KR101745714B1 - System and Method for Data Rate Control - Google Patents

Abstract

The present invention relates to a system and method for controlling a data rate, in which the number of user terminals in a cell is counted, and the maximum transmission rate of uplink and downlink of user terminals in the cell is determined based on the number of user terminals in the cell Limit to the set baud rate. Thereby, when the number of terminals in the cell increases, the maximum data transmission rate of the user terminal is limited, thereby preventing a specific user terminal in the cell from occupying an excessive amount of resources, so that all terminals in the cell are guaranteed a transmission rate higher than a certain level do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a data transmission rate control system and method, and more particularly, to a system and method for controlling a data transmission rate by limiting a maximum data transmission rate of an uplink and a downlink of a user terminal to a specific value, To a data transmission rate control system and a control method for ensuring a transmission rate higher than a predetermined level.

The mobile communication system divides the entire service area into a plurality of base station areas and configures cells as a small service area, and provides services in units of cells. (Enhanced Uplink Dedicated Channel (EDCH) and High-Speed Downlink Shared Channel (EDCH) defined in the 3GPP R6 standard) in a WCDMA (Wideband Code Division Multiple Access) -Speed Downlink Shared Channel (HS-DSCH).

DCH is a channel through which data and control signals can be transmitted between a network and a user terminal. EDCH, which is an enhanced uplink DCH, is a maximum transmission rate (or block size) supported according to a user terminal model and a TTI (Transmit Time Interval) The physical format is different.

In addition, the mobile communication system supporting the E-DCH can maximize the efficiency of the reverse transmission by using the base station scheduling scheme and the HARQ scheme.

A base station scheduling scheme is a scheme in which a base station receives channel status and buffer status of user terminals and controls reverse transmission of user terminals based on received information. The base station permits a large amount of data transmission to user terminals with good channel conditions and minimizes the amount of data transmission to user terminals with poor channel conditions, thereby enabling efficient use of limited reverse transmission resources.

According to the related art, when EDCH is established between a base station and a user terminal, a user terminal transmits information on necessary transmission resources and information on an uplink channel status, for example, uplink channel transmission power transmitted by a user terminal, Transmission power margin, and buffer status information of the terminal to the base station.

The base station, receiving the information, compares the transmission power of the uplink channel with the actually measured reception power, estimates that the reverse channel condition is good if the difference between the uplink channel transmission power and the uplink channel reception power is small, If the difference in received power is large, it is estimated that the reverse channel situation is bad.

The BS determines the transmission resource for the uplink channel of the user terminal using the channel status and the buffer status information of the user terminal, and notifies the determined transmission resource information, i.e., the transmission rate, to the user terminal.

As described above, according to the related art, the maximum transmission rate (or block size) and the physical format that can be supported according to the model of the user terminal and the TTI (Transmit Time Interval) are different from each other in the EDCH which is a High Speed Uplink Packet Access (HSUPA) transmission channel.

Also, unlike conventional R99, EDCH has a high physical data transmission rate, so the processing load in L1 is high. Therefore, when the EDCH user terminal increases, the load of the portion for processing the physical data increases equally, so that it can act as a constraint factor of the user terminal that can be processed by the base station.

Therefore, when the number of terminals in a cell increases, if the specific terminal occupies an excessive amount of resources, the overall quality in the cell is lowered.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-described problems, and it is an object of the present invention to limit the maximum data transmission rate of an uplink and a downlink of a user terminal to a specific value, Speed data transmission rate control system and control method capable of ensuring the speed of data transmission.

According to an aspect of the present invention, there is provided a data transmission rate control system for counting the number of user terminals in a cell, and for determining a maximum transmission rate of user terminals in the cell based on a number of user terminals in the cell, A base station controller for transmitting an uplink transmission rate limiting message for limiting a downlink transmission rate for the user terminals to a predetermined transmission rate; And a user terminal configured with the base station controller and an EDCH (Enhanced Uplink Dedicated CHannel), and changing a maximum transmission rate of an uplink according to a transmission rate included in the transmission rate restriction message.

