KR100256610B1 - Facisimile apparatus for atm terminal - Google Patents

Abstract

PURPOSE: A facsimile for an asynchronous transmission mode terminal is provided to transmit data at high speed by transmitting and receiving facsimile data through an ATM network. CONSTITUTION: An ATM terminal connection communication unit(102) is additionally connected to a facsimile body(100). The facsimile body(100) is composed of a CPU(104) connected through a bus(116), a memory unit(108), a scan unit(110), a printer unit(112), a PSTN communication unit(114). The facsimile body(100) transmits and receives facsimile data through the ATM terminal connection communication unit(102). The ATM terminal connection communication unit(102) is composed of a CPU(118) connected through a bus(128), a dual port memory(120), a memory unit(122), an SAR processing unit(124) and a physical interface unit(126). The ATM terminal connection communication unit(102) transmits and receives data through the ATM network.

Description

Facsimile device for asynchronous transmission mode terminal {FACISIMILE APPARATUS FOR ATM TERMINAL}

The present invention relates to a facsimile device, and more particularly to a facsimile device for high-speed data transmission.

Currently, facsimile devices are roughly divided into G3 facsimile devices and G4 facsimile devices. G3 and G4 refer to International Telegraph and Telephone Consultative Committee (CCITT) Recommendation Groups 3 and 4, respectively. G3 facsimile devices have been used to connect to public switched telephone networks (PSTNs). Since the spread of digital communication networks, including ISDN (Integrated Services Digital Network), the spread of G4 facsimile devices that can provide more services by connecting to digital communication networks is also spreading.

Among the G3 and G4 facsimile devices, the G3 facsimile device is still mainly used. Although the G3 facsimile apparatus is steadily improving in data transmission speed, it is not suitable for high speed data transmission as it is used in connection with a PSTN. The G3 facsimile device performs a pre-message procedure, which is a step of verifying and setting up the other party's capabilities when making a call connection, and matching the modem speed with the other party's modulator-demodulator (MODEM). This will take a lot of time. The premessage procedure is a procedure performed after setting up a call during a transmission control procedure for facsimile data transmission and includes a modem speed matching with a counterpart.

As described above, the conventional G3 facsimile apparatus is limited in data transmission speed and has a disadvantage in that it takes a lot of time because a procedure for matching a modem speed with a counterpart is necessary when making a call connection.

Accordingly, an object of the present invention is to provide a facsimile apparatus capable of high speed data transmission.

Another object of the present invention is to provide a facsimile apparatus which can shorten the time required for call connection.

1 is a block diagram of a facsimile apparatus according to an embodiment of the present invention;

2 is a process flow diagram of the CPU 104 of FIG. 1 in accordance with an embodiment of the present invention;

3 is a process flow diagram of the CPU 118 of FIG. 1 in accordance with an embodiment of the present invention.

The present invention for achieving the above object is connected to the asynchronous transfer mode (hereinafter referred to as "ATM") network, the ATM network by performing the ATM protocol call connection, and transmits and receives data through the ATM network And a facsimile body connected to the ATM terminal access communication unit and an ATM terminal access communication unit for transmitting and receiving facsimile data through the ATM network by the ATM terminal access communication unit. In addition, the ATM terminal access communication unit stores a data to be transmitted to the facsimile body, a dual port memory for storing data received from the facsimile body, an SAR cell that assembles an ATM cell received from the ATM network and decomposes data to be sent to the ATM network into an ATM cell. (Segmentation And Reassembly) The processing unit, the physical interface unit providing the physical interface to the ATM network, and the facsimile body communicate with the dual port memory, call connection and data transmission, reception and SAR processing unit through the physical interface unit. It includes a central processing unit (CPU) for controlling the memory and a memory unit for storing the program and processing data of the CPU.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the annexed drawings, numerous specific details are set forth in order to provide a more thorough understanding of the present invention, such as specific circuit elements, components, process flows, and the like. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

Advances in ATM technology, which are emerging rapidly, are enabling high-speed data transmission. With this in mind, the present invention enables the existing G3 facsimile apparatus to be used by connecting to an ATM network, thereby enabling high-speed data transmission and reducing the time required for call connection.

