JPH01106575A - Phototelegraphy system - Google Patents

Abstract

PURPOSE:To make the capacity of a buffer memory on a receiving side smaller by controlling a transmission side so as to interrupt the transmission when the accumulated quantity of the buffer memory on the reception side exceeds a prescribed value. CONSTITUTION:When a printer 4 on a reception side becomes incapable of following reception with some reasons and the capacity of a buffer memory 31 exceeds a value (a), a buffer control means 32 transmits a busy signal to a circuit 7 through a reverse-direction control information transfer means 34 and, upon receiving the signal, a transmission interrupting procedure is executed on the transmission side. At the time of execution, transmission signals of several frames are further transmitted to a circuit 6 from the transmission side and the reception side receives the signals and stores in the buffer memory 31. On the reception side, readout of the buffer memory 31 and operation of the printer 4 are continued and, when the capacity of the memory 31 reaches another value (b), the buffer control means transmits a busy releasing signal to the circuit 7 through the reverse-direction control information transfer means 34 if the printer 4 still continues its operation. Therefore, the capacity of the buffer memory 31 can be made relatively smaller.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention is utilized for transmitting photographs over a digital communication line. In particular, high-level data link control procedures (HD
This invention relates to a method for transmitting photographs using a digital communication line based on LC.

Here, photographic transmission is distinguished from facsimile transmission in which the brightness information of the image is in a small number of levels because the brightness information of the image is in multiple levels. Photo transmission here includes both transmission of color information and transmission of color information.

[Conventional technology]

In conventional photo transmission systems, analog methods are widely used in which photo information and phase signals are transmitted over communication lines. Although the analog system has established specifications and usage patterns, its communication speed is limited and high-speed transmission is not possible. In addition, analog systems have a lot of line noise and are not compatible with communications using digital lines that include highly reliable computers, which have become popular in recent years.

For this reason, it has been considered to perform high-speed photo transmission using digital lines using digital signals. One of them is a method based on high-level data link control procedures. High-level data link control procedures are widely used as a form of communication that connects computers.High-speed digital signals are edited into frames in a specified format, and these frames are transmitted according to specified control procedures. This is what we do. According to the high-level data link control procedure, synchronous data can be efficiently transmitted without being subject to coding restrictions, and this characteristic can also be utilized when applied to photo transmission.

An overview of high-level data link control procedures can be found in Ohmsha's "Electronic Communication Handbook" 1979.
It is described on page 1140, and for more details, see JIS Standards
DS6-204-001).

[Problem that the invention seeks to solve]

To apply this high-level data link control procedure to photo transmission, conventional methods require a fairly large buffer memory on the receiving side. In other words, in order to improve transmission efficiency, the sending side continues communication at its maximum capacity, and the receiving side receives digital signals based on the high-level data link control procedure according to its transmission capacity and supplies them to the printer. However, if for some reason the printer is unable to follow the instructions, the printer will have to resend the entire photo. In order to avoid this, conventional methods have required a fairly large capacity buffer memory on the receiving side, for example, one with a capacity of more than one photo to be transmitted. There is.

For this reason, communication control equipment connected to digital lines is
It is not possible to use a general-purpose device for digital communication between computers, and the photo transmission device requires a special communication control device, making photo transmission compatible with digital communication expensive.

The present invention improves this, and aims to provide an inexpensive system that can reduce the capacity of the buffer memory of a communication control device and that can be used without major modification of a general-purpose communication control device. shall be.

[Means for solving problems]

The present invention provides a reception control device including a buffer memory, a buffer control means for writing signals received from a communication line into the buffer memory, and continuously outputting information accumulated in the buffer memory and supplying the information to the printer, and the buffer memory. reverse control information transfer means for transmitting a busy signal to the transmission control device when the amount of accumulated information exceeds a predetermined limit value; It is characterized by having a means for temporarily suspending the operation.

It is preferable that a full-duplex line is used as the communication line, and that the reverse direction control information transfer means is a means for transmitting a control frame to this full-duplex line.

[Effect]

When the reception control device receives a photo transmission signal as a digital signal based on the high-level data link control procedure, it temporarily stores it in a buffer memory built into the reception control device. In the method of the present invention, data is stored in the buffer memory and simultaneously output in parallel, and an electrical signal is provided to the printer. On the other hand, the status of this buffer memory is monitored, and when the accumulated content of this buffer memory exceeds a predetermined value set in advance with some margin from the maximum capacity, a busy signal is transmitted to the sending side as control information. do.

When the transmitting side receives this busy signal, it further transmits a predetermined number of frames and executes a predetermined transmission interruption procedure to interrupt the transmission. When resuming transmission, it is possible to resume transmission by executing a predetermined restart procedure from the point where it was interrupted, so that information that has already been sent due to the interruption can be continued and sent and received without duplication or loss of information. It can be performed.

〔Example〕

FIG. 1 is a block diagram of an apparatus according to an embodiment of the present invention. This device includes a scanner 1 that scans a photographic original and generates an electrical signal, a transmission control device 2 that receives the electrical signal as input and sends a transmission signal to a communication line, and a transmission control device 2 that receives the transmission signal from the communication line and generates the electrical signal. The apparatus includes a reception control device 3 that converts the electrical signal into a corresponding electric signal, and a printer 4 that receives the electrical signal and restores the received photograph corresponding to the photo original.

Here, the communication line 6.7 is a full-duplex bidirectional line to which a high-level data link control procedure using digital signals is applied. The reception control device 3 has a configuration shown in FIG. 2, and has a buffer memory 31. While writing signals received from a communication line into this buffer memory 31, it reads out information accumulated in this buffer memory 31 and supplies it to the printer 4. Buffer control means 32 and this buffer memory 31
and reverse control information transfer means 34 for transmitting a busy signal to the transmission control device 2 when the amount of accumulated information exceeds a predetermined limit value. In Fig. 2, numeral 33 is the printer 4.
35 is an interface circuit for receiving a digital signal from the line.

