JPH03149959A - Facsimile equipment - Google Patents

Abstract

PURPOSE:To allow the operator to select optionally the reduction in the communication time and the improvement of the picture quality by providing a means selecting optionally 'long', 'short' of the picture processing time. CONSTITUTION:A telephone line connects to a network controller 5, which applies a prescribed line control for outgoing and incoming call, a MODEM 6 modulates and demodulates picture information and sends the resulting information and sends various protocol signals in the transmission control means and a communication control section 7 controls the network controller 5 and the MODEM 6 to execute the facsimile transmission by the prescribed transmission control means. Then an operation display section 8 displays the operating state of the equipment, the operator implements various operations and a setting switch allowing the operator to select optionally whether the processing time of one line of picture information is 5ms/1 or 10ms/1 is arranged onto the operation display section 8. Thus, the operator selects optionally the reduction in the communication time or the improvement of the picture quality.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a facsimile device.

[Prior Art] When facsimile communication is performed using standard procedures based on CCITT recommendations τ, 4 and T, 3G, the original image is
．． 851/am (line/mm) or 7.71/a
Image information is transmitted at a linear density of m.

By the way, the scanner reads the original image with an IL417 scanner, converts the image information of two adjacent lines into image information of one line by a certain process such as OR operation,
7.717 While sending as picture information of Peng Yu, 7.7
11 ■ The image information is received at the plotter, and smoothing processing is performed to interpolate one line of image information between the lines by performing certain calculations on the image information of two adjacent lines, and the image information is received at the plotter. A facsimile device that records images at 15.41/cm is known.

Such facsimile machines simply read and record at 1.11/cm.

The image quality of transmitted images and recorded images is improved.

By the way, when performing facsimile communication using the standard procedure mentioned above,
At the beginning of the transmission control procedure, the receiving side notifies the transmitting side of the recording speed of the received l-line image information as the receiving side minimum scanning line time.

This minimum scan line time is 3.20 mm for 4 axes according to the above recommendation.
It is supposed to be set to one of 17am, 10ms, 5ms and Gag.

The sending side notifies the receiving side of the longer of the receiving side's minimum scanning line time and the reading time of one line with its own scanner as the minimum scanning line time for transmission, and Image information for each line is transmitted at time intervals of .

22, for example, in one facsimile machine, l
Reading speed per line is 5 ■s/l (■s/li
ne) and a plotter whose recording speed per line is also 5 m5/1 are installed.

When facsimile machines with such a configuration communicate with each other, the sending side reads the original image at 7.71/s+n,
If the receiving side records it as is, the image quality will be poor, but the image information will be
High-speed transmission is possible at a rate of 5 s/l per line. In response, the sending side sends the original image at 15.41
7.The cabinet reads the image information, converts it to 7.71/++ui and sends it, and the receiving side interpolates the lines of the image information and converts it to 7.71/++ui.
．． If you record at 41/■■, the transmission speed of l line is 10
Although it is -5/1, which is inferior to the above, the image quality is improved.

[Problem to be solved by the invention] Generally, when transmitting a document with large recorded characters, it is desirable to transmit it in a short time because the image quality is not so required.On the other hand, it is difficult to transmit a document with small recorded characters or detailed drawings. In this case, it is desirable to have good image quality even if it takes longer to transmit.

However, in the case of the conventional facsimile machine with the above configuration,
When sending an image, scan the original image with a scanner at 7.71/@
Read the line density of the heel and send it as is, or 15.4
The operation was fixed to either one of reading the image twice at a line density of 1/■■, converting it into one line of image information of 1.71Il■ through the above processing, and transmitting it.

Also. When receiving an image, the transmitted image information of 7.71/am is sent to 1. The operation was fixed to either one of recording as it is at 1/1/2, or recording twice at a linear density of 15.41/2 by interpolating between lines using the smoothing process. For this reason, in the past, when transmitting and receiving documents, there was a problem in that the operator could not arbitrarily select whether to transmit in a short time or to improve the image quality.

Also. In the above example, the sending side sends the original image to 7.7
It is read and transmitted at a linear density of 1/intestine■, and the receiving side receives 15
．． There may be a communication state in which recording is performed twice at a line density recommended by 41/■. In this case, even if the sending side had the ability to read images at 5m5/1, the image information would be sent at 10m5/1 to match the receiving side's ability, so that reading ability would not be utilized. .

