KR101429770B1 - Data transfer system, Base station and Terminal thereof and Data transfer method thereof - Google Patents

Abstract

The present invention relates to an HSDPA system in which a scheduler of a base station sets a data transmission rate in consideration of a data input rate to be transmitted to a transmission queue of a base station. The present invention includes a base station for storing data transmitted from a central network (100) and determining a transmission scheme for transmitting the stored data; And a terminal 400 connected to the base station 300 and receiving data from the base station 300 and transmitting feedback information to the base station 300. The base station 300 includes a base station 300, The communication speed to transmit the data to the terminal 400 is determined in consideration of an input speed of data transmitted from the network 100. [ According to the present invention, since the terminal does not set an excessive clock rate when receiving data, the power consumption of the terminal can be reduced.

HSDPA, transmission queue, Node-B, transmission rate

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system, a base station and a terminal,

The present invention relates to an HSDPA system in which a scheduler of a base station sets a data transmission rate in consideration of a data input rate to be transmitted to a transmission queue of a base station and more specifically to a HSDPA system in which a data input rate and a CQI transmission rate are compared And sets a low value to a communication speed for transmitting actual data.

(HSDPA) service refers to a technique for improving data download speed in WCDMA, a 3G mobile communication providing video communication, high-speed data, and the like.

In 3GPP, which standardized WCDMA, in order to meet the demand of high speed packet data service in the rapidly increasing wireless mobile environment, the standard which enables higher data rate packet data transmission was developed and as a result, HSDPA was completed.

At this time, the transmission rate of data transmitted from the Node B (hereinafter, referred to as 'Node-B') to the UE in the HSDPA service is determined considering only the reception state of the UE.

Therefore, the conventional HSDPA as described above has the following problems.

That is, even when the data rate transmitted to the base station is slow, the transmission speed between the Node-B and the terminal is set to the maximum speed (when the reception state of the terminal is good), which causes the terminal CPU to operate excessively.

In the prior art, since the terminal CPU is unnecessarily operated at a high speed, the power consumption of the terminal is increased, shortening the use time of the portable terminal.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for transmitting data to a base station And to provide an HSDPA system that reflects an input speed of data to a communication speed setting.

According to an aspect of the present invention, there is provided a mobile communication system including a base station for storing data transmitted from a central network and determining a transmission mode for transmitting the stored data; And a terminal connected to the base station, for receiving data from the base station and for transmitting feedback information to the base station, the base station comprising: And determines the communication speed at which data is to be transmitted.

In this case, the base station includes: a transmission queue for storing data transmitted from the central network for each receiving terminal; And a scheduler for determining a transmission mode for transmitting the data to the mobile station.

The scheduler may further include: a CQI transmission rate calculated from channel quality information (CQI) received from the terminal; A data input rate received from the central network to the transmission queue may be compared and a smaller value may be set to the communication rate.

Also, the setting of the communication speed may be repeated periodically every data transmission unit time.

The terminal may set the clock of the received signal and the processing speed of the received data according to the communication speed notified by the scheduler.

Meanwhile, in the HSDPA (Downlink High-speed Data Transmission) system, the present invention determines a communication speed between the base station and a mobile station in consideration of an input speed of data transmitted from the central network, Scheduler.

At this time, the setting of the communication rate may be repeatedly performed whenever a change in the CQI transmission rate or the data input rate occurs.

According to another aspect of the present invention, there is provided an HSDPA (Downlink High-speed Data Transmission) system, which receives a data transmission scheme from a scheduler of a base station and sets a data reception scheme accordingly; And a terminal for setting a data reception clock rate and its processing clock rate according to the communication rate received from the scheduler.

(A) calculating an input rate of data to be transmitted to a transmission queue of a base station; (B) calculating a CQI transmission rate according to a channel quality information (CQI) value received from a terminal; (C) comparing the data input rate with the CQI transmission rate, and setting a smaller one of them to the communication rate.

Here, the data transmission method according to the present invention includes: (D) transmitting the communication rate information to a terminal; (E) setting the data reception clock rate in response to the communication rate, by the terminal that has received the communication rate information.

In the HSDPA system, a scheduler in a base station sets a communication rate by comparing a CQI transmission rate calculated from channel quality information (CQI) received from a terminal with an input rate of data transmitted from the central network; The terminal includes a data transmission method of receiving information on the set communication speed and setting a data reception clock speed and a processing clock speed in accordance with the communication speed.

