JPH08251343A - Facsimile communication terminal equipment - Google Patents

Abstract

PURPOSE: To realize sure communication at a high speed by setting optimizingly a maximum value of a reception time for one scanning line in the facsimile reception for each communication. CONSTITUTION: The terminal equipment is provided with a maximum transmission time decision circuit 4 and a maximum transmission time monitor circuit 5. A communication protocol circuit 2 recognizes original size information (scanning length information), scanning density information, coding system information and data communication speed information in received image data in a pre-message protocol and informs the information to the maximum transmission time decision circuit 4. The maximum transmission time decision circuit 4 decides a maximum value Tmax for the reception time of one scanning line based on the information and provides the maximum value to the maximum transmission time monitor circuit 5. When the reception time of one scanning lien for received image data exceeds the maximum value Tmax, the maximum transmission time monitor circuit 5 commands interruption of the line to the communication protocol circuit 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a facsimile communication terminal device provided with a modulator / demodulator and performing facsimile communication with a connection destination device of a communication line established through an exchange.

[0002]

2. Description of the Related Art Conventionally, in a facsimile communication terminal device of this type, when transmitting an original, the original image is sequentially scanned and read line by line, and is transmitted while being encoded for data compression. On the other hand, the facsimile communication terminal device on the receiving side sets the maximum value of the communication time for each encoded scan line in advance in order to limit the line occupation time during image communication, and the reception time of one scan line of the received image is set. Is above the maximum value, the line is disconnected. The maximum value of the communication time for each one encoded scanning line is ITU
T Recommendation T. The facsimile communication terminal device according to the recommendation sets the maximum value of the communication time for each coded scanning line to 13 seconds, and the reception time of one scanning line of the received image is the maximum. If it exceeds the value, the line is disconnected.

[0003]

However, the transmission time of one line of an image changes depending on the length of scanning the image. For example, when a document image is read and transmitted at a resolution of 16 lines / mm, the scanning length of the document is I.
In the case of SO-A4, ISO-B4 and ISO-A3,
The read image information is two-dimensionally encoded and the transmission speed is 2
In the case of transmission at 400 bps, the maximum value of the transmission time for one line is as shown in FIG.

In FIG. 2, the maximum code data amount in the two-dimensional coding process (MR) is obtained as follows. In the two-dimensional coding process (MR), the position of each change pixel on the coding line corresponds to the position of the pixel on the coding line and the position of the reference pixel on the reference line, and the pass mode / vertical mode / horizontal mode is selected. One of them is selected and the encoding process is performed. When the reference line is composed of all white pixels and the coding line is composed of black and white alternating pixels (see FIG. 3),
The code data amount becomes the largest. The code word of this image pattern is ITU-T Recommendation T.264. 4 is selected. The amount of data per scanning line is code data and line synchronization code (EO
L + additional bit).

Therefore, the code data amount per scanning line is N2 = H (0,1) + H (1,1) (S-4) / 2 + VL (2) + VL (1) + V (0) + (EOL + additional bits ) = (3 + 8 + 3) + (3 + 6 + 3) * (S-4) / 2 + 6 + 3 + 1 + (1 2 + 1) = 6S + 13 where N2: maximum code data amount per scanning line S: scanning line pixel numbers H and V are horizontal mode and vertical, respectively. Indicates the mode code. H (0,1): 001 00110101 010 H (1,1): 001 000111 010 VL (2): 000010 VL (1): 010 V (0): 1

As described above, although the maximum transmission time of one line of an image varies depending on the size of the transmitted image, the conventional facsimile communication terminal device receives the ITU-T recommendation T.264 when receiving image data. 4, the maximum value of the communication time for each encoded scanning line is set to 13 seconds, so that it waits for transmission data for 13 seconds and is electrically connected to the line. Therefore, for example, in the case of receiving an image of ISO-A4 size, the reception time of one scanning line is completed in 8.8 seconds or less, so that the remaining 4.2 seconds are connected to the line. For this reason, for example, even when the transmission side has some abnormality and the transmission is stopped, the line is connected to the line for an additional 4.2 seconds on the reception side. However, there is a problem that the facsimile becomes unreceivable and the facsimile cannot be received.

The present invention has been made to solve such a problem, and its object is to optimally set the maximum value of the reception time of one scanning line for each communication at the time of facsimile reception. Accordingly, it is to provide a facsimile communication terminal device capable of realizing reliable and high-speed communication.

[0008]

In order to achieve such an object, the first invention (the invention according to claim 1) determines the maximum value of the reception time of one scanning line from various information in the received image data. The line is disconnected when the reception time of one scanning line of the received image data exceeds the maximum value. The second invention (the invention according to claim 2) is
It is assumed that the maximum value of the reception time of one scanning line is determined based on the scanning length information, scanning line density information, encoding method information and communication speed information in the received image data.
When the scanning line reception time exceeds the maximum value, the line is disconnected. A third invention (the invention according to claim 3) is based on the scanning length information, the scanning line density information, the encoding method information and the communication speed information in the received image data.
The maximum value of the scanning line reception time is determined, and the line is disconnected when the reception time of one scanning line of the received image data being monitored exceeds the maximum value.

