KR20120117338A - System and method for data rate control - Google Patents

Abstract

PURPOSE: A data transmission speed control system and method thereof are provided to restrict the maximum data transmission speed of an uplink and a downlink to a specific value when the number of UE is increased in a cell. CONSTITUTION: A base station controller(500) counts the number of UE in a cell. The base station controller transmits an uplink transmission speed restriction message. The base station controller restricts downlink transmission speed to the set transmission speed. The base station controller and an EDCH(Enhanced Uplink Dedicated CHannel) are set in the UE. The UE converts the maximum transmission speed of an uplink according to the transmission speed included in a restriction message. [Reference numerals] (500) Base station controller

Description

System and Method for Data Rate Control

The present invention relates to a data rate control system and method, and more particularly, to all the user terminals in a cell by limiting the maximum data transmission rate of the uplink and downlink of the user terminal to a specific value when the number of terminals in the cell increases The present invention relates to a data transmission rate control system and a control method for ensuring a transmission rate higher than a predetermined level.

A mobile communication system divides an entire service area into a plurality of base station areas, constitutes a small service area of cells, and provides a service for each cell. In a wideband code division multiple access (WCDMA) communication system that provides a cell-based communication service, an enhanced uplink dedicated channel (hereinafter referred to as 'EDCH') and a high-speed downlink shared channel defined in the 3GPP R6 standard (High) Speed Downlink Shared Channel (hereinafter referred to as HS-DSCH).

The DCH is a channel capable of transmitting data and control signals between the network and the user terminal, and the enhanced uplink DCH, the EDCH, can support a maximum transmission rate (or block size) according to the user terminal model and transmit time interval (TTI). The physical format is different.

In addition, the mobile communication system supporting the E-DCH can maximize the efficiency of uplink transmission by using a base station scheduling scheme and a complex retransmission scheme (HARQ).

In the base station scheduling scheme, the base station receives the channel state and the buffer state of the user terminals, and controls reverse transmission of the user terminals based on the received information. The base station allows efficient use of limited uplink transmission resources by allowing a large amount of data transmission to user terminals in good channel conditions and minimizing the amount of data transmission to user terminals in poor channel conditions.

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

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

The base station determines the transmission resource for the uplink channel of the user terminal using the channel status and buffer status information of the user terminal, and informs the user terminal of the determined transmission resource information, that is, the transmission rate.

As described above, according to the related art, the EDCH, which is a high speed uplink packet access (HSUPA) transmission channel, has a maximum transfer rate (or block size) and a physical format that can be supported according to a model of a user terminal and a transmit time interval (TTI).

In addition, unlike the existing R99, EDCH has a high physical data transmission rate, and thus a high ratio of processing load in L1 is high. Therefore, when the number of EDCH user terminals increases, the load of the portion for processing physical data increases equally, and thus may act as a constraint of the user terminal that can be processed by the base station.

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

The present invention has been made to solve the above-described problem, when the number of terminals in the cell increases, by limiting the maximum data transmission rate of the uplink and downlink of the user terminal to a specific value, all the user terminals in the cell transmit a predetermined level or more There is a technical problem to provide a data rate control system and control method to ensure the speed.

The data transmission rate control system of the present invention for achieving the above object, by counting the number of the user terminal in the cell, according to the number of the user terminal in the cell preset transmission rate of the user terminal in the cell A base station controller for transmitting an uplink transmission rate limiting message limited to the terminal and limiting a downlink transmission rate for the user terminals to a preset transmission rate; And a user terminal configured to establish an Enhanced Uplink Dedicated CHannel (EDCH) with the base station controller to change the maximum transmission rate of the uplink according to the transmission rate included in the transmission rate limit message.

The base station controller of the present invention for achieving the above object, the interface unit for communication with the user terminal; A resource allocation processor for counting the number of user terminals located in a cell and determining uplink and downlink limited transmission rates of the user terminals in the cell according to the number of user terminals in the cell; A message for generating a maximum transmission rate limit message for limiting an uplink maximum data rate of a user terminal in the cell according to the limited transmission rate of the uplink determined by the resource allocation processing unit and transmitting the message to the user terminal via the interface unit; Processing unit; And a resource management processing unit for limiting a maximum downlink data transmission rate for the user terminal in the cell according to the downlink transmission rate determined by the resource allocation processing unit.