Also. Contrary to the above, the sending side sends the original image at 15.41
In some cases, the image information is read and transmitted at a linear density of 7.71/■■ while the receiving side records it at a linear density of 7.71/■■. In this case, even if the receiving side has the ability to record L-line image information at a speed of 5m5/1, the image information is sent from the transmitting side at a speed of 10mg/1, so the recording ability is not utilized. Ta.

Thus, in the past, there was a problem in which the image processing capability of a facsimile machine was not utilized depending on the communication status.The present invention solves the above problem and allows operators to reduce communication time and improve image quality when sending and receiving documents. It is an object of the present invention to provide a facsimile machine which can arbitrarily select the improvement of image processing performance and which can take advantage of its image processing ability.

[Means for Solving the Problems] The first invention includes means for arbitrarily selecting "long" or "short" image processing time, and when transmitting an image, the receiving side minimum scanning line time is Determine whether the reading time of one line of the original image is multiple times or more, and if it is less than multiple times and "Short" is selected in the above selection, read the original image line by line at a specific line density. On the other hand, if the judgment result is multiple times or more, or if "Long" is selected in the above selection, the document image is sent in multiple lines with a line density multiple times the above line density. The image information of multiple lines is converted into one line of image information and transmitted.

The second invention includes means for arbitrarily selecting "long" or "short" image processing time, and when "short" is selected,
The recording time of one line of the image is notified to the sending side as the minimum scanning line time on the receiving side, and if "Long" is selected,
Notify a time that is multiple times the recording time, and determine whether the minimum scanning line time determined when receiving an image is more than multiple times the recording time, and if it is less than multiple times, the received image While information is recorded line by line at a specific line density, if the result of the above judgment is multiple times or more, image information of one line is recorded by interpolating image information between each line of received image information. The image information is converted into multiple lines of image information, and the multiple lines of image information obtained by the conversion are recorded at multiple times the linear density.

In the third invention, when transmitting an image, it is determined whether the minimum scanning line time on the receiving side is more than multiple times the reading time of one line, and if it is less than multiple times, the document image is transmitted at a specific line density. is read line by line and the image information is transmitted as usual. However, if the result of the above judgment is multiple times or more, the document image is read line by line at a line density that is multiple times the above line density, and the image information is transmitted as usual. Line image information is converted into one line image information and transmitted.

In the fourth invention, when receiving an image, it is determined whether the determined minimum scanning line time is more than multiple times the recording time of one line, and if it is less than multiple times, the received image information is transmitted to a specific line. While recording one line at a density, if the result of the above judgment is multiple times or more, image information is interpolated between each line of received image information to convert one line of image information into multiple lines of image information. The image information of the multiple lines is recorded at multiple times the line density.

[Effect]

According to the first invention, when transmitting an image, if "long" is selected for the image transmission time, the image is always read at a high linear density, so it is possible to transmit a high-quality image. If "Short" is selected, if the receiving side minimum scanning line time is short, the image can be read with a low line density and the image can be transmitted in a short time. In this way, the operator can arbitrarily select between shortening communication time and improving image quality.

Also. According to the second invention, when receiving an image, if the image receiving time is set to "long", the image can be recorded at a high linear density, while if "short" is selected, the sending side When the scanning line time is short, image information can be received in a short time and recorded quickly. This allows the operator to arbitrarily select between shortening communication time and improving image quality, similarly to the above.

Furthermore, according to the third invention, when transmitting an image, if the minimum scanning line time on the receiving side is short, the image information is transmitted in a short time, so that the receiving ability of the receiving side can be utilized.
When the minimum scanning line time on the receiving side is long, the image is read and transmitted at a high linear density, so the image reading ability of the transmitting side can be utilized.

Also. According to the fourth invention, when receiving an image, if the minimum scanning line time determined by the transmitting side is short, the image is recorded in a short time, and if it is long, the image is recorded at a high linear density, so that the recording capacity of the receiving side is improved. You can make the most of it.

[Embodiments] Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a block diagram of a facsimile machine according to an embodiment of the present invention. In the figure, the scanner l reads the original image and extracts image information, and in this embodiment, +7.71/■■ or 15.41/
It is equipped with the ability to read original images at a speed of 5m5/1 at the linear density of the paper. The plotter 2 records images on recording paper and has a function of recording received images at a linear density of +7.11/■■ or 15°41/am at a speed of 5 m5/1.