Figure 1 shows a block diagram of a facsimile apparatus according to an embodiment of the present invention, which is configured by additionally connecting the ATM terminal connection communication unit 102 to the facsimile body 100 which is a conventional G3 facsimile apparatus. The facsimile body 100 includes a CPU (Central Processing Unit) 104, an OPE (Operating Panel Equipment) 106, a memory unit 108, a scan unit 110, and the like, which are connected via a bus 116. The printer unit 112 and the PSTN communication unit 114 are configured to transmit and receive the ATM network and the facsimile data through the ATM terminal access communication unit 102. The ATM terminal access communication unit 102 physically connects to the CPU 118, the dual port memory 120, the memory unit 122, and the segmentation and reassembly (SAR) processing unit 124 connected through the bus 128. It consists of a physical interface unit 126, connects to the ATM network, connects to the ATM network by performing the ATM protocol, and transmits and receives data through the ATM network.

Looking at the facsimile body 100, the CPU 104 controls the overall operation of the facsimile device according to the program stored in the memory unit 108. The OPE 106 has a plurality of numeric keys, function keys and a display device, and applies key data according to key input to the CPU 104 and displays various states of the facsimile device under the control of the CPU 104. The memory unit 108 stores operation programs and protocol control programs of the CPU 104 and various reference data, and temporarily stores data according to program execution of the CPU 104. The scanning unit 110 scans an original under the control of the CPU 104 and outputs image data according to the original image. The printer unit 112 prints and outputs an image copied or received under the control of the CPU 104. The PSTN communication unit 114 is connected to the PSTN and forms a communication path with the PSTN under the control of the CPU 104. The PSTN communication unit 114 modulates the image data into an analog signal by a modem provided therein and transmits the image data to the PSTN and receives the PSTN. The log signal is demodulated and applied to the CPU 104.

Referring to the ATM terminal access communication unit 102 connected to the facsimile main body 100, the CPU 118 communicates with the CPU 104 of the facsimile main body 100 through the dual port memory 120 and the physical interface unit. Call connection and data transmission and reception through 126, and the processing of the SAR processing unit 124. The dual port memory 120 is connected to the bus 116 of the facsimile body 100, stores data to be transmitted to the facsimile body 100, and stores data received from the facsimile body 100. The memory unit 122 stores the program and processing data of the CPU 118. The SAR processing unit 124 assembles the ATM cell receiving from the ATM network and decomposes data to be transmitted to the ATM network into ATM cells. The physical interface unit 126 is connected to the ATM network and provides a physical interface to the ATM network. These SAR processing units 124 and the physical interface unit 126 each use dedicated IC (Integrated Circuit) chips.

2 is a flowchart illustrating the processing of the CPU 104 according to the embodiment of the present invention in the facsimile apparatus as described above, and illustrates a process of transmitting and receiving facsimile data with the ATM network through the ATM terminal access communication unit 102. will be. This function according to FIG. 2 is programmed into the memory unit 108 to be performed by the CPU 104.

3 is a flowchart illustrating the processing of the CPU 118 according to the embodiment of the present invention in the facsimile apparatus as described above, and illustrates a process of transmitting and receiving ATM networks and data at the request of the CPU 104. The function according to FIG. 3 is programmed in the memory unit 122 to be performed by the CPU 118.

The operation of FIG. 1 according to an embodiment of the present invention will now be described in detail with reference to the process flow diagrams of FIGS. 2 and 3. First, in the case of transmitting the facsimile data to the ATM network, the CPU 104 of the facsimile main body 100 checks whether the facsimile data transmission or the call is made from the ATM network in steps 200 to 202 of FIG. Perform the steps. In steps 204 to 206, the CPU 104 requests the call connection to the ATM terminal communication connection unit 102 through the dual port memory 120 and receives the call connection confirmation from the ATM terminal communication connection unit 102. Wait. Then, the CPU 118 of the ATM terminal communication connection unit 102 responds to the call connection request from the facsimile body 100 in steps 300 to 302 of FIG. 3 and the physical interface unit 126 in step 304. Call connection with the ATM network, and the call connection confirmation is transmitted to the facsimile body 100 in step 306.

