JPS6072468A - Source information transmission control system of facsimile - Google Patents

Abstract

PURPOSE:To decrease the time consumed for transmission of source information in transmitting plural pages of original by transmitting a picture signal of the 1st page of the original while the said source information is added and transmitting a picture signal of the 2nd and succeeding pages of the original without adding at least fixed information of the said source information. CONSTITUTION:When a sender sets an original GP to be transmitted to a hopper 1a at first, the GP is detected by an original detecting device (not shown) and the facsimile device is started. A sub-scanning line control section 5 drives a feeding roller 1b and feeds the 1st page of the original GP to a reading section from the hopper 1a. Then a processor 2 starts a sub-scanning line control section 5, drives the feeding roller 1b so as to feed the 2nd page of the original GP from the hopper 1a. The source of the 2nd and succeeding pages is confirmed by having only to use the source information of the 1st page, and a listener can discriminate the page number (3rd page in this figure) of the own reception by looking into source name, year, month, day of the source information of the 1st page and the total transmitted page number.

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a transmission control system for sender information recorded in order to confirm the sender on the receiving side in facsimile transmission, and in particular, to The present invention relates to a sender information transmission control method that allows communication based on sender information and minimizes the increase in i time when transmitting facsimile+) electronically.

[Technology background, conventional technology and problems]

In facsimile transmission, since reception is performed automatically on the receiving side, it is necessary to record the sender's sender information in the received recorded content in order to confirm the sender. This source information (・K is sent from the transmitting side along with the image signal of the original, and the receiving side records the source information along with both f111 bows sent on one recording sheet L (receiving paper),
This makes it easy for recipients on the receiving side to verify the sender. on the other hand.

Even when sending a document, the receiver's recording paper GP1. GP2. - Same sender information for each of 9P3 (sender A'BC, February 2016).

days, antilog) are recorded. As shown in the explanatory diagram of the transmission format in FIG. 2, the format of each member is control signal (procedure) CS and sender information SS.

This is because the original image signal P1 is defined as the original image signal P1, so the sender information is included in each transmission from each person. However, in order to transmit this source information, it is necessary to
As the number of transmissions increases (as the number of transmissions increases, the time required to transmit information from any source becomes negligible).For this reason, one communication time is long <L"t', and the communication cost increases. was there.

Moreover, since an extra length of recording paper is required to record the sender information, there is also the disadvantage of increasing running costs.

[Purpose of the invention]

SUMMARY OF THE INVENTION An object of the present invention is to provide a facsimile source information transmission control system that can shorten the time spent transmitting source information and save costs when transmitting a multi-page manuscript.

[Structure of the invention]

In order to achieve the above-mentioned purpose, the present invention includes means for generating 5 and 1 report, means for generating both signals of the original to be transmitted, and means for managing the number of pages of the original to be transmitted. When transmitting a multiple page manuscript, based on the page management of the page number management means, the source information is added to the image signal of the first page of the manuscript, and the second page is transmitted. 9 that the image signal of the original after the first one is transmitted without adding at least the fixed information of the source information.
! It is considered to be one symptom.

Furthermore, an embodiment of the present invention is characterized in that the variable information of the transmission information is added (=J) and transmitted to the image signal of the document from the second page onwards.

[Embodiments of the invention]

The present invention will be explained in detail below by referring to nine examples.

FIG. 3 is a detailed explanatory diagram of the present invention, showing the recording state of the recording paper on the receiving side. As shown in the figure, when transmitting three pages of a manuscript, both the sender information and the I-th page of the manuscript are transmitted in the same way as before when transmitting page 1-1, so the receiving side receives the same signal. As shown in GPl in the figure, the sender information and the original 1% image signal of the first page are recorded on the recording paper.On the other hand, for transmission after 2X1.

In this example, the sender information is not sent, and the i
Therefore, on the receiving side, only the image signal of C, P2 in the same figure is transmitted.
(2nd page), , GP3 (3rd page), only the signals of page 2 1'' and page 3 are recorded on record i.
To confirm the sender from page 1, you can use the sender information on page 1, and the recipient should look at the sender's name on page 1, January 2nd, 1st year. Furthermore, if you look at all the transmitted true numbers, you can determine how many true numbers you received (l;!: page 3).
．． 14 Even if #report is recorded or not, the corresponding 2 pages □
The source of the second page L1 can be determined, and there is no possibility that they will be recovered.