The encoding/decoding unit 3 encodes image information to be transmitted and decodes received image information. The image information processing unit 4 converts the image information of two adjacent lines into the image information of 1 line by certain processing when the original image is read at 15.41/m, and the image information of the received 7,71/m For the picture information of the garden, if necessary, certain calculations are performed on the picture information of two adjacent lines to create picture information of 1 line interpolating between the lines.

The network control device 5 is connected to a telephone line and performs predetermined line control for making and receiving calls. The modem 6 modulates and demodulates image information and transmits the same, and also transmits various procedure signals in transmission control procedures. The communication control unit 7 is
It controls the network control device i5 and the modem 6 to execute facsimile transmission according to a predetermined transmission control procedure.

The operation display section 8 displays the operating status of the device and is used by the operator to perform various operations.

In this embodiment, the operation display section 8 is provided with a setting switch that allows the operator to arbitrarily select whether the processing time for the image information of the l line is 5++es/l or 10-5/1. . The system control section 9 is composed of a microcomputer system, and controls each section mentioned above to execute predetermined operations of the facsimile machine. The system bus 10 is a signal line through which the above-mentioned components except the network control device 5 and the modem 6 exchange various data and control signals with each other.

With the above configuration, next, the operation when communicating between the facsimile machines of this embodiment will be explained.

On the transmitting side, as shown in FIG. 2, the operator arbitrarily sets the image processing time for one line to 5 s/l or Ioms/l on the operation display section 8 (process 101).
), the facsimile machine then sets a transmission document on the scanner 1 and makes a call by a predetermined calling operation (process 101). When the other party responds, the facsimile machine starts a predetermined transmission control procedure (process 103).

Here, a CHD signal and a DIS signal are sent from the receiving side. This DIS signal notifies the receiving side of the line density, minimum scanning line time, etc. In this embodiment, it is assumed that the linear density is fixed at 7.717 mm.

The facsimile machine then determines the minimum scanning line time on the receiving side (processing 104).Assuming that the minimum scanning line time is 51111 (r5ms in processing 104).
), determines the image processing time of the l line set in the own device (process 105), and here, this processing time is 5■
If it is set to s/l (r5i in process 105)
tsJ), the minimum scanning line time on the transmitting side is determined to be 5 m5, and the result is notified to the receiving side by a DCS signal (processing 106).

Next, the original image is scanned at 7.71/ms in the scanner l.
One line is read with a line density of + (process 4107), the obtained image information is encoded and transmitted (process 108), and then it is checked whether it is the last line of the original image (
Process 109), if it is not the last line (N of Process 109)
), image reading and transmission are repeated (proceed to process 107).

In this case, the image information of each line read by the scanner I at 5 s/l is sequentially transmitted at a cycle of 5 m5.

When the last line of the original image is transmitted (processing 1
09 Y), the transmission process ends.

On the other hand, if the image processing time for one line is set to IO@s/l (rlOmsJ in process 105), or.

If the minimum scanning line time on the receiving side is 101+5 (rlomsJ in process 104), the minimum scanning line time on the transmitting side is determined to be 10■S and the receiving side is notified (processing 11G
).

Next, the scanner 1 scans the original image at 15.41/m
Two lines are read at the line density of Peng (process 111), then the obtained two lines of image information are converted into one line of image information by known processing (process 112), and the image information is encoded and transmitted. (process 113).

After this, it is checked whether it is the last line of the original image (process 114), and if it is not the last line (process 11).
(N of 4), the above process is repeated (process 1118).

In this case, the scanner l uses lO twice at 5+ms/l.
■Since it is read over S, the image information of each line is lOm.
The data will be transmitted sequentially at a period of s. Then, when the last line of the original image is transmitted (Y in process 114),
End the sending process.

On the other hand, on the receiving side, as shown in FIG. 3, the operator first selects whether to set the image processing time for one line to 5 m5/1 or 101 m5/1 on the operation display section 8, as on the transmitting side. Set arbitrarily (process 201).

The facsimile machine monitors incoming calls while it is on standby (N loop in process 202), and when it detects an incoming call (processing 202)
Y), the transmission control procedure is started (process 203).