Here, when the number of user terminals in the cell is greater than the number of reference user terminals, the resource allocation processing unit may perform the uplink and downlink so that the maximum data transmission rates of uplink and downlink of the user terminal in the cell are limited downward. You can determine the limiting transmission rate of.

In addition, the data transmission rate control method of the present invention for achieving the above object, in the method for the base station controller to control the data transmission rate of the user terminal, by counting the number of the user terminal located in the cell, Determining an uplink limited transmission rate of user terminals in the cell according to the number of user terminals; And generating a maximum rate limiting message for limiting an uplink maximum data rate of a user terminal in the cell according to the determined uplink limiting transmission rate, and transmitting the maximum rate limiting message to the user terminal.

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

Here, the step of determining the limited transmission rate of the uplink and downlink of the user terminals in the cell according to the number of user terminals in the cell, if the number of user terminals in the cell is larger than the reference user terminal number, And determining the maximum transmission rate of the uplink and the downlink so that the maximum data rates of the uplink and the downlink of the user terminal are limited downward.

As described above, in the data rate control system and control method of the present invention, when the number of terminals in a cell increases, the maximum data rate of uplink and downlink of the user terminal is limited to a specific value for all user terminals in the cell. It can guarantee the transmission speed more than a certain level.

In addition, the data transmission rate control system and control method of the present invention, by limiting the data transmission rate at each base station, it is possible to minimize the inconvenience to the user by minimizing the area where the data transmission rate is limited to the corresponding service cell, the user density This can effectively solve the deterioration of service quality in certain regions.

1 is a block 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 rate control system according to an embodiment of the present invention;
3 is a data rate control flowchart according to an embodiment of the present invention;
4 is a data rate control flowchart 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.

The base station described below is referred to in various terms according to generation, such as BS (Base Station) in the second generation mobile communication, Node-B in the third generation mobile communication, and will be collectively described as the base station 200.

In addition, the base station controller is referred to as various terms according to the generation, such as a base station controller (BSC) in the second generation mobile communication, a radio network controller (RNC) in the third generation mobile communication, etc., hereinafter, the base station controller 500 will be described collectively Let's do it.

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

As shown in FIG. 1, the data rate control system counts the number of user equipments (UEs) located in a serving cell of the base station 200, and the number of user terminals (UEs) in the cell is a reference number of user terminals. If greater, 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 and downlink transmission rates to a specific value when the number of UEs located in the cell is larger than the number of reference UEs. Limit the maximum data rate. Here, the uplink means data transmission from the UE to the base station 200, and the downlink means communication from the base station 200 to the terminal.

The base station controller 500 counts the number of user terminals (UEs) located in a cell, and if the number of user terminals (UEs) in the cell is larger than the reference user terminal number, the uplink and downlink with the user terminals (UE) Limit the maximum data rate of the data to a specific value. Here, the base station controller 500 sets the maximum data transmission rate of the UE by a specific value by transmitting a message for setting the maximum transmission rate through the user equipment UE and the configured enhanced uplink dedicated channel (EDCH). Can be.

The base station controller 500 controls the maximum data rate of the downlink to a specific value when traffic of the user terminal (UE) does not exceed a limited value.

In addition, the base station controller 500 transmits a maximum transmission rate limit message to the user terminal (UE) such that an uplink maximum transmission rate of the user terminal (UE) does not exceed a limited value according to a predetermined specific value.

In the user terminal (UE), an uplink transmission rate is initially determined according to a model. Accordingly, when receiving the maximum transmission rate limit 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 rate limiting message and the user is allocated an uplink power resource.

The user terminal (UE) is connected to the base station controller 500 through the EDCH, the transmission rate is changed so that the maximum data 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 limit message may include an uplink maximum transmission rate and user terminal identification information set according to the number of UEs located in a cell.

According to this configuration, when the base station controller 500 has a user terminal (UE) or more than a reference number in the cell, by limiting the maximum data transmission rate of all the UE (UE) in the cell to a specific reference value, the specific terminal is limited to resources By excessively occupying, it is possible to prevent the communication quality of all terminals in the cell from being degraded.

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

If the number of UEs in the cell is less than or equal to the reference number, the base station 200 transmits information on uplink channel conditions and information on transmission resources required by the UE through the EDCH established with the UE. Receive information. For example, the uplink transmission power transmitted by the user terminal UE, the transmission power margin of the user terminal, and the buffer status information of the terminal may be received from the user terminal UE.