According to an aspect of the present invention, there is provided a base station controller including: an interface unit for communicating with a user terminal; A resource allocation processor for counting the number of user terminals located in a cell and determining a limited transmission rate of uplink and downlink of user terminals in the cell according to the number of user terminals in the cell; A maximum transmission rate limiting message for limiting an uplink maximum data transmission rate of a user terminal in the cell according to the uplink transmission rate determined by the resource allocation processor and transmitting the maximum transmission rate restriction message to the user terminal through the interface A processor; And a resource management processor for limiting a downlink maximum data rate for a user terminal in the cell according to the limited transmission rate of the downlink determined by the resource allocation processor.

Here, if the number of user terminals in the cell is greater than the number of the reference user terminals, the resource allocation processing unit allocates the uplink and downlink data in such a manner that the maximum data transmission rate of the uplink and the downlink of the user terminal in the cell is downwardly restricted, Lt; / RTI > can be determined.

According to another aspect of the present invention, there is provided a method for controlling a data rate of a user terminal, the method comprising: counting a number of user terminals located within a cell; Determining a limited transmission rate of an uplink of user terminals in the cell according to the number of user terminals; Generating a maximum transmission rate limiting message for limiting a maximum data rate of the uplink of a user terminal in the cell according to the determined transmission rate of the uplink, and transmitting the maximum transmission rate limiting message to the user terminal.

Determining a limited transmission rate of a downlink for user terminals in the cell according to the number of user terminals in the cell; And limiting a downlink maximum data rate for a user terminal in the cell according to the determined downlink transmission rate of the downlink.

The step of determining the limited transmission rate of the uplink and the downlink of the user terminals in the cell according to the number of the user terminals in the cell may include the step of, when the number of user terminals in the cell is larger than the reference user terminal number, And determining a limited transmission rate of the uplink and the downlink so that a maximum data transmission rate of the uplink and the downlink of the user terminal is limited downward.

As described above, in the data transmission rate control system and the control method of the present invention, when the number of terminals in a cell increases, the maximum data transmission rate of the uplink and the downlink of the user terminal is limited to a specific value, A transmission rate higher than a certain level can be guaranteed.

In addition, the data transmission rate control system and the control method of the present invention minimize the inconvenience of the user by minimizing the data transmission rate of the respective base stations to the service cell by limiting the data transmission rate, Thereby effectively preventing degradation of service quality in a specific area.

1 is a configuration diagram of a data transmission rate control system according to an embodiment of the present invention;
2 is a control block diagram of a base station controller of a data transmission rate control system according to an embodiment of the present invention,
3 is a flowchart of a data transmission rate control according to an embodiment of the present invention;
4 is a flowchart of a data transmission rate control according to another embodiment of the present invention.

The foregoing and other objects, features, and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Hereinafter, the base station will be referred to as a base station (BS) in the second generation mobile communication and the Node-B in the third generation mobile communication, but will be collectively referred to as a base station 200 hereinafter.

The base station controller is referred to as a base station controller (BSC) in the second generation mobile communication and a radio network controller (RNC) in the third generation mobile communication. The base station controller is collectively referred to as a base station controller 500 .

1 is a configuration diagram of a data transmission rate control system according to an embodiment of the present invention.

1, the data rate control system counts the number of user equipments (UEs) located in the service cell of the base station 200, and the number of user equipments (UE) The base station controller 500 changes the maximum data rate of all UEs in the cell to a specific value.

The base station controller 500 adjusts the uplink transmission rate and the downlink transmission rate to a specific value when the number of user terminals UE located in the cell is larger than the number of the reference user terminals So that the maximum data transmission rate is not exceeded. Here, the uplink means data transmission from the UE to the BS 200, and the downlink means communication from the BS 200 to the MS.

The base station controller 500 counts the number of UEs located in the cell and determines whether the number of UEs in the cell is greater than the number of UEs in the cell, The maximum data transmission rate (data rate) is limited to a specific value. Herein, the Node B controller 500 sets a maximum data transmission rate of the user terminal UE to a specific value by transmitting a message for setting a maximum transmission rate through a set EDCH (Enhanced Uplink Dedicated CHannel) with the user terminal UE .