At this time, the image processing time of the set l line is determined and processed 204), and if it is set to 5m5/1 (r5m+s in process 204), the line density is 1.71/■■ by the mouth IS signal. , notifies the transmitting side that the minimum scanning line time on the receiving side is 5■S (processing ZOS).

Thereafter, the transmission side minimum scanning line time is determined on the transmission side and notified by the DCS signal, while image information is sequentially transmitted after a predetermined procedure.

This facsimile machine first determines the determined minimum scanning line time on the transmitting side (processing 206).Assuming that 5 S is currently determined ("5 SJ" in processing 206), the image information to be transmitted is Each line is received and the image information of each line is recorded once at a line density of 1.11/Ryu by the plotter 2 (process 2078 from process 20J1 and process 20J1 and N of process 208).

In this case, since the plotter 2 has the ability to record image information at a speed of 5-5/1, the image is recorded line by line according to the speed of the transmitted image information. Then, when the last line is recorded (Y in process 208), the receiving operation ends.

On the other hand, when the minimum scanning line time on the transmitting side is determined to be lawg (processing 2G & rlo-sJ), the image information of each line to be transmitted is Record (process 209), then determine whether it is not the last line (process 21G), and if there is a next line (process 210), record the known line based on the image information of the current line and the image information of the next line. Create l-line image information that interpolates between lines by smoothing process (Processing 2)
11), then record the image information once (process 21)
2), repeat the process for the next line in the same way (process 209
Eight).

On the other hand, if the image processing time for one line is set to 10 s/l (rlomsJ in process 204), the minimum scanning line time on the receiving side is notified as lawg to the transmitting side (processing 20g). , receives the transmitted image information in the same way as above (proceed to process 209).

In the above case, the image information of each line is 10■
It is transmitted at a period of S. Also. Plotter 2 records one line of image information twice at a speed of 5m5/1.

The image information of each line received is 15.41 at 10 s/l.
Recorded at a linear density of 7■■. In this way, when the last line is recorded (Y in process 210), the receiving operation ends.

Here, for example, each operator on the sending and receiving side.

Assuming that the image processing time for one line is set to 515/1, the original image is read at a linear density of 7.71/am on the transmitting side, and the image information is transmitted at a speed of 5 m5/1. This allows image transmission in a short time.

On the other hand, each operator takes 10 hours to process the line's image.
-g/l, the M type image is 15.41/l.
It is read with a linear density of m■, and the image information is 10m5/1
On the receiving side, image lines are interpolated by smoothing processing and recorded as an image at a linear density of 15.41/m-. Thereby, a received image with good image quality can be obtained.

Therefore, when image resolution is not required, such as in a document with large characters, the operator can transmit the image in a short time by setting the image processing time for one line to 5 m5/1. Also. When high resolution is required, such as for documents with small text.

If the image processing time is set to 5m5/1, images with good image quality can be transmitted.

In this manner, in this embodiment, when transmitting/receiving a document, the operator can arbitrarily select between shortening communication time and improving image quality.

In the above embodiment, it is assumed that the reading speed of one line of the scanner 1 on the transmitting side and the recording speed of the plotter 2 on the receiving side are the same at 5 s/l. The present invention can be applied even when the recording speed and the recording speed are different. That is, in that case, at the time of transmission, it is determined whether the minimum scanning line time on the receiving side is less than 5m5 or more than oss,
The image may be read at 15.41/i+n for 10 s or more, and 7.71/i+n for 5 m5 or less.

Also, when receiving, if the minimum scanning line time determined on the transmitting side is 101111 or more, the line density is 15.41/L2.

If the number of fins is 515 or less, images may be recorded for each fin of 7.711, thereby obtaining the same effects as in the above embodiment.

Next, a second embodiment of the present invention will be described. In this embodiment, it is assumed that the destination facsimile machines have various minimum scanning line times.

FIG. 4 shows this operation on the transmitting side, and the same reference numerals as in FIG. 2 indicate the same processing. That is, the sender
When transmission control is started, the minimum scanning line time on the receiving side is determined (process 113), and the minimum scanning line time is 5
■If it is less than or equal to S (Y in process 113), the minimum scanning line time on the transmitting side is notified to the receiving side as LOMS (processing 106).
), the original image is read and transmitted at a linear density of 7.71/am (processes 107 to 109).