The transmission control device 2 includes means for temporarily suspending transmission when this busy signal is received.

FIG. 3 shows a conceptual diagram of the buffer memory 31. The maximum capacity of this buffer memory 31 is f, and the upper limit is set at a value slightly smaller than this maximum capacity, and the lower limit is set at a value slightly larger than zero capacity.

When photo transmission is started from the sending side, the receiving side stores the received signals in the buffer memory 31, and when the capacity reaches a value, starts the printer 4 and starts reading from the buffer memory 31. do. On the transmitting side, the transmission signal is basically transmitted according to the maximum capacity of the communication line 6. On the receiving side, the printer 4 restores the photo at approximately the same speed as the scanner 1 on the sending side.

If the printer 4 on the receiving side becomes unable to follow for some reason and the capacity of the buffer memory 31 exceeds the value a, the buffer control means 32 transfers the information to the backward control information transfer means 34.
A signal is sent via line 7.

When the transmitting side receives a busy signal on line 7, it executes a procedure for interrupting transmission. At this time, several frames of transmission signals are further transmitted from the transmitting side to the line 6, and the receiving side receives them and stores them in the buffer memory 31.

On the receiving side, the buffer memory 31 continues to be filled and the printer 4 continues to operate, and when the capacity of the buffer memory 31 reaches its capacity, if the printer 4 continues to operate, the buffer control means 32 transmits a line 7 snake-release signal via the reverse direction control information transfer means 34. This allows the transmitting side to execute the transmission restart procedure and continue transmission from the data immediately after the interruption.

In this way, in the device of the present invention, when the storage amount in the buffer memory 31 becomes large, transmission can be interrupted, so the capacity of the buffer memory 31 may be relatively small. Practically, the specifications of a normal communication control device for data communication are sufficient.

Next, a high-level data link control procedure for performing the above control will be explained.

In the high-level data link control procedure, two types of signal frame standards are defined: (a) a frame containing an information section and (b) a supervisory control frame without an information section. FIG. 4 is an example of a frame structure including an information section, and the fifth
The figure shows an example of the structure of a control frame. In FIGS. 4 and 5, F indicates a flag sequence, A indicates an address section, C indicates a control section, ■ indicates an information section, and Fe2 indicates a frame check sequence.

In this method, the photo transmission signal from the sending side to the receiving side is
The procedure is to transmit a predetermined control frame to perform connection control prior to transmitting a frame including the information part,
A method is adopted in which a signal for photo transmission control is transmitted to the information part of the first frame and the second frame of the frames including the information part.

In the first frame, the approximately 2000-byte information section contains
Data type, presence or absence of color, retransmission type, signal type,
Density, number of samples in a scan line, photo size, number of scan lines, delivery speed, and other format information are transmitted. In the second frame, a message explanation is sent to the information section. A photo transmission signal is transmitted from the third frame onwards. For the configuration of the third and subsequent frames, a method that is expected to be established as a high-level data link control procedure for photo transmission in the near future is applied. The details are not directly related to the gist of the present invention and will therefore be omitted here.

Here, as a feature of this embodiment, 512 bytes of information left as a user area in the first frame is used to transmit instruction information for controlling the buffer memory.

This allows the receiving side to recognize, prior to transmitting the transmission signal, that the buffer memory can be controlled.

To transfer the reverse control information, a method is used in which a 1-byte busy signal or busy release signal is transmitted to the information section I, as shown in FIG.

〔Effect of the invention〕

As explained above, according to the present invention, the amount of storage in the buffer memory on the receiving side is monitored, and when the amount of storage exceeds a predetermined value, the sending side performs interruption control. It has a small capacity and a good effect. In other words, as a communication control device for photo transmission using high-level data link control procedures, there is no need to provide a special buffer memory capacity specification; the buffer memory capacity of a normal communication control device is sufficient, and the digital transmission network Photo transmission using this method can be realized at an extremely low cost.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an apparatus according to an embodiment of the present invention. FIG. 2 is a block diagram of the reception control device. FIG. 3 is a conceptual diagram of information storage in the buffer memory. FIG. 4 shows the frame format of the high-level data link control procedure in the forward direction. FIG. 5 shows the frame format of the high-level data link control procedure in the reverse direction. DESCRIPTION OF SYMBOLS 1...Scanner, 2...Transmission control device, 3...Reception control device, 4...Printer, 6...Forward direction line, 7...Reverse direction line. Patent applicant: NEC Corporation, - Agent: Naotaka Ide, patent attorney Figure 1 Receiving control device Figure 2

Claims (2)

[Claims] (1) A transmitting device including a scanner that scans a photographic original to generate an electrical signal, and a transmission control device that receives the electrical signal as input and transmits a transmission signal to a communication line, and transmits the transmission signal from the communication line. A photo transmission system comprising a receiving device that includes a receiving control device that receives and converts the electric signal into an electric signal corresponding to the electric signal, and a printer that receives the electric signal as input and restores the received photograph corresponding to the photographic original, The above-mentioned communication line is a line to which a high-level data link control procedure using digital signals is applied, and the above-mentioned reception control device writes a buffer memory and a signal received from the above-mentioned communication line to this buffer memory. buffer control means for reading stored information and supplying it to the printer; and reverse control information transfer means for transmitting a busy signal to the transmission control device when the amount of stored information in the buffer memory exceeds a predetermined limit value. A photo transmission system, characterized in that the transmission control device includes means for temporarily suspending transmission when a busy signal is received. (2) Claim No. 1 (2) where the communication line is a full-duplex line
Photo transmission method described in section 1).