The base station controller 500 controls the maximum data transmission rate of the downlink to a specific value in the event of a traffic of the user terminal UE so as not to exceed a limited value.

In addition, the base station controller 500 transmits a maximum transmission rate limiting message to the user terminal (UE) so that the maximum uplink transmission rate of the user terminal (UE) does not exceed a limited value according to a specified value.

The uplink transmission rate of the user terminal UE is initially determined according to the model. Upon receiving the maximum transmission rate limiting message from the base station controller 500, the maximum transmission rate of the uplink is changed to the maximum transmission rate included in the maximum transmission rate restriction message, and the uplink power resource required by the user is allocated.

The user terminal UE is connected to the base station controller 500 through the EDCH and changes the transmission rate so that the maximum data transmission rate of the uplink does not exceed the limited value according to the transmission rate change message received from the base station controller 500 do. Here, the maximum transmission rate limiting message may include an uplink maximum transmission rate and user terminal identification information set according to the number of user terminals (UEs) located in the cell.

According to this configuration, when a user terminal UE having a reference number or more is located in a cell, the base station controller 500 limits the maximum data transmission rate of all UEs in the cell to a specific reference value, It is possible to prevent the communication quality of all the terminals in the cell from being deteriorated.

On the other hand, when the number of UEs in the cell is equal to or less than the reference number, resources are allocated to each user UE in the same manner as in the related art.

When the number of UEs in a cell is equal to or smaller than the reference number, the Node B 200 transmits information on a transmission resource required by the UE through the EDCH established with the UE, Information is received. For example, the uplink channel transmission power transmitted by the user terminal UE, the transmission power margin of the user terminal, the buffer status information of the terminal, and the like can be received from the user terminal UE.

The base station 200 receiving the information compares the transmission power of the uplink channel with the actually measured reception power and estimates that the reverse channel condition is good if the difference between the uplink channel transmission power and the uplink channel reception power is small, If the difference between the transmission power and the reception power is large, it can be estimated that the reverse channel condition is poor.

The base station 200 determines a transmission resource for an uplink channel of a user terminal (UE) using the channel status and buffer status information of the user terminal (UE), and transmits the determined transmission resource information, UE. The base station 200 can set a maximum data transmission rate of the user terminal UE to a specific value by transmitting a message for setting a maximum transmission rate through a set EDCH with the user terminal UE. Here, the maximum transmission rate may be set according to the number of UEs in a predetermined cell.

2 is a control block diagram of a base station controller 500 of a data transmission rate control system according to an embodiment of the present invention.

2, the base station controller 500 for controlling a data transmission rate includes an interface unit 510 for communicating with a user terminal UE, a message processing unit 520, a resource management processor 530, An allocation processing unit 540, and a storage unit 550 storing maximum data rate information according to the number of terminals in the cell.

The maximum data rate information according to the number of user terminals in the cell served by each base station 200 is stored in the storage unit 550. The maximum data transmission rate includes the maximum data transmission rate of the uplink and the downlink, and it is also possible to set and store the maximum data transmission rate at various stages as the number of UEs in the cell increases. That is, as the number of user terminals UE increases, the maximum data transmission rate can be gradually adjusted downward. In addition, it is also possible to set and store the maximum data transmission speeds differently according to the plan used by each user terminal UE.

Also, uplink transmission rate information set according to the model of the user terminal (UE) may be stored in the storage unit 550 when providing a regular service.

The resource allocation processor 540 counts the number of user terminals in each cell of the base station 200. When the number of user terminals in the cell is greater than the number of reference user terminals, the resource allocation processor 540 sets the maximum data transmission rate of the uplink and the downlink Value. Here, the changed maximum data transmission rate is a value lower than the maximum data transmission rate that can be supported by the user terminal (UE), thereby preventing a specific user terminal (UE) from occupying an excessive amount of resources.

For example, when the number of UEs exceeds X, the resource allocation processor 540 may adjust the maximum transmission rate of the uplink to Y kbps and the maximum transmission rate of the downlink to Z kbps.

Here, the number of reference user terminals may be variously set according to the propagation environment of each cell and the data transmission rate to be guaranteed.