In the above-described embodiment, the second and subsequent pages do not have any correspondence with the first page, but they may be added. FIG. 4 is an explanatory diagram of another embodiment of the present invention,
Correspondence is added from the second page onwards. That is, the two source information are divided into fixed information +lj and variable information, which are fixed contents common to all pages.

For example, sender name 1 sending time (February 1st, 2019, 2:00 am).

minutes), the total number of pages sent, etc. are fixed information, and each member uses variable information such as the number of pages, which is the content of ijJ changes. and.

Page 1, )yo, □Island, t 11□1 Seihoyo □ヮt#1l
J(1゜1.1, as the source information, send and send, Fig. 4 (A) and B) 1゜Nl"J:AI'N,)::*:'"A";F Send it as Kitatomi knee information (and record it on the receiving side as shown in GP2 in Figure 4 (A) and (B'). IJ Condolence 4) 21
In the case of (A), record the fixed information of the sender on the receiving side's recording paper S l? There is an example where the variable information recording area SV is divided into upper and lower sections.In the case of Figure 4 (B), these are combined.
An example of recording at the top of the paper is shown. By doing this, the first page of the recording paper contains the fixed→transmit information and “1
Page “or” No.

■Variable source information such as "" is recorded.

For the rum recording paper from the second page onward, "2nd page" or "NO."

Since only variable sender information such as 2''- is recorded, the recipient can more easily determine the correspondence between page 1 and pages 2 and onwards.

FIG. 5 is a transmission format configuration diagram corresponding to these embodiments. FIG. 5 (A) corresponds to the first embodiment shown in FIG. 3, and FIG. ) corresponds to the third real 'hfG example shown in FIG. As shown in Figure 5 (A), the transmission format on the first page is control procedure CS, sender information SS.
The transmission format for the second page consists of the control procedure cs, 2p, and the image signal P2 for the first original, and from the third page onward 1; It is. In addition, as shown in Figure 5 (B), the sender information can be changed to the fixed information SF.
In the case where the transmission format for page 1 is divided into control procedure CS, fixed information 114sF and variable 1n information SV as source information, and both information for the first page of the manuscript are 9. I) The transmission format for the second page consists of a control procedure CS, variable information SV as source information, and an image signal P2 of the second page document.

The third and subsequent pages are the same as the second page.

Next, a configuration for realizing the present invention will be described based on the configuration diagram of an embodiment of the present invention shown in FIG. In the figure, 1 is a document reading mechanism, la is a hopper, in which the transmitted document GP is sent to the cellar 1, and 1b is a document feeding 1 cola, which reads the document CP set in the hopper 1a one by one. lc is a feeder that feeds the document GP to a reading section, which will be described later.

1d is an image sensor (reading section), ccD (
It is composed of a photodiode array, etc., and reads the image of the document that is step-fed by the feed roller 1c, one line at a time in the main scanning direction, and outputs one image signal. The originals that have been scanned are stored. 2 is a microprocessor (hereinafter referred to as processor) that controls a series of sequences of the facsimile machine by a program;
3 is a character table and read-only memory
(ROM), which converts the source information from the processor 3 into a corresponding character pattern and outputs it, and 4 is a raster scan multiplexer, which converts the source information obtained from the character table 3 into the corresponding character pattern and outputs it. 5 is a sub-scanning line control unit that outputs for each sub-scanning according to the line signal of the sub-scanning line control unit;
6 is an image signal binarization circuit that controls the feed of the feed roller IC of the document reading mechanism 1;
7bar for binarizing the image signal from d to isI
8 is a data compression circuit, which mixes and outputs the source pattern output from the raster scan multiplexer 7 and the image signal output from the image signal binarization circuit 6; For example, high-speed aircraft (011
1 aircraft), Ml ((T-Defined Hoffman)
- Compress and encode the pattern signal and image signal from the image signal mixing circuit 7 using the MR (Modified Read) method; 9 is for clock use; , SI, which is backed up by a battery, constantly keeps time, and provides time information (February 2, 2017, 1:00 AM), which is one of the sources of information.

10 is a transmission control circuit which includes a modulation/demodulation modem jOa and a line AGC circuit 10b, and is connected to the line via the AGC circuit 10b; 11 is a bus; and clock LSI 9. This is for exchanging data between the sub-scanning line control section 51, the borrow sign mixing circuit 7, and the transmission control section 10.