On the other hand, if the minimum scanning line time on the receiving side is not less than 5m5 (N in process 113), if it is less than 10++5, the minimum scanning line time on the transmitting side is set to 10555, and if it exceeds 10■3, it is changed to that time. Each is decided and notified to the receiving side (processing 114), and the original image is read with a linear density of 15.41/inner and transmitted (processing 111-processing 1).
14).

In this way, when the reception speed of image information on the reception side is fast, such as when the minimum scanning line time on the reception side is less than 5 seconds,
The scanner 1 can read images at a high speed of 5 s/l and transmit images in a short time. This results in
The receiving ability of the receiving side is utilized.

In addition, if the receiving speed is slow, such as the minimum scanning line time on the receiving side is 10 S or more, the scanner l will be 15.41
Since the image is read with / and then the image information is sent,
Image transmission with good image quality can be performed. This makes the most of the high-resolution reading capability of the scanner 1.

Next, a third example will be described. In this case as well, it is assumed that the destination facsimile machines have various minimum scanning line times.

FIG. 5 shows this operation on the receiving side, and the same reference numerals as in FIG. 3 indicate the same processing. That is, when the receiving side receives a call (Y in process 202), the sending side always receives the following information:
It is notified that the line density is 7.71/m2 and the minimum scanning line time is 5S (process 205).

After this, the minimum scanning line time determined on the transmitting side is determined based on the DCS signal transmitted from the transmitting side (process 214
), if this minimum scanning line time is 5m5 (processing 21
4 Y), the received image information is recorded at 7.71/msc (processing 207, 208), and if it is Ioms or higher (processing 214 N), the received image information is recorded at 15.41/msc.
(Process 209-Process 212).

In this way, when the transmission speed of image information is fast, such as the minimum scanning line time on the transmission side of 5 seconds.

Since the plotter 2 records images at a high speed of 5m5/1, images can be transmitted in a short time. This makes it possible to utilize the transmission capability of the transmitter.

Also, the minimum scan line time is Ioms or more.

If the transmission speed of image information is slow, the plotter 2 will send 15.
Since the received image is recorded at a high resolution of 4m5/1,
The good image quality recording function of the plotter 2 is utilized.

In each of the above embodiments, the reading speed of one line of the scanner 1 and the recording speed of the plotter 2 are 5 ■ s/1, but the minimum scanning line time corresponding to the speed can also be used for other speeds. It goes without saying that the present invention can be similarly applied by setting .

In addition, if the minimum scanning line time is long compared to the reading speed or recording time, the linear density during reading and recording is doubled, but if there is enough operating time, it can be set to 3 times or more. Of course it can be done.

[Effect 1 of the invention - As described above, according to the first invention, the means for arbitrarily selecting "long" or "short" image processing time is provided, and when transmitting an image, the minimum scanning line on the receiving side is If the time is short and "Short" is selected for the image transmission time, the document image is read at a specific line density and the image information is transmitted in a short time, but if the receiving side minimum scanning line time is long , or when "Long J" is selected for the image transmission time, the document image is read at high linear density and the image with good image quality is transmitted, allowing the operator to shorten the communication time and improve the image quality. improvement can be arbitrarily selected.

Further, according to the second invention, when receiving an image, if "short J" is selected for the processing time, the recording time of one line of the image is notified to the transmitting side as the minimum scanning line time on the receiving side. , If "Long" is selected, a time multiple times the recording time will be notified, and if the minimum scanning line time determined by the sending side is short, the received image information will be recorded quickly, but if the minimum scanning line time determined by the sending side is short, Since the image is recorded at high linear density in some cases, the operator can arbitrarily select between shortening the communication time and improving the image quality in the same way as described above.

Furthermore, according to the third invention, when transmitting an image, if the minimum scanning line time on the receiving side is short, the original image is read quickly and transmitted, so that the receiving ability of the receiving side can be utilized. , when the document image is long, the document image is read and transmitted at high line density, so the image reading ability of the transmitting side can be utilized.