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

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

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

As shown in FIG. 2, the base station controller 500 controlling the data transmission rate includes an interface unit 510, a message processing unit 520, a resource management processing unit 530, and a resource for communication with a user terminal (UE). The allocation processor 540 includes a storage unit 550 in which maximum data rate information is stored according to the number of terminals in a cell.

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

In addition, the storage unit 550 may store uplink transmission rate information set according to a model of a user terminal (UE) when providing a regular service.

The resource allocation processing unit 540 counts the number of user terminals in a cell for each base station 200, and when the number of user terminals in a cell is larger than the reference user terminal number, the resource allocation processing unit 540 presets uplink and downlink maximum data transmission rates of the corresponding cell. Change it to a value. Here, the changed maximum data transmission rate is a value adjusted downward than the maximum data transmission rate that the user terminal (UE) can support, thereby preventing the specific user terminal (UE) from excessively occupying resources.

For example, when the number of user terminals (UEs) exceeds X names, the resource allocation processing unit 540 may adjust the maximum transmission rate of uplink to Y kbps and the maximum transmission rate of 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, in order to guarantee a transmission rate of 2 Mbps based on cell T / P, the number of user terminals for limiting a data transmission rate may be limited to 32 users.

And, if there are more people in the cell than the number of reference user terminals, the maximum data rate can be limited to 64kbps.

Therefore, in the cell, if the number of terminals in the cell is 32 or more, the maximum data transmission rate of each terminal is limited to 64 kbps, and thus, all terminals in the cell can be guaranteed a transmission speed of 2 Mbps.

As such, the resource allocation processing unit 540 limits the maximum data transmission rates of the uplink and the downlink to a predetermined criterion when the number of UEs in the cell exceeds X names, thereby reducing the number of UEs. It prevents over-taking of this resource.

If the number of user terminals in the cell is greater than the number of reference user terminals, the resource allocation processing unit 540 limits the maximum data transmission rate of uplink of all user terminals (UE) in the cell.

Accordingly, the resource allocation processing unit 540 transmits the determined maximum data transmission rate of the uplink to each user terminal (UE) in the cell through the message processing unit 520, thereby increasing the maximum data transmission rate of the user terminal (UE) You can control not to exceed a certain value. Here, the resource allocation processing unit 540 may set the maximum data transmission rate differently according to the rate plan used by each user terminal (UE).

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

The message processing unit 520 may be configured to limit the maximum data transmission rate of each user terminal (UE) to the maximum data transmission rate of the user terminal (UE) provided by the resource allocation processing unit 540. Create

The message processor 520 transmits the message having the maximum data rate set to the base station 200 so that the uplink maximum data rate of each user terminal (UE) is proposed to the set value.

The resource management processor 530 limits the maximum data transmission rate of traffic transmitted to the user terminals (UEs) according to the downlink maximum data transmission rate provided by the resource allocation processing unit 540.

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

Meanwhile, when the number of user terminals in a cell is less than or equal to the reference user terminal, each user terminal (UE) is allocated a transmission resource for an uplink channel according to a channel condition and a buffer condition, and receives a transmission rate according to the allocated transmission resource. Can be.

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

The resource allocation processing unit 540 of the base station controller 500 monitors the number of users in a cell serviced by each base station 200 (S110).

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

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

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

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

In addition, the resource management processor 530 limits the maximum data transmission speed of the traffic provided to the UE according to the downlink maximum data transmission rate received from the resource allocation processing unit 540. That is, the resource management processor 530 limits the maximum data transmission rate of downlink transmitted from the base station 200 to the user terminal (UE) according to the received transmission rate.

On the other hand, the UE receives the maximum transmission rate limit message and limits the data transmission rate according to the maximum data transmission rate included in the message.

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

The resource allocation processing unit 540 of the base station controller 500 monitors the number of users in a cell serviced by each base station 200 (S210). Here, the storage unit 550 of the base station controller 500 stores the plan information that each user terminal (UE) is subscribed to.

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

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

On the other hand, when the number of user terminals (UE) in the cell is larger than the reference user terminal (UE), the resource allocation processing unit 540 checks the rate plan that each user terminal (UE) is subscribed (S230).