Next, the operation of the embodiment shown in FIG. 6 will be explained.

First, when a sender sets a document CP to be transmitted in the hopper 1a, it is detected by a document detection mechanism (not shown) and the apparatus is activated. Similarly, the sender calls the other party using a telephone (not shown) and connects to the other party's facsimile via a line. The processor 2 activates the sub-scanning line control section 5 via the lotus 11.

The sub-scanning line control section 5 drives the delivery roller 1b to send the first page of the document Gl) from the hopper 1a to the reading section. At the same time, the processor 2 sends control procedure information C3 to the modem 10a via the bus 11, and the AGC circuit 10
The control procedure information C3 is transmitted to the line ``2'' via line ``b''. Then, the processor +2 reads time information from the clock LSI 9 via the bus 14, assembles source information from the total number of pages input separately and the source name in the internal memory, and provides it to the character table 3. As a result, the character table 3 outputs a character pattern according to the source information, and the raster scan multiplexer 7, which operates according to the line signal from the sub-scanning line control section 5, prints the pattern one scanning line at a time for each sub-scanning. is decomposed and output. The output of the raster scan multiplexer 7 is sent to the data compression circuit 8 via the image signal mixing circuit 7, compressed and encoded by the data compression circuit 8, and sent to the modem 10a. The modem lOa is compression encoded. Modulate the data.

It is sent to ■ii* via the AGC circuit IQ+1. Since the transmission time of the source information, that is, the number of sub-scanning lines is determined in advance, the sub-scanning line control section 5 stops controlling the multiplexer 4 after a predetermined number of sub-scannings, and stops the output from the multiplexer 4. Along with urging.

The feed roller IC is caused to feed step by step, and the document GP is read by the image sensor 1d. The image signal of each line of the original GP from the image sensor 1d is binarized by an image signal binarization circuit 6, and then sent to a data compression circuit 8 via a two-image signal mixing circuit 7.
data compression circuit 8. The data is compressed and sent to the modem 10a. The modem tOa modulates this compression-encoded data and sends it out to the line via the AGC intermediary circuit 10b. When the image signals for one page of the original document have been transmitted in this manner, the sub-scanning line control section 5 issues an end signal. In this case, reading may be completed when a predetermined number of sub-scanning paths are completed from the start of sub-scanning of the document, or the image sensor 1d
The reading of the original may be completed by detecting that the edge of the original passes by using a separate detector. This termination signal from the sub-scanning line control section 5 is transmitted to the processor 2 via the bus 11.

The processor 2 sets “1” to its own page number management counter 2a.
“Add and set the content to 2”.

Next, the processor 2 activates the sub-scanning line control section 5, drives the feed roller 1b in the same manner as described above, and drives the hopper 1.
The second page of the manuscript GP from a is sent to the reading section. Along with this, the processor 2 sends control procedure information C via the bus 11.
S is sent to the modem 10a, and control procedure information C8 is sent onto the line via the AGC circuit 10b. When starting up the sub-scanning line control section 5, the processor 2 instructs not to perform sub-scanning control of the multiplexer 4 by looking at the contents of the counter 2a, and accordingly, the sub-scanning line control section 5 is activated.
Immediately, step feed control of feed 1: J-ra lc is performed, and the original Gl) is read by the image sensor 1d. The image signal of each line of the original GP from the image sensor 1d is binarized by the image signal binarization circuit 6, and is sent to the data compression circuit 8 via the image signal mixing circuit 7, and is then converted into 1? i
It is compressed and encoded in circuit 8 and sent to modems I Oa1'-Q. The modem 10a modulates this compression-encoded data and sends it out via the AGC circuit 110b. When the image signals for one second page of the original are sent out in this manner, a termination signal is issued from the sub-scanning line control F+1is.

As a result, as described above, the base of the Pl:I processor 2,
□Yukau 7 months 21 &j,'7JII3'/' Qo5. ga. FJll, l<3".Hereafter, the third page of the original is sent (N is the same as the case of sending the second and subsequent pages. In this way, the second and subsequent pages are sent. Regarding the manuscript.

From processor 2 to source I! Since the blank is not output and the sub-scanning line control unit 5 does not control the mano 1 multiplexer 4, the source butter is not output. Therefore, following the control procedure information CS, the image signal of the original of ζ small and 2 pages e is output. P2.- will be transmitted: and !1,:.

