KR20020017406A - Method for compression and restoration of transmitted data in client server system - Google Patents

Abstract

PURPOSE: A method for compressing and restoring send and receive data in a client server system is provided to enable reception of compressed data without and additional storage of a receiving system, thereby preventing efficiency of compressed data transmission from being lowered, and reduce data transmission time by using transmission delay time of a transmitting system. CONSTITUTION: A transmitting system integrates and compresses data to be transmitted with a regular compression algorithm to reduce amount of transmitted data, and notifies beginning of data transmission to a receiving system. The receiving system initializes each operation buffer and variables of a restoration algorithm. If a data transmission path between the transmitting system and the receiving system is secured, the transmitting system compressed data to the receiving system by the packet. The receiving system restores data as soon as the receiving system receives each packet.

Description

Method for compression and restoration of transmitted data in client server system

The present invention relates to compression transmission and restoration of data in a client server system, and more particularly, to a server having sufficient resources by compressing and transmitting data on a server side and allowing the client to receive and restore compressed data. The present invention relates to a method for compressing and restoring transmission / reception data in a client server system suitable for improving data transmission efficiency when transmitting data to a client having limited resources.

In general, the server client system is applied to a wide range for the purpose of efficiently managing the limited resources in the system.

In particular, the server client structure in a communication system is applied for the efficient management of traffic or distribution of channel resources in the system.

1 is a functional block for data transmission and reception between a MCU (Main Control Unit) of a base station control station (RPC, Radio Port Control) and a base station (RP, Radio Port) in a WLL (Wireless Subscriber Network) system.

In FIG. 1, a section connecting the base station control station (RPC) and the base station (RP) is provided with an E1 transmission line. Each MCU occupies one 64K timeslot to perform data communication over the E1 channel.

In this case, it is common to use a data compression and restoration method when transmitting data from a base station control station to a base station. The time required for transmission of 1M byte is usually about 4 minutes and 20 seconds.

The present invention can be applied between the MCU of the WLL system base station control station and the MCU of the base station shown in FIG. 1, and the prior art in the field to which the present invention is applied is as follows.

First, Figure 2 is a flow chart of a data transmission and reception method in a client server system according to the prior art.

As shown in FIG. 2, in the conventional method, the transmitting side compresses data and transmits it in packet units. Then, the receiver receives all packet data and restores it.

That is, in the conventional data compression transmission method, the transmitting side collectively compresses data to be transmitted using a predetermined compression algorithm, and does not compress the transmission data on a packet basis.

The integrated compressed data at the transmitting side is transmitted to the receiving side. At this time, since the data transmission between the transmitting side and the receiving side is made in packet units, the transmitting side transmits the compressed data in packet units instead of collectively transmitting the data.

Receiving side confirms the data transmission of the transmitting side, the receiving side stores the received packet data in a fixed storage medium such as a memory. Thus, when the reception of all received packets constituting the transmission data of the transmission side is completed, the reception side reads out the storage medium, restores the data, and processes the data.

In this way, the receiving side recovers after receiving all the transmission data.

On the other hand, the decompression algorithm on the receiving side is associated with the compression algorithm on the transmitting side, and this relationship is a requirement of the general compression / restore method.

However, the above-described prior art has a disadvantage in that a separate medium for storing data transmitted in packet units is required at the receiving side.

For this reason, when the storage medium capacity of the receiving system is limited, the size of data to be compressed and transmitted by the transmitting side is limited. Therefore, the compression rate of the transmission data is lowered, which causes a problem of lowering the transmission efficiency.

Accordingly, the present invention has been proposed to solve the above conventional problems, and an object of the present invention is to compress and transmit data on a server side of a client server system and to receive compressed data by a client. By restoring, there is provided a method for compressing and restoring transmission / reception data in a client server system suitable for improving the efficiency of data transmission when a server having sufficient resources transmits data to a client having limited resources. .

In order to achieve the above object, a method of compressing and restoring transmission / reception data in a client server system according to the present invention includes the steps of: integrating and compressing data by a predetermined compression algorithm in a transmission system in a packet unit; The technical feature is that the receiving side performs the step of restoring the transmitted data in packet units by using a predetermined restoration algorithm.

1 is a block diagram of a block for data transmission and reception between the MCU of the base station control station and the MCU of the base station in a typical WLL system,

2 is a flowchart of a data transmission / reception method in a client server system according to the prior art;

3 is a flowchart illustrating a method of compressing and restoring transmission / reception data in a client server system according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the present invention will be described in detail according to an embodiment of the present invention in the method of compressing and restoring transmission and reception data in the client server system.