For example, when it is desired to guarantee a transmission rate of 2 Mbps based on the cell T / P, the number of user terminals for limiting the data transmission rate can be limited to 32.

If the number of users is larger than the number of reference user terminals, the maximum data transmission rate can be limited to 64 kbps.

Accordingly, when the number of terminals in the cell is 32 or more in the corresponding cell, the maximum data transmission rate of each terminal is limited to 64 kbps, so that all terminals in the cell can be guaranteed a transmission rate of 2 Mbps.

In this manner, when the number of UEs in the cell exceeds X, the resource allocation processor 540 restricts the maximum data transmission rate of the uplink and the downlink to a predetermined criterion so that a small number of user terminals (UE) Prevent this resource from occupying too much.

The resource allocation processor 540 limits the maximum data transmission rate of the uplink of all UEs in the cell when the number of UEs in the cell is larger than the number of UEs in the cell.

The resource allocation processor 540 transmits the determined maximum data transmission rate of the uplink to each user terminal UE in the cell through the message processor 520 so that the uplink maximum data transmission rate of the user terminals UE is It can be controlled not to exceed a specific value. Here, the resource allocation processor 540 may set the maximum data transmission rates differently according to the plan used by each user terminal UE.

The resource allocation processor 540 limits the maximum data transmission rate of the downlink of each user terminal (UE) when the number of user terminals in the cell is larger than the reference user terminal number. The resource allocation processor 540 transmits the determined maximum data transmission rate of the downlink to the resource management processor 530 side.

The message processing unit 520 transmits a maximum transmission rate limiting message for limiting the maximum uplink data rate of each user terminal UE to the maximum uplink data rate of the user terminal UE provided by the resource allocation processor 540, .

The message processing unit 520 transmits a message having a maximum data transmission rate to the base station 200 so that a maximum data transmission rate of the uplink of each user terminal UE is suggested as a set value.

The resource management processor 530 limits the maximum data transmission rate of the traffic transmitted to the UEs according to the downlink maximum data rate provided by the resource allocation processor 540.

The resource management processor 530 limits the maximum data transmission rate of the downlink for transmitting data to the user terminal UE through the base station 200 to a predetermined reference rate.

Meanwhile, when the number of UEs in a cell is equal to or less than the number of reference UEs, UEs are allocated transmission resources for an uplink channel according to channel conditions, buffer status, and the like, .

3 is a control flowchart of a data transmission rate control system according to an embodiment of the present invention.

The resource allocation processor 540 of the base station controller 500 monitors the number of users in each cell served by each base station 200 (S110).

The resource allocation processor 540 determines whether the number of user terminals in the cell exceeds the number of reference user terminals, that is, the threshold value (S120). The number of user terminals to be a reference may be set differently according to the propagation environment of each cell.

Here, if the number of UEs in a cell is smaller than the reference number of UEs, the UE transmits data according to a data transmission rate set for each model. The data transmission rate set for each model of the user terminal UE may be stored in the storage unit 550 in advance.

On the other hand, if the number of UEs in the cell is larger than the number of UEs, the resource allocation processor 540 determines the maximum data rate of the UL and the maximum data rate of the UL (S130 ). The resource allocation processor 540 transfers the determined maximum data rate of the uplink to the message processor 520 and transmits the maximum data rate of the downlink to the resource management processor 530.

The maximum data transmission rate of the uplink and the downlink of each user terminal (UE) is limited according to the determined maximum data transmission rate (S140). Here, the message processor 520 transmits a maximum transmission rate limiting message including the uplink maximum data rate to the UE in the cell.

The resource management processor 530 limits the maximum data transmission rate of the traffic provided to the user terminal UE according to the downlink maximum data rate received from the resource allocation processor 540. [ That is, the resource management processor 530 limits the maximum data transmission rate of the downlink transmitted from the base station 200 to the user terminal UE according to the received transmission rate.

Meanwhile, the user terminal UE receives the maximum transmission rate restriction message and limits the data transmission rate according to the maximum data transmission rate included in the message.

4 is a flowchart of a data transmission rate control according to another embodiment of the present invention.

