KR100514143B1 - Change Processing Method Of Data Rate In Mobile Communication System - Google Patents

Abstract

The present invention is to improve the data transmission performance of the system by minimizing the data transmission stop time to the corresponding mobile terminal when the data transmission rate is changed due to the change of the environment for the wireless section between the mobile terminal and the base station in the mobile communication system The present invention relates to a wireless data rate change processing method in a mobile communication system. In the related art, data transmission is stopped by a time required for data channel allocation and reconnection time of a mobile terminal when the data rate is changed. In many cases, there is a problem in that data transmission is interrupted for a long time, which causes a problem in that the transmission performance for the wireless section of the system is degraded and the wireless capacity is unnecessarily wasted.

Accordingly, the present invention distinguishes a case of changing to a low speed and a case of changing to a high speed when the data transmission rate is changed according to an environment change of a wireless section in the mobile communication system, and accordingly, the data transmission stop point is processed differently, thereby transmitting data. It is possible to minimize the data transmission stop time for the speed change.

In addition, by minimizing the data transmission stop time for changing the data transmission speed of the wireless section, the present invention can not only improve data transmission performance for the wireless section of the system, but also minimize unnecessary waste of wireless capacity.

Description

Change processing method of data rate in mobile communication system

The present invention relates to a change in the wireless data transmission rate in a mobile communication system. In particular, when the data transmission rate is changed due to a change in the environment of the wireless section between the mobile terminal and the base station, the data transmission stop time to the corresponding mobile terminal is minimized. The present invention relates to a wireless data transmission rate change processing method in a mobile communication system to improve data transmission performance of a system.

In general, a code division multiple access (CDMA) mobile communication system based on a code division multiplexing scheme uses a global positioning system (GPS) at a base station to synchronize all base stations and mobile terminals in time, and at a base station. It is classified as asynchronous without using GPS, and this CDMA mobile communication service provides packet data service in addition to voice communication provided by default.

Recently, a 1x EV (EVolution) scheme has been proposed as a protocol for packet data transmission between a base station and a mobile terminal that is completely different from the existing IS-2000 wireless protocol. It is connected to and serviced by a mobile switching center (MSC) through a base station system. However, in case of packet data, a wireless IP structure is directly connected to a packet data serving node (PDSN) through a base station system to a packet communication network or the Internet. As it is used, it is possible to maximize the packet data service because it does not go through the mobile switch with strong circuit switching network characteristics.

On the other hand, in the above-described mobile communication system to provide a packet data service, the data transmission rate of each mobile terminal can be dynamically assigned and changed (UP / DOWN) according to the channel environment in a wireless section. In order to change the transmission speed, the data transmitted to the mobile terminal had to be suspended.

That is, the base station subsystem constituting the mobile communication system suspends data transmission to the corresponding mobile terminal when the data transmission rate is to be changed in accordance with the change in the environment of the wireless section transmitted to the mobile terminal. Afterwards, the base station requests a data channel allocation for a desired transmission rate. When a response to the request is received from the base station, the data transmission is restarted after performing an air interface with the newly allocated data channel with the mobile terminal.

In this case, in changing the data transmission rate transmitted from the base station subsystem to the mobile terminal, if the amount of packet data to be transmitted to the mobile terminal is high and a transmission error occurs below the threshold in the wireless section, the transmission rate is increased. When the amount of packet data to be transmitted to the mobile terminal is small or a transmission error of more than a threshold occurs in the wireless section, the transmission speed is lowered.

In processing the response to the transmission rate change request of the base station subsystem, if the base station requests a higher rate than the currently allocated transmission rate, whether the available channel capacity is sufficient in the radio section and the data channel can be allocated. It checks whether there is a resource and allocates data channel of maximum transmission rate that satisfies both conditions. On the contrary, when requesting lower than the currently allocated transmission rate, the requested available data channel is checked without checking the separate condition. Will be allocated.

The operation of changing the data transmission rate of the wireless section in the above-described mobile communication system will be described in detail with reference to FIG. 1.

First, when packet data transmission is performed in a wireless section between a mobile terminal and a base station, when the data transmission rate needs to be changed due to an environment change in a corresponding wireless section, the base station subsystem preferentially transmits data to the mobile terminal. After the operation is stopped (steps S11 and S12), the base station requests a data channel allocation for the desired transmission rate (step S13).