First, FIG. 3 is a flowchart illustrating a method of compressing and restoring transmission / reception data in a client server system according to an embodiment of the present invention.

As shown in FIG. 3, a preferred embodiment of the present invention comprises the steps of: integrating and compressing data by a constant compression algorithm in a transmitting system in a packet unit; The receiving side recovers the transmitted data in packet units by using a predetermined restoration algorithm.

The operation of the method configured as described above is as follows.

In the case of a client server system, the client side tends to have only limited resources compared to the server side. That is, in the case of a commercial system, a storage medium such as a memory is mainly equipped with only an optimal capacity for operating the system in order to reduce manufacturing costs.

According to the present invention, when the server transmits data to the client in the client server system, the efficiency of data transmission can be prevented from being lowered even when the receiving system has limited resources.

Thus, the present invention proposes a method for restoring received data in packet units.

That is, in FIG. 3, the transmission system operates in the same manner as in the prior art to integrate and compress data to be transmitted with a predetermined compression algorithm. Compression used in data transmission refers to the reduction of repeated data patterns in a certain way.

The reason of integrated compression in data compression is that compression efficiency is higher than that of packet compression. In this case, the data compression ratio depends on the algorithm used, but in general, the compression ratio is about 70-80% for text data and about 40-50% for binary coded data.

By reducing the amount of data transmitted through the compression algorithm as described above, it reduces the traffic load of the transmission system including the transmission line and increases the efficiency of data transmission.

For the above reason, when the transmitting system compresses and transmits the transmission data, the receiving system receives the transmission data. In this case, the received data must be restored to the original data format according to the algorithm used for compression, so it must be restored.

The operation of restoring the received data by the receiving system is a characteristic part of the present invention.

The sending system notifies the receiving system of the start of data transmission when the compressed data is transmitted. At this time, the receiving system initializes each operation buffer and variables of the recovery algorithm.

Thus, if a data transmission path between the transmitting side and the receiving side is secured, the transmitting side transmits the compressed data to the receiving side in packet units.

The receiving system then recovers the data as soon as each packet is received, rather than continuing to store the received data on the storage medium. In other words, data is restored on a packet basis.

By applying the packet to a decompression algorithm upon reception of each packet in a packet-based decompression operation, a separate storage medium for storing compressed data is not required.

The timing of restoring the received data on a packet basis can reduce the transmission time by using the transmission delay time of the transmitting system. That is, when a packet is exchanged between the transmitting side and the receiving side, the transmitting side puts a constant delay time between each packet. In the present invention, packet recovery is performed at the delay time.

Therefore, when transmission of the compressed data is completed on the sender side, after the time for restoring the last packet on the receiver side, the restoration of all data is completed and thus the restored data can be processed.

As described above, according to the present invention, by receiving and restoring data, which is integrally compressed and transmitted on a packet-by-packet basis, on the receiving side, the receiving side prevents a decrease in transmission efficiency even when there is a limit of storage medium resources. Will be reduced.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments.

That is, the present invention can be easily applied to a system for transmitting data in packet units.

Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, in the client server system according to the present invention, in the method of compressing and restoring transmission / reception data, when the transmission side compresses data to be transmitted and transmits it in packet units, the reception side restores the data in packet units. There is an effect that the compressed data can be received without a separate storage space for the data received by the side system.]

Thus, even when resources of the receiving system are limited, the efficiency of compressed data transmission is not deteriorated.

In addition, the timing of restoring the received data on a packet basis has an effect of reducing the data transmission time between the transmission and reception sides by using the transmission delay time of the transmission system.

At present, the method according to the present invention is applied in the exchange of compressed data between the MCU of the base station control station and the MCU of the base station in a wireless subscriber network (WLL) system. In this application example, when transmitting 1M bytes of data through the E1 transmission path between the MCU, the transmission time was conventionally about 4 minutes 20 seconds, but by the application of the present invention was reduced to about 2 minutes 30 seconds.

Claims (3)

Integrating and compressing data by a predetermined compression algorithm in a transmitting system and transmitting the data in a packet unit; A method of compressing and restoring transmission / reception data in a client server system, characterized in that the receiver performs a step of restoring the transmitted data on a packet basis by using a predetermined restoration algorithm. The method of claim 1, The transmitting side notifies the receiving side of the transmission start during data transmission, and the receiving side receives the data transmission start notification to initialize each operation buffer and variables of the restoration algorithm. And restoration method. The method of claim 1, wherein, in the packet unit restoration on the receiving side, A method of compressing and restoring transmission / reception data in a client server system, characterized in that the receiving side completes and restores reception of the transmitted packet while the transmitting side has a transmission delay time after transmitting data in units of packets.