supply to the receiving unit is being performed by the power supply restarting unit, the document information transmitted from the transmission device is received, and when the received document information is different from the previously received document information, The document information transmission system according to claim 1 , further comprising a display update unit that displays received document information on the display unit. A document information transmitting apparatus for transmitting document information consisting of a plurality of pages on which characters or images are recorded,
Each page of the document information composed of a plurality of pages is divided into a plurality of blocks, the document information is transmitted in units of the blocks, and each time one block is transmitted, it belongs to a page different from the page to which the previously transmitted block belongs. A document information transmitting apparatus for controlling the transmission order of each block so as to transmit the block. The document information is divided so that the number of characters constituting the one block is smaller than the number of characters for one line of the page when the document information is composed of character strings. 10. The document information transmitting device according to 10 . When the document information is constituted by bitmap data, the number of bits of the bitmap data constituting the one block is an integral multiple of the number of bits of bitmap data constituting one row of the page. The document information transmitting apparatus according to claim 10 , wherein the document information is divided.

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