Further, according to the fourth invention, when receiving an image, if the determined minimum scanning line time is short, the received image information is recorded quickly, while if it is long, the image is recorded at a high linear density. The recording ability of the receiving side can be utilized depending on the sending side.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a facsimile apparatus according to a first embodiment of the present invention, FIG. 2 is an operation flow chart showing image information transmission processing in that embodiment, and FIG. 3 is a block diagram of a facsimile apparatus according to a first embodiment of the present invention. FIG. 4 is an operational flowchart showing the receiving process, FIG. 4 is an operational flowchart showing the image information transmitting process in another embodiment of the present invention, and FIG. 5 is an operational flowchart showing the image information receiving process in that embodiment. l... Scanner, 2... Plotter, 3... Encoding/decoding unit, 4... Image information processing unit, 5-- Network control device,
6.--Modem, 7.-Communication control section, 8.--Operation display section, 9.--System control section, lO.--System bus. Lou! L1 -Lr'F''''Jto9 (Uhishin is possible p1) 3rd figure l legend 11?
I punishment clam

Claims (4)

[Claims] (1) Equipped with a reading means that reads a document image line by line in a fixed reading time, and which has a sending side minimum scanning line time determined based on the receiving side minimum scanning line time notified from the receiving side when transmitting an image. In a facsimile machine that transmits image information of a specific line density line by line at time intervals of a determination means for determining whether or not the speed is more than multiple times the time; and if the result of the determination is less than the multiple times and "short" is selected by the speed selection means, the document image is processed at the specific linear density. A low linear density reading means that reads one line at a time, and if the judgment result by the judging means is more than the plurality of times the linear density, or if "Long" is selected in the speed selection means, the linear density is the plurality of times the linear density. A high line density reading means for reading a document image line by line at linear density; an image information converting means for converting the image information of the plurality of lines obtained by the high line density reading means into one line of image information; and image information transmitting means for transmitting image information obtained by the image information or image information obtained by the low line density reading means line by line. (2) Equipped with a recording means that records the received image one line at a time on recording paper in a fixed recording time, and when receiving an image, the minimum scanning line time on the receiving side is notified to the transmitting side in the transmission control procedure, and the minimum scanning line time on the receiving side is determined by the transmitting side. In a facsimile machine that receives image information of a specific line density one line at a time interval longer than the minimum scanning line time on a transmitting side, If "short" image reception time is selected, the above-mentioned fixed recording time is notified to the transmitting side as the minimum scanning line time on the receiving side, while if "long" is selected, the above-mentioned recording time is notified to the transmitting side. notification means for notifying the multiple times the time; determination means for determining whether the minimum scanning line time determined when receiving an image is equal to or more than the multiple times the recording time; and if the determination result is less than the multiple times the recording time. includes a low linear density recording means for recording the received image information line by line at the specific linear density, and a low linear density recording means for recording the received image information line by line at the specific linear density; A conversion means for converting one line of image information into multiple lines of image information by interpolating the image information, and recording the multiple lines of image information obtained by the conversion at a linear density that is multiple times the specific linear density. 1. A facsimile device comprising a high-density recording means. (3) Equipped with a reading means that reads the original image line by line in a fixed reading time, and exceeding the sending side minimum scanning line time determined based on the receiving side minimum scanning line time notified from the receiving side when transmitting an image. In a facsimile machine that transmits image information of a specific line density line by line at time intervals of , a determination means for determining whether a minimum scanning line time on a receiving side is multiple times or more than the above-mentioned reading time when transmitting an image; If the determination result is less than the above multiple times, a low linear density reading means reads the document image line by line at the specific line density, and if the determination result by the determination means is more than the above multiple times, the above line A high line density reading means for reading a document image line by line at a line density that is multiple times the density, and an image information converting means for converting the image information of the plurality of lines obtained by the high line density reading means into the image information of one line. and image information transmitting means for transmitting image information obtained by the conversion or image information obtained by the low line density reading means line by line. (4) Equipped with a recording means that records the received image one line at a time on recording paper in a fixed recording time, and when receiving an image, specifies it at a time interval longer than the minimum scanning line time determined by the transmission control procedure with the sending side. In a facsimile machine that receives image information line by line with a line density of a low linear density recording means for recording received image information line by line at the specific linear density when the number is less than double, and image information to be received when the judgment result by the determining means is more than the plurality of times. a conversion means for converting one line of image information into multiple lines of image information by interpolating image information between each line; A facsimile device comprising: high-density recording means for recording at linear density.