Then, the base station checks whether the channel allocation request for changing to a lower transmission rate than the current data transmission rate or the channel allocation request for changing to a high transmission rate, and the channel for changing to a lower transmission rate. In the case of an allocation request, after allocating the requested data channel in cooperation with the air interface unit, the allocation request is returned to the base station subsystem.

In the case of a channel allocation request for changing the transmission rate of a high speed, the wireless interface unit checks whether the available channel capacity of the radio section is sufficient and whether there is a resource for allocating a data channel. If the channel capacity is sufficient and there are channel resources, the base station subsystem allocates the data channel requested and then responds (step S14).

Subsequently, the base station subsystem, which has received the data channel assignment from the base station, notifies the changed data channel related information in order to set the data channel change with the mobile terminal (step S15), and then receives a response to the newly allocated data channel. The data transfer is restarted by using the controller (step S16).

As described above, in the conventional mobile communication system, when the data transmission rate needs to be changed according to the change in the environment of the wireless section, the base station side allocates the requested data channel after stopping the data transmission to the mobile terminal.

However, in the mobile communication system, the change in the environment of the wireless section occurs from time to time, and data transmission to the mobile terminal is stopped for the time required for data channel allocation and the time required for reconnecting the allocated data channel with the mobile terminal. In particular, there is a problem in that data transmission is interrupted for a long time when there are many environmental changes in the wireless section. As a result, the transmission performance for the wireless section of the system is not only degraded. There was a problem of wasting wireless capacity.

The present invention has been made to solve the problems described above, and its object is to distinguish between the case of changing to a low speed and the case of changing to a high speed when changing the data transmission rate according to the change of the environment of the wireless section in the mobile communication system, Accordingly, by processing the data transmission stop time differently, it is to minimize the data transmission stop time for changing the data transmission speed.

Another object of the present invention is to improve the data transmission performance for the wireless section of the system by minimizing the data transmission stop time for changing the data transmission rate of the wireless section, and to minimize waste of unnecessary wireless capacity.

Features of the present invention for achieving the object as described above, the process of determining to change the data transmission rate of the corresponding wireless section in the base station sub-system at high speed when the environment changes for the wireless section between the base station and the mobile terminal; ; Requesting allocation of a wireless data channel to the base station when the data rate of the wireless section is changed to a high speed in the base station subsystem; When receiving a result of the wireless data channel allocation from the base station, after suspending data transmission to the mobile terminal, instructing the base station to use the newly allocated wireless data channel, and transmitting the changed wireless data channel related information to the mobile terminal. Notifying; Resuming data transmission to the mobile terminal through the newly allocated wireless data channel when receiving a response to the notification of wireless data channel related information from the mobile terminal. To provide a treatment method.

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In this case, when the environment changes for the wireless section between the base station and the mobile terminal, determining that the base station sub-system changes the data transmission rate of the corresponding wireless section to a low speed; Requesting a radio data channel allocation for changing the data transmission rate to the base station after stopping data transmission from the base station subsystem to the mobile terminal when changing the data transmission rate in the radio section to a low speed; Notifying the mobile terminal of the changed wireless data channel related information when receiving a result of the wireless data channel allocation from the base station; The method may further include restarting data transmission to the mobile terminal through the newly allocated wireless data channel when a response to the notification of the wireless data channel related information is received from the mobile terminal.

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Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the mobile communication system according to the present invention, when it is necessary to change the data transmission rate due to a change in the wireless section environment between the mobile terminal and the base station, the case of changing the corresponding data transmission rate into a high speed and a low speed, The data transmission performance of the system is improved by differently discontinuing the data transmission to the mobile terminal. The configuration of the mobile communication system for this purpose is shown in FIG. Base station 20 performing channel assignment and signal modulation / demodulation for wireless data transmission, control of data calls set up from base station 20, transmission processing and handoff processing, and RLP from PDSN (not shown) (Radio Link Protocol) has a structure in which the base station subsystem 30 performing termination processing interoperates with each other. The.