The resource allocation processing unit 540 determines the maximum data transmission rate of the uplink and the maximum data transmission rate of the downlink of each user terminal (UE) according to the rate plan being used by each user terminal (UE) (S240). The resource allocation processor 540 transmits the determined maximum data transmission rate of the uplink to the message processor 520, and transmits the maximum data transmission 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 rate (S250).

Here, the message processor 520 transmits a maximum rate limit message including an uplink maximum data rate to each user terminal (UE) in the cell. In addition, the resource management processor 530 limits the maximum data transmission speed of the traffic provided to the UE according to the downlink maximum data transmission rate received from the resource allocation processing unit 540. On the other hand, the UE receives the maximum transmission rate limit message and limits the data transmission rate according to the maximum data transmission rate included in the message.

Accordingly, the maximum maximum data transmission rate of the UE in the cell is limited according to the type of the subscription plan.

According to this configuration, when the number of terminals in a cell exceeds the number of reference user terminals, the present invention limits the maximum data transmission rates of uplink and downlink of a user terminal (UE) in a cell. Therefore, it is possible to prevent resources from being concentrated on specific users in the cell, thereby reducing the quality of service of the entire 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 rate control system and control method of the present invention can be used to limit the maximum data rate of a user terminal when the number of terminals in a cell increases, so that all terminals in the cell can be guaranteed a transmission rate of a certain level or more. .

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

Claims (8)

Counting the number of the user terminal in the cell, according to the number of the user terminal in the cell transmits an uplink transmission rate limit message for limiting the maximum transmission rate of the user terminal in the cell to a predetermined transmission rate and to the user terminals A base station controller for limiting a downlink transmission rate for the predetermined transmission rate; And
A user terminal configured to establish an Enhanced Uplink Dedicated CHannel (EDCH) with the base station controller to change the maximum transmission rate of the uplink according to the transmission rate included in the transmission rate limit message;
Data rate control system comprising a. 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 uplink and downlink limited transmission rates of the user terminals in the cell according to the number of user terminals in the cell;
A message for generating a maximum transmission rate limit message for limiting an uplink maximum data rate of a user terminal in the cell according to the limited transmission rate of the uplink determined by the resource allocation processing unit and transmitting the message to the user terminal via the interface unit; Processing unit; And
And a resource management processor configured to limit a maximum downlink data transmission rate of traffic of a user terminal in the cell according to the downlink limited transmission rate determined by the resource allocation processor. The method of claim 2,
The resource allocation processing unit,
If the number of user terminals in the cell is greater than the reference user terminal number, determining the uplink and downlink limited transmission rates so that the maximum data transmission rates of uplink and downlink of the user terminal in the cell are limited downward. Base station controller characterized in. The method of claim 3,
The resource allocation processing unit,
If the number of user terminals in the cell is larger than the reference user terminal number, the uplink and downlink data rates of the uplink and downlink of each user terminal are limited according to a plan subscribed to by the user terminal in the cell. A base station controller characterized in that it determines the downlink limit transmission rate. In the method for the base station controller to control the data rate of the user terminal,
Counting the number of user terminals located in a cell and determining an uplink limited transmission rate of user terminals in the cell according to the number of user terminals in the cell; And
Generating a maximum transmission rate limiting message for limiting an uplink maximum data rate of a user terminal in the cell according to the determined uplink limiting transmission rate, and transmitting the maximum rate limiting message to the user terminal;
Data transmission rate control method comprising a. The method of claim 5,
Determining a downlink limited transmission rate for user terminals in the cell according to the number of user terminals in the cell; And
And limiting a maximum downlink data rate for a user terminal in the cell according to the determined downlink limited transmission rate. The method of claim 6,
Determining the limited transmission rate of uplink and downlink of the user terminals in the cell according to the number of user terminals in the cell,
If the number of user terminals in the cell is greater than the reference user terminal number, determining the uplink and downlink limited transmission rates so that the maximum data transmission rates of uplink and downlink of the user terminal in the cell are limited downward. Data transmission rate control method comprising a. The method of claim 6,
Determining the limited transmission rate of uplink and downlink of the user terminals in the cell according to the number of user terminals in the cell,
If the number of user terminals in the cell is larger than the reference user terminal number, the uplink and downlink data rates of the uplink and downlink of each user terminal are limited according to a plan subscribed to by the user terminal in the cell. And determining a limiting transmission rate of the downlink.

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