KR19980027447A - High speed data transmission system and method - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

High speed data transmission system and method thereof.

2. The technical problem to be solved by the invention

It is intended to transmit data at high speed by transmitting data through ISDN transmission line digitally.

3. Summary of Solution to Invention

The computer initializes the data block transfer counter value to a specified value, prepares the data block to be transmitted, transmits it to the relay device by counting the number of transmitted data, and the relay device stores the received data block to transmit the system state. If possible, the data stored in the transmission line is serially transmitted, and when a response signal for data block transmission is received from the counterpart system, the data is transmitted to the computer to increase the counter value.

4. Important uses of the invention

Used for systems that transmit data at high speeds.

Description

High speed data transmission system and method

The present invention relates to a transmission system and a method for transmitting data at high speed through an ISDN serial transmission line.

Carry analog signal connection using conventional telephone line data transmission is very slow and error-prone, and personal computer in transmitting local telephone line between personal computer (PC) and first connecting station through analog telephone line By using a modem to transmit data serially from the PC, there was a need to convert digital data into analog signals.

Although telephony is largely digitalized today, analog connections are still used for large amounts of data transfer. However, this analog transmission has a problem that the signal may be distorted by an amplifier used to amplify the signal, which may cause a large number of errors. The transmission error may cause a data rate of about 1200 to 2400 bits per second. There was a problem of slowing down.

Accordingly, an object of the present invention is to provide a transmission system and a method for transmitting data at high speed by transmitting data through an ISDN transmission line digitally.

1 is a block diagram of a high speed data transmission system according to the present invention;

2 is a flowchart of data transmission processing in a computer according to the present invention;

3 is a data transmission processing flow chart in the relay apparatus according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: computer

2: repeater

3: relay station

11,16: Processor

12,17: program storage

13: memory

14: counter

15: DRAM

18: input / output section

A transmission system of the present invention for achieving the above object comprises: a system for transmitting data via a digital transmission path, comprising: first storage means for storing a program; First processing means for processing a data transmission by loading a program stored in said first storage means; Second storage means for storing and outputting data to be transmitted under the control of the first processing means; And a computer having means for counting the number of transmitted data blocks and a response signal received corresponding to the data transmission, and third storage means for storing the program; Second processing means for processing a data transmission by loading a program stored in said third storage means; Fourth storage means for storing and transmitting data to be transmitted under the control of the second processing means; And a relay device having an input / output means for inputting / outputting data under the control of the second processing means.

Further, the data transmission method of the present invention is a data transmission method applied to a data transmission system having a computer and a relay device, wherein the data block transmission counter value is initialized to a predetermined value, and a data block to be transmitted is prepared and transmitted. A first step of counting the number of data collected and transmitting it to the relay device; The relay device receives a data block and stores the data block, and then determines whether the transmission is possible and transmits the stored data serially through the transmission path. And a third step of receiving the response signal from the counterpart system against the data block transmission and transmitting the response signal to the computer to increase the counter value.

The present invention performs digital transmission in order to reduce the conventional high error rate. Digital transmission means that multiple digitally encoded signals such as data, audio and video can be multiplexed. Digital transmission plays an important role in wide area computer networks where telephone lines must be used efficiently. Such digital networks are called Integrated Services Digital Networks (ISDN), which provide wide-area services. The transfer rate using this is 64,000 bits per second.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a block diagram of a high-speed data transmission system according to the present invention, where 1 is a computer, 2 is a relay device, and 3 is a relay station.

The computer 1 includes a processor 11, a program storage unit 12, a memory 13, and a counter 14, and the relay device 2 includes a dynamic random access memory (DRAM) 15 and a processor ( 16), program storage 17, and input / output 18.

The computer 1 is a general personal computer (PC), and data generated by the computer 1 is stored in the memory 13. The data stored in the memory 13 is transmitted to the relay apparatus 2 under the control of the processor 11 operating according to the counter value and the program stored in the program storage unit 12.

The relay device 2 is a modular board or card that is mounted to the computer 1 via expansion slots.

The DRAM 15 includes memory units or buffers defined at a plurality of logic levels for transmitting and receiving data to and from the memory 13 of the computer.