In addition, the base station 20 includes a wireless interface unit 21 for performing a wireless section interface such as performing modulation / demodulation of voice data signals transmitted and received with the mobile terminal 10, the base station subsystem 30, and a wireless interface unit ( 21 is a base station processor (22) that is present between and performs the data notification and call channel allocation functions required for the mobile terminal (10), the base station subsystem 30 is a radio of the base station 20 A selector processor 31 which performs handoff processing and RLP termination processing on voice and data received through the interface unit 21 and a voice and packet data call set from the base station 20 are controlled. It consists of a Call Control Processor 32 which transmits to the mobile exchange for voice and to PDSN for packet data.

In such a mobile communication system, the selector processor 31 of the base station subsystem 30 changes the data transmission rate to a low speed or a high speed when the environment of the wireless section to be transmitted to the mobile terminal 10 is changed. After the determination, the base station 20 requests the data channel allocation. In this case, when the data transmission rate is changed to a low speed, the data channel allocation is immediately stopped after the data transmission to the mobile terminal 10 is stopped. To change the data rate.

However, if the data transmission rate is changed to a high speed, data transmission to the mobile terminal 10 is maintained until a request for allocation of a data channel to the base station 20 and a response is received, and the request for the request from the base station 20 is maintained. If a response is received, after the data transmission is paused, the radio interface unit 21 of the base station 20 is instructed to use the newly allocated channel resource and the mobile terminal 10 is notified of the changed data channel related information. Receiving the response restarts data transmission to the mobile terminal 10.

In the mobile communication system according to the present invention having the configuration as described above with reference to Figures 2 and 3 attached to the processing operation for changing the data transmission rate of the wireless section as follows.

First, in a state in which packet data transmission is performed in a wireless section between the mobile terminal 10 and the base station 20, when the data transmission rate needs to be changed due to an environmental change in the corresponding wireless section, the base station subsystem 30 The selector processor 31 determines whether to change the data transmission rate for the wireless section to a low or high speed (step S31).

At this time, when the amount of packet data to be transmitted to the mobile terminal 10 is small or a transmission error of more than a threshold value occurs in the wireless section and the data transmission rate of the wireless section is changed to a low speed, the data transmission to the mobile terminal 10 is immediately performed. By stopping (step S32), the radio environment is improved by increasing the channel capacity of the radio section before allocating a new call channel.

Then, the selector processor 31 of the base station subsystem 30 that has stopped transmitting data to the mobile terminal 10 requests the call control processor 32 to change the data transmission rate in order to receive a new low-speed data channel. If so, the call control processor requests the base station processor 22 located at the base station 20 side to allocate a data channel for changing the transmission rate (step S33).

Then, the base station processor 22 transmits the data channel related information including the modem information necessary for the data channel allocation requested from the base station subsystem 30 to the air interface unit 21, and then responds to the data channel allocation. When received, the result of changing the data transmission rate at low double speed is returned to the base station subsystem 30 (step S34).

Accordingly, when the call control processor 32 of the base station subsystem 30 transmits the data rate change result received from the base station 20 to the selector processor 31, the selector processor 31 transmits the changed data channel related information. If the mobile terminal 10 is notified (step S35) and a response is received later, the data transmission with the mobile terminal 10 is restarted through the newly allocated low-speed data channel (step S36).

However, in step S31, when the amount of packet data to be transmitted to the mobile terminal 10 is large and a transmission error below the threshold occurs in the wireless section and the data transmission rate of the wireless section is changed to a high speed, the data channel is allocated to the base station 20. The data transmission with the mobile terminal 10 is maintained over the current data channel until the request is made and the response is received.

That is, when the selector processor 31 of the base station subsystem 30 changes the data transmission rate of the radio section to a high speed, the selector processor 31 maintains the current data channel where the data transmission is performed with the mobile terminal 10. The call rate change request is made, and the call control processor requests the base station processor 22 located at the base station 20 side to allocate a data channel for changing the data rate (step S37).

Then, the base station processor 22 transmits the data channel related information including the modem information necessary for the data channel allocation requested from the base station subsystem 30 to the air interface unit 21, and then responds to the data channel allocation. When received, the data channel allocation result for changing the data rate at high speed is returned to the base station subsystem 30.