When the call connection confirmation is received from the ATM terminal communication connection unit 102 in this manner, the CPU 104 of the facsimile main body 100 transfers the facsimile data to the ATM terminal communication connection unit 102 in steps 208 to 210. While transmitting through 120, it is checked whether transmission is complete. The CPU 118 of the ATM terminal communication connection unit 102 then decomposes the data received from the facsimile body 100 into ATM cells by the SAR processing unit 124 in steps 308 to 310, and then physical interface unit 126. It checks whether the call release request from the facsimile main body 100 is transmitted while transmitting to the ATM network through. After transmitting all of the facsimile data, the CPU 104 of the facsimile main body 100 requests call release to the ATM terminal communication connection unit 102 in step 212 in response to this in steps 208 to 210. Quit. The CPU 118 of the ATM terminal communication connection unit 102 terminates the call connection with the ATM network in step 312 in response to the call release request in steps 308 to 310.

In contrast to the above, when there is a call from the ATM network, the CPU 118 of the ATM terminal communication connection unit 102 responds to the steps (300) to (302) of the CPU of the facsimile main body 100 (step 314). In step 316, it notifies the call connection request from the facsimile body 100. The CPU 104 of the facsimile main body 100 then responds in steps 200 through 202 to the ATM terminal communication connection 102 through the dual port memory 120 in steps 214 through 216. A connection is requested and awaiting reception of a call connection confirmation from the ATM terminal communication connection unit 102. Then, the CPU 118 of the ATM terminal communication connection unit 102 responds to the call connection request from the facsimile main body 100 in step 316 and connects the call with the ATM network by the physical interface unit 126 in step 318. In step 320, the facsimile body 100 transmits a call connection confirmation. Thereafter, the CPU 118 receives the ATM cells received from the ATM network in steps 322 to 324, assembles the data by the SAR processing unit 124, and transmits the data to the facsimile body 100 from the facsimile body 100. Is to check whether call release is requested.

When the call connection confirmation is received from the ATM terminal communication connection unit 102, the CPU 104 of the facsimile main body 100 receives data from the ATM terminal communication connection unit 102 in step 218 and the facsimile in step 220. Check whether it is data. At this time, if it is not the facsimile data, the CPU 104 terminates after requesting the call release to the ATM terminal communication connection unit 102 in step 226. In contrast, in the case of the facsimile data, the CPU 104 checks the reception completion while receiving the facsimile data through the ATM terminal communication connection unit 102 in steps 222 to 224. After receiving all of the facsimile data, the CPU 104 terminates after requesting the call release to the ATM terminal communication connection unit 102 in step 226. The CPU 118 of the ATM terminal communication connection unit 102 terminates the call connection with the ATM network in step 326 in response to the call release request in steps 322 to 324.

Therefore, the ATM terminal communication connection unit 102 transmits and receives the facsimile data through the ATM network, thereby enabling high-speed data transmission. As a result, it becomes possible to cope with a case where the amount of data to be transmitted increases, such as a color facsimile apparatus. In addition, since the procedure for matching the modem speed with the other party is not required when making a call connection, the time required for the call connection can be shortened.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. In particular, the embodiment of the present invention has been shown to be applied to the facsimile apparatus, ATM terminal access communication unit 102 can be applied to other applications. If necessary, additional memory can be added to enable faster data transmission and reception. Therefore, the scope of the invention should not be defined by the described embodiments, but should be defined by the equivalent of claims and claims.

As described above, the present invention enables high-speed data transmission by shortening the time required for the call connection by transmitting and receiving the facsimile data through the ATM network.

Claims (1)

In a fax machine, An ATM terminal access communication unit connected to an ATM network and making a call connection with the ATM network by performing an ATM protocol, and transmitting and receiving data through the ATM network; A fax main body connected to the ATM terminal access communication unit and configured to transmit and receive facsimile data through the ATM network by the ATM terminal access communication unit; The ATM terminal connection communication unit, A dual port memory for storing data to be transmitted to the facsimile body and storing data received from the facsimile body; A SAR processor for assembling an ATM cell receiving from the ATM network and decomposing data to be transmitted to the ATM network into an ATM cell; A physical interface unit providing a physical interface to the ATM network; A CPU which communicates with the facsimile body via the dual port memory and controls call connection and data transmission and reception through the physical interface unit and processing of the SAR processing unit; A facsimile device for an ATM terminal, comprising: a memory unit for storing program and processing data of the CPU

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