In general, data is transmitted from the computer 1 to the relay device 2 in parallel. The input / output section 18 of the relay device serially transmits the data stored in the DRAM 15 to the relay station 3 via the ISDN transmission line. The input / output unit 18 also receives an acknowledgment signal from the relay station 3 via the ISDN transmission line for each data transmitted without error.

The relay station 3 is another system including a computer and a relay device, and the input / output unit receives data from the relay station in the same manner as transmitting an ACK signal.

Counter 14 is a block that counts the number of data transferred from memory 13 to DRAM 15 at any given time, the counter value being decremented in response to each data, and each acknowledgment (ACK) signal. Is increased in response.

Each of the processors 11 and 16 located in the computer 1 and the relay device 2 loads a program stored in each of the program storage units 12 and 17 to control the transmission process.

The operation of the present invention will be described with reference to FIGS. 2 and 3.

2 shows a transmission process in a computer according to the present invention.

First, the processor 11 of the computer initializes the data transfer counter by storing a predetermined arbitrary counter value in the counter 14 (101). Then, a data block is prepared to transmit data through the ISDN transmission line (102), and the data transmission counter value is checked (103).

If the check result indicates that the counter value is '0', the standby state is maintained, and if the counter value is not '0', the counter value is decremented (104), and the data block is transferred to the relay 15 of the relay device (105).

In this case, when the counter value is greater than '0', the processor 11 transmits data to the DRAM 15 of the relay device regardless of which data is received from the relay device 2.

3 shows a transmission process in the relay device, which may be started as soon as data is transferred from the computer 1 to the relay device 2.

Data transmitted from the memory 13 of the computer is received by the relay device 106, and this data is stored in each buffer of the DRAM 15 (107). Then, the ready state is checked for transmission of data stored in the DRAM 15 through the ISDN transmission line (108).

If the data is not ready to be transmitted, the data transmission is in a waiting state. If not, the ready state of the input / output unit 18 is checked (109).

If the input / output unit 18 is not ready, the transmission is in a standby state, and if the input / output unit 18 is ready, data is serially transmitted to the relay station 3 via the ISDN transmission line (110).

The processor 16 continues the transfer process as long as the data in the DRAM 15 is ready for transfer.

After one or more data has been transmitted from the relay device 2 to the relay station 3, the processor 16 receives an acknowledgment (ACK) signal from the relay station 3 in acknowledgment of the data transmission (111) and then the computer. And the counter value is increased (113).

The present invention described above is capable of various substitutions, modifications, and changes within the scope without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains, and thus is limited to the above-described embodiments and drawings. It is not.

The present invention as described above has the effect of performing high-speed, low-error data transmission by loading digital data through the ISDN transmission line to serially transmit data from the computer (1) to the relay station (3).

Claims (5)

In a system for transmitting data through a digital transmission path, First storage means for storing a program; First processing means for processing a data transmission by loading a program stored in said first storage means; Second storage means for storing and outputting data to be transmitted under the control of the first processing means; And A computer having a number of data blocks transmitted and means for counting received response signals in correspondence with data transmission; Third storage means for storing a program; Second processing means for processing a data transmission by loading a program stored in said third storage means; Fourth storage means for storing and transmitting data to be transmitted under the control of the second processing means; And And a relay device having an input / output means for inputting / outputting data under the control of the second processing means. The method of claim 1, The fourth storage means, And a dynamic random access memory (DRAM) divided into a plurality of memory areas for transmitting and receiving data with the second storage means. The method of claim 1, The first processing means, And transmitting the data stored in the second storage means to the fourth storage means continuously when the value of the counting means is greater than '0'. In a data transmission method applied to a data transmission system having a computer and a repeater, A first step of initializing a data block transfer counter value to an arbitrary designated value, preparing a data block to be transmitted and counting the number of transmitted data to the relay device; The relay device receives a data block and stores the data block, and then determines whether the transmission is possible and transmits the stored data serially through the transmission path. And The relay apparatus includes a third step of receiving a response signal from the counterpart system against the data block transmission and transmitting the response signal to the computer to increase the counter value. The method of claim 4, wherein The first step is, Initializing the data block transfer counter value to any specified value, preparing a data block to be transferred, and then examining the transfer counter value; And And if the transmission counter value is '0', continuously waiting for transmission, and if the transmission counter value is greater than '0', continuously transmitting the data block to the relay device while decreasing the counter value.