In the above explanation, one explanation has been made in the case of the first embodiment shown in Figure 3 and Figure 9 (Δ), but in Figure 5 (B)
To explain case 6 of the third embodiment T, when transmitting the first page of the original, the dresser 2 of the printer 12 looks at the page management counter (1+1 capacity of a) and reads the page data (1). Page,) 4 Add 1 to the above-mentioned sender 1'i'j PH and include page 9 data: Send the sender pattern corresponding to the original message. On the other hand, when transmitting the manuscript from the second page onwards, after transmitting the control procedure information CS mentioned above, the burner processor 2 checks the contents of the firing counter 2a (2"~
・-) and sends only the page data (second page -) to the key t/actor table 3 as source information.

At the same time, a command for causing the raster scan multiplexer 4 to perform sub-scanning for one feed of the page data is output as an activation command to the sub-scanning line control section 5.

For example, if the number of sub-scans for sending out the sender 1n information on the first page is 27 lines, the number of sub-scans for sending the variable information (number of pages) of the sender information on the second and subsequent pages is There will be 9 lines. Therefore, the sub-scanning line control unit 5 increases the raster scan multiplexer 4 by 9 lines in sub-scanning -u,
After the variable information from the character table 3 is sequentially output, the feed roller IC is caused to step feed, reading of the original CP is started, and sending of the image signal of the original is started.

In the above description, a page number management counter is used as the page management means, but a page flag that detects whether or not it is the first page may also be used. Also.

Although the configuration is such that the end signal is output from the sub-scanning line control section 5, it is also possible to provide a separate document reading end detection mechanism. Similarly, it may be determined whether the number of transmission pages input from the numeric keypad is a plurality of pages, and such control may be performed when the number of transmission pages is a plurality of pages. Furthermore, the number of sheets to be transmitted may be entered in advance from a keyboard (not shown), and the total number of sheets and the number of transmitted pages may be recorded to each member as variable page information.

1. Although the present invention has been described by way of examples, 2. various modifications can be made in accordance with the gist of the present invention, and 2. these are not excluded from the scope of the present invention.

〔Effect of the invention〕

As explained above, according to the present invention, there is provided a means for generating sender information, a means for generating an image signal of a document to be transmitted, and a means for managing the number of pages of the document to be transmitted. When transmitting a multi-page manuscript, the sender information is added to the image signal of the first page of the manuscript based on the management of the page number management means, and the image signal of the second and subsequent pages is transmitted. For example, if the sender information is small (and fixed information is (
Since the data is sent without adding =j, the transmission time from the second page onwards is greatly reduced.
Therefore, it greatly contributes to reducing communication costs and running costs for recording paper, etc.

Furthermore, if the sender information on the first page includes the total number of pages to be transmitted, there will be no error on the receiving side when it comes to correspondence with the second and third pages.

[Brief explanation of the drawings] Figure 1 is an explanatory diagram of the conventional source information transmission control system;
The figures are: Fig. 1 is a configuration diagram of a conventional transmission format; Fig. 3 is an explanatory diagram of an embodiment of the present invention; Fig. 4 is an explanatory diagram of another embodiment of the present invention; FIG. 6 is a diagram showing the configuration of an embodiment of the transmission format of the present invention. In the figure, CP-manuscript, GPl, CP2. CP3-recording paper,
1. Manuscript reading mechanism, 2. Processor. 2a. Page number management counter, 3. Character table, 6. Both signal binarization circuit. Patent applicant: Fujitsu Ltd. Representative Patent Attorney Akira Yamatani 2171 Illustration 2 Illustration 3 Illustration (B) Illustration 5 Illustration:

Claims (2)

[Claims] (1) When transmitting a multiple-page manuscript, it has a means for generating sender information, a means for generating an image signal of the manuscript to be transmitted, and a means for managing the number of pages of the manuscript to be transmitted. Based on the management of the page number management means, the sender information is added to both signals of the first page of the manuscript and transmitted;
At least fixed information of the source information is added to both signals of the original after the page number.1. A facsimile sender information transmission control system characterized by transmitting information without any transmission. (2) Transmission of facsimile source information according to claim (1), characterized in that variable information of the source information is added to the image signal of the document from the second page onward and then transmitted. control method.