Accordingly, when the call control processor 32 of the base station subsystem 30 transmits the data channel allocation result for changing the data transmission rate received from the base station 20 to the selector processor 31 (step S38), the selector processor ( In 31), the result of analyzing the allocation result for changing the data transmission rate is analyzed to determine whether the data channel to be newly allocated is higher than the currently allocated data channel (step S39), and the data channel to be newly allocated is currently allocated. If the data channel is not higher than the existing data channel, that is, the same data channel, the data transmission is continued through the currently allocated data channel without performing a separate air interface with the mobile terminal 10.

However, if the data channel to be newly allocated in step S39 is higher than the currently allocated data channel, the data transmission with the mobile terminal 10 is stopped (step S40), and then the wireless interface unit 21 of the base station 20 is stopped. By instructing the use of the newly allocated channel resource to match the channel resource between itself and the wireless interface unit 21, the mobile terminal 10 is notified of the changed data channel related information (step S41).

Subsequently, upon receiving a response to the changed data channel related information notification from the mobile terminal 10, the data transmission with the mobile terminal 10 is restarted through the newly allocated high speed data channel (step S42).

According to the wireless data transmission rate change processing operation in the above-described mobile communication system, when the data transmission rate to the mobile terminal 10 is changed, the corresponding mobile terminal is divided into a change in a low speed transfer rate and a change in a high transfer rate. 10 is determined when the data transmission stops, and when the data transmission to the mobile terminal 10 is stopped at low speed, the data transmission is stopped during the 'a' section shown in FIG. When changing the data transmission rate at a high speed, the data transmission is stopped only during the 'b' section shown in FIG. 2, so that the base station 20 requests the data channel allocation and receives the response through the currently allocated data channel. Data transmission with the mobile terminal 10 is maintained.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention distinguishes the case of changing to a low speed and the case of changing to a high speed when the data transmission rate is changed in accordance with the change of the environment of the wireless section in the mobile communication system, and thereby processing the data transmission stop time differently, It is possible to minimize the data transmission stop time for changing the data transmission speed.

In addition, by minimizing the data transmission stop time for changing the data transmission speed of the wireless section, the present invention can not only improve data transmission performance for the wireless section of the system, but also minimize unnecessary waste of wireless capacity.

1 is a flowchart illustrating a processing operation for changing a data transmission rate of a wireless section in a general mobile communication system.

2 is a diagram schematically illustrating a processing procedure for changing a data transmission rate of a wireless section in a mobile communication system according to the present invention based on a system configuration;

3 is a flowchart illustrating a processing operation for changing a data transmission rate of a wireless section in a mobile communication system according to the present invention.

Explanation of symbols on the main parts of the drawings

10: mobile terminal 20: base station

21: wireless interface unit 22: base station processor

30: base station subsystem 31: selector processor

32: call control processor

Claims (4)

In the wireless data transmission rate change processing method in a mobile communication system, Determining, at the base station subsystem, to change the data transmission rate of the corresponding wireless section to a high speed when the environment changes for the wireless section between the base station and the mobile terminal; Requesting allocation of a wireless data channel to the base station when the data rate of the wireless section is changed to a high speed in the base station subsystem; When receiving a result of the wireless data channel allocation from the base station, after suspending data transmission to the mobile terminal, instructing the base station to use the newly allocated wireless data channel, and transmitting the changed wireless data channel related information to the mobile terminal. Notifying; Resuming data transmission to the mobile terminal through the newly allocated wireless data channel when a response to the notification of the wireless data channel related information is received from the mobile terminal. How to handle data rate changes. delete The method of claim 1, Determining that the data transmission rate of the corresponding wireless section is changed to a low speed when the environment of the wireless section is changed between the base station and the mobile terminal; Requesting a radio data channel allocation for changing the data transmission rate to the base station after stopping data transmission from the base station subsystem to the mobile terminal when changing the data transmission rate in the radio section to a low speed; Notifying the mobile terminal of the changed wireless data channel related information when receiving a result of the wireless data channel allocation from the base station; In response to receiving a response to the notification of wireless data channel related information from the mobile terminal, restarting data transmission to the mobile terminal through the newly allocated wireless data channel. Wireless data rate change processing method. delete