[0009]

Therefore, according to the present invention, in the first invention,
The maximum value of the reception time of one scanning line is determined from various information in the reception image data, and when the reception time of one scanning line of the reception image data exceeds the maximum value, the line is disconnected. Second
According to the invention, the maximum value of the reception time of one scanning line is determined based on the scanning length information, the scanning line density information, the encoding method information and the communication speed information in the reception image data, and the reception time of one scanning line of the reception image data is determined. Exceeds the maximum value, the line is disconnected. In the third invention, the maximum value of the reception time of one scanning line is determined based on the scanning length information, the scanning line density information, the encoding method information and the communication speed information in the received image data,
If the reception time of one scan line of the received image data being monitored exceeds the maximum value, the line is disconnected.

[0010]

EXAMPLES The present invention will now be described in detail based on examples. FIG. 1 is a functional block diagram showing a main part of a facsimile communication terminal device showing an embodiment of the present invention. In the figure, 1 is a modulator / demodulator, 2 is a communication procedure circuit, 3 is a decoding circuit, 4 is a maximum transmission time determination circuit, and 5 is a maximum transmission time monitoring circuit.

In this facsimile communication terminal device,
The received image signal (received image data) is supplied to the modulator / demodulator 1
Is given to the communication procedure circuit 2 via. Communication procedure circuit 2
Knows document size information (scan length information), scanning line density information, encoding method information and data communication speed information in the received image data in the pre-message procedure, and notifies these information to the maximum transmission time determination circuit 4. To do.

The maximum transmission time determination circuit 4 determines the maximum value Tmax of the reception time of one scanning line based on the document size information, the scanning line density information, the encoding method information and the data communication speed information from the communication procedure circuit 2. To do. That is, referring to FIG. 2, when the document size is ISO-A4, 8.8 seconds, when ISO-B4 is 10.4 seconds, ISO-A3.
In the case of, 12.4 seconds is the maximum value T of the reception time of one scanning line.
Determine as max.

The maximum value Tmax of the reception time of one scanning line determined by the maximum transmission time determination circuit 4 is given to the maximum value transmission time monitoring circuit 5. Maximum value transmission time monitoring circuit 5
Receives the coded scan line start signal S1 from the decoding circuit 3 and monitors the time from the input of the coded scan line start signal S1. This time is the maximum transmission time determination circuit 4
If the encoded scanning line end signal S2 is not input from the decoding circuit 3 even if the maximum value Tmax from the above is exceeded, that is, if the reception time of one scanning line of the received image data exceeds the maximum value Tmax, the communication procedure circuit 2 A line disconnection instruction signal S3 for instructing the disconnection of the line is given to.

As can be seen from the above description, according to this embodiment, the maximum value of the reception time of one scanning line is optimally set for each communication at the time of facsimile reception, and reliable and high-speed communication is realized. You can That is, according to the present embodiment, when a failure occurs on the transmitting side or an abnormality occurs on the communication line, the receiving side does not connect to the line for more than the required time, so the image information from another facsimile communication terminal device is immediately transmitted. It becomes possible to receive.

[0015]

As is apparent from the above description, according to the present invention, in the first invention, the maximum value of the reception time of one scanning line is determined from various information in the received image data, and the received image data When the reception time of one scanning line exceeds the maximum value, the line is disconnected, and in the second invention, 1 is set based on the scanning length information, the scanning line density information, the encoding method information and the communication speed information in the received image data. When the maximum value of the scanning line reception time is determined and the reception time of one scanning line of the received image data exceeds the maximum value, the line is disconnected, and in the third invention,
The maximum value of the reception time of one scanning line is determined based on the scanning length information, the scanning line density information, the encoding method information and the communication speed information in the received image data, and the one scanning line of the received image data being monitored is received. When the time exceeds the maximum value, the line is disconnected and the maximum value of the reception time of one scanning line can be optimally set for each communication at the time of facsimile reception, and reliable and high-speed communication is realized. Will be able to. For example, when a failure occurs on the transmitting side or an abnormality occurs on the communication line, the receiving side does not connect to the line for more than the required time, so it is possible to immediately receive image information from another facsimile communication terminal device. .

[Brief description of drawings]

FIG. 1 is a functional block diagram showing a main part of a facsimile communication terminal device showing an embodiment of the present invention.

FIG. 2 is a diagram showing a transmission time with respect to the number of scanning line pixels.

FIG. 3 is a diagram for explaining a maximum code data amount in a two-dimensional coding process (MR).

[Explanation of symbols]

1 ... Modulator / demodulator, 2 ... Communication procedure circuit, 3 ... Decoding circuit, 4
... maximum transmission time determination circuit, 5 ... maximum transmission time monitoring circuit.

Claims (3)

[Claims] 1. A maximum value determining means for determining the maximum value of the reception time of one scanning line from various information in the reception image data, and a reception time of one scanning line of the reception image data is determined by the maximum value determining means. And a line disconnecting means for disconnecting the line when the maximum value is exceeded. 2. A maximum value deciding means for deciding a maximum value of a reception time of one scanning line based on scanning length information, scanning line density information, encoding method information and communication speed information in the received image data, said received image. A facsimile communication terminal device, comprising: a line disconnecting means for disconnecting the line when the reception time of one scanning line of data exceeds the maximum value determined by the maximum value determining means. 3. Maximum value determining means for determining the maximum value of the reception time of one scanning line based on scanning length information, scanning line density information, encoding method information and communication speed information in the received image data, said received image Facsimile communication, characterized in that it comprises line disconnection means for monitoring the reception time of one scanning line of data and disconnecting the line when this reception time exceeds the maximum value determined by the maximum value determination means. Terminal device.