The resource allocation processor 540 of the base station controller 500 monitors the number of users in each cell served by each base station 200 (S210). Here, the storage unit 550 of the base station controller 500 stores charge information of each user terminal UE.

The resource allocation processor 540 determines whether the number of user terminals in the cell exceeds the number of reference user terminals, that is, the threshold value (S220). The number of user terminals to be a reference may be set differently according to the propagation environment of each cell.

Here, if the number of UEs in a cell is smaller than the reference number of UEs, the UE transmits data according to a data transmission rate set for each model.

On the other hand, if the number of UEs in the cell is larger than the number of UEs, the resource allocation processor 540 confirms the charging plan of each user terminal UE in step S230.

The resource allocation processor 540 determines the maximum data rate of the uplink and the maximum data rate of the downlink of each user terminal UE according to the rate plan used by each user terminal UE at step S240. The resource allocation processor 540 transfers the determined maximum data rate of the uplink to the message processor 520 and transmits the maximum data rate of the downlink to the resource management processor 530.

The maximum data transmission rate of the uplink and the downlink of each user terminal UE is limited according to the determined maximum data transmission rate (S250).

Here, the message processor 520 transmits a maximum transmission rate limiting message including the uplink maximum data transmission rate to each user terminal UE in the cell. The resource management processor 530 limits the maximum data transmission rate of the traffic provided to the user terminal UE according to the downlink maximum data rate received from the resource allocation processor 540. [ Meanwhile, the user terminal UE receives the maximum transmission rate restriction message and limits the data transmission rate according to the maximum data transmission rate included in the message.

Accordingly, the user terminals UE in the cell are limited in their maximum maximum data transmission speeds depending on the type of the charging plan.

According to such a configuration, the present invention limits the maximum data transmission rate of the uplink and downlink of a user terminal (UE) in a cell when the number of terminals in the cell exceeds the number of reference user terminals. Therefore, it is possible to prevent a decrease in the service quality of the entire cell due to the concentration of resources on a specific user in the cell.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

The data transmission rate control system and control method of the present invention can be used to ensure that all terminals in a cell can be guaranteed a transmission rate higher than a certain level by limiting the maximum data transmission rate of the user terminal when the number of terminals in the cell increases .

200: base station 500: base station controller
510: interface unit 520: message processing unit
530: resource management processor 540: resource allocation processor
550:

Claims (8)

delete A storage unit for storing a maximum data transmission rate corresponding to the number of reference user terminals and storing a maximum data transmission rate corresponding to a rate used by the user terminal and a maximum data transmission rate set according to a model of the user terminal;
An interface unit for communicating with the user terminal;
Counts the number of the user terminals located in the cell, and when the number of user terminals in the cell is larger than the number of reference user terminals stored in the storage unit, each user, according to the maximum data transmission rate set corresponding to the plan used by each user terminal, Determining a limited transmission rate of the uplink and the downlink of the user equipment when the number of user equipments in the cell is smaller than the number of the reference user equipments, A resource allocation processor for determining a limited transmission rate of the uplink and the downlink;
A maximum transmission rate limiting message for limiting an uplink maximum data transmission rate of a user terminal in the cell according to the uplink transmission rate determined by the resource allocation processor and transmitting the maximum transmission rate limiting message to the user terminal through the interface A processor; And
And a resource management processor for limiting a downlink maximum data rate of traffic of a user terminal in the cell according to the downlink transmission rate determined by the resource allocation processor. delete delete A method for a base station controller to control a data rate of a user terminal,
Counting the number of user terminals located within a cell;
Determines a limited transmission rate of the uplink and the downlink of each user terminal according to a maximum data transmission rate set corresponding to a rate used by each user terminal when the number of user terminals in the cell is greater than a pre- Determining a limited transmission rate of an uplink and a downlink of each user terminal according to a maximum data transmission rate set corresponding to a model of each user terminal, when the number of user terminals in the cell is smaller than the number of the reference user terminals; And
A maximum transmission rate limiting message for limiting a maximum uplink data rate of a user terminal in the cell according to the determined uplink transmission rate is generated and transmitted to the user terminal, Limiting a downlink maximum data rate of a user terminal in the cell;
And a data transmission rate control method.
delete delete delete

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