In the data transmission system and the data transmission method according to the present invention as described above, the following effects can be expected.

That is, the communication speed at which data is transmitted to the terminal is set to a minimum speed required to transmit actual data. Therefore, the clock speed of the terminal can be lowered, and the power consumption of the terminal is reduced by lowering the clock speed.

As the clock speed of the terminal is lowered, the load of the terminal CPU is lowered and the amount of heat generated in the terminal is also reduced.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a downlink high-speed data transmission apparatus and a data transmission method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a configuration of an HSDPA network, FIG. 2 is a block diagram illustrating a channel set up between a base station and a terminal constituting an HSDPA system, and FIG. Is connected to the base station, and FIG. 4 is an exemplary diagram showing an example of the CQI table.

As shown in these drawings, the HSDPA system includes a central network 100 and a radio network controller (RNC) 200 connected thereto.

The RNC 200 transmits the data transmitted from the central network 100 to a Node B 300 or 300 'to be described later and manages information of each of the terminals 400 and 400' (SRNC), and controls each Node B (CRNC).

Meanwhile, the RNC 200 is connected to Node Bs 300 and 300 'connected to one or more UEs 400 and 400'. The Node-B 300, 300 'determines the transmission speed, the modulation method, and the like in transmitting data to the connected terminals 400, 400'. The structure of the Node-B 300 and 300 'will be described in detail with reference to FIG.

Meanwhile, for data communication between the Node-B 300 and the terminal 400 of the HSDPA system, three channels are used as shown in FIG.

2, channels between the Node-B 300 and the MS 400 are HS-SCCH, HS-DPCCH, and HS-DSCH.

The High Speed Shared Control Channel (HS-SCCH) includes a Transport Format and Resource Indicator (TFRI) including information on a channel code, a modulation scheme, and a size of a transport block, and a downlink Channel.

The HS-DPCCH (High Speed Shared Dedicated Physical Control Channel) is an uplink channel for transmitting feedback information from the UE 400 to the Node-B 300. Transmits ACK / NACK information indicating whether the packet is delivered through the HS-DPCCH, and transmits a CQI (Channel Quality Indicator) to notify the reception status of the terminal 400. [

Meanwhile, HS-DSCH (High Speed Downlink Shared Channel) is a downlink transmission channel for high-speed packet data transmission. The HS-PDSCH is a physical channel for transmitting an HS-DSCH, and the HS-DSCH is composed of one or more HS-PDSCHs.

Hereinafter, the structure of the Node-B according to the present invention will be described in detail with reference to FIG.

3, the Node-B 300 according to a specific embodiment of the present invention includes a transmission queue 310, a scheduler 320, and an H-ARQ processor 330 .

The transmission queue 310 stores the data transmitted from the RNC 200 according to the connected terminal 400. That is, one transmission queue 310 is assigned to each connected terminal 400 And the data to be transmitted to the connected terminal 400 is loaded on the allocated transmission queue 310.

Meanwhile, the scheduler 320 determines a transmission mode for transmitting the data stored in the transmission queue 310 to the terminal 400. That is, the modulation method of the data, the size of the packet, and the like are determined. Of course, the transmission rate at which the data is transmitted is determined accordingly. At this time, the determined transmission rate is referred to as a CQI transmission rate for convenience of explanation.

The determination of the transmission scheme is determined by the CQI value received from the terminal 400. In more detail, the transmission method is read from the CQI table as shown in FIG. 4, with the CQI value received from the terminal 400.

Meanwhile, the scheduler 320 calculates a loading rate of data to be loaded in the transmission queue 310, that is, an input rate of data input from the RNC 200. At this time, the calculated input speed is referred to as a data input speed for convenience of explanation.

The scheduler 320 compares the CQI transmission rate with a data input rate and determines a slow value as a 'communication rate' for transmitting actual data.

The calculated communication rate is transmitted to the terminal 400 through the HS-SCCH, and the terminal 400 sets the reception rate according to the communication rate.

Meanwhile, the H-ARQ processor 330 retransmits a packet in which an error has occurred when an error occurs in data transmission (NACK reception). At this time, the HSDPA uses a channel stop-and-wait retransmission method differently from WCDMA because of the nature of high-speed data transmission.

Hereinafter, a data transmission method of a downlink high-speed data transmission apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a flow chart illustrating a method for transmitting data in accordance with a specific embodiment of the present invention.

As shown in the figure, in the HSDPA data transmission method according to the present invention, the Node-B 300 first counts the amount of data input to the transmission queue 310 (S100).

Then, after a predetermined time has elapsed after counting the time, the data input speed is calculated (S110, S120, S130). That is, the amount of data input during the set time is divided by the set time, and the amount of data (data input speed) input per unit time is calculated.

Then, the CQI value is determined based on the CQI value received from the terminal 400, and the CQI transmission rate is calculated according to the CQI value (S140).

At this time, the scheduler 320 sets a data transmission scheme using a CQI table as shown in FIG. 4, if the CQI value received from the terminal 400 is 5, the block size is "377 ", the modulation scheme is based on the QPSK scheme, and one data transmission channel is allocated. On the other hand, when the CQI value is 26, the block size is "7163 ", the modulation scheme is based on the 16-QAM scheme, and the data transmission channel is allocated five. The CQI transmission rate is determined according to this transmission scheme.

Then, the Node-B 300 compares the CQI transmission rate with the data input rate (S150).

If the data input speed is equal to or lower than the CQI transmission speed, the data input speed is set as the communication speed (S160). In this case, the communication speed is a rate at which the Node-B 300 transmits data to the terminal 400.

Meanwhile, if the data input rate is greater than the CQI transmission rate, the CQI transmission rate is set to the communication rate (S170).

Then, the Node-B 300 notifies the terminal 400 of the communication method (modulation scheme, packet size, etc.) and the communication speed through the HS-SCCH (S200).

The terminal 400 receiving the communication rate sets a receiving method according to the received information (S210, S220). That is, the reception speed is set in accordance with the communication speed. Here, the setting of the reception rate refers to the received data rate and the signal processing rate for processing the data rate, and refers to setting the signal transmission clock rate and the processing clock rate.

Then, the Node-B 300 transmits the data stored in the transmission queue 310 to the terminal 400 through the HS-DSCH at a set communication rate (S300). Then, the terminal 400 receives and processes the data at the communication rate (S310).

In step S320, a response message (ACK / NACK) for the reception is transmitted to the Node-B 300 through the HS-CPCCH.

When the data input speed detected by the Node-B 300 in units of cycle time is changed or the CQI value calculated by the terminal 400 is changed, the communication speed is reset in step 150 And the like.

Of course, since the CQI value is received from the terminal to the base station every 2 ms (data reception period) in the HSDAP, it is also possible to update the communication rate at intervals of 2 ms.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

The present invention relates to an HSDPA system in which a scheduler of a base station sets a data transmission rate in consideration of a data input rate to be transmitted to a transmission queue of a base station. According to the present invention, The communication speed to be transmitted is set to a minimum speed required for transmitting actual data. Therefore, the clock speed of the terminal can be lowered, and the power consumption of the terminal is reduced by lowering the clock speed.

1 is a block diagram showing a configuration of an HSDPA network;

2 is a block diagram illustrating a channel that is set up between a base station and a terminal that constitute an HSDPA system.

3 is a block diagram illustrating a state in which a terminal is connected to a base station in a specific embodiment of the present invention.

4 is an exemplary diagram showing an example of a CQI table;

5 is a flow diagram illustrating a method for transmitting data in accordance with a specific embodiment of the present invention.

Description of the Related Art [0002]

100: central network 200: RNC

300: Node-B 310: transmission queue

320; Scheduler 330; H-ARQ processor

400: terminal

Claims (14)

A base station for storing data transmitted from a central network and determining a transmission scheme for transmitting the stored data; And a terminal connected to the base station, for receiving data from the base station and for transmitting feedback information to the base station, The base station includes a transmission queue for storing data transmitted from the central network for each receiving terminal and a scheduler for determining a transmission mode for transmitting the data to the terminal, Wherein the base station determines a communication rate for transmitting the data to the terminal in consideration of an input rate of data transmitted from the central network. delete The method according to claim 1, The scheduler comprising: A CQI transmission rate calculated from channel quality information (CQI) received from the terminal; Wherein the data transmission rate is set to a value smaller than a transmission rate of data received from the central network. The method of claim 3, The communication speed may be set, for example, Wherein the data transmission is repeated periodically every data transmission unit time. The method according to any one of claims 1, 3, and 4, The terminal comprises: And sets the processing speed of the received data and the clock of the received signal in accordance with the communication speed notified by the scheduler. In an HSDPA (downlink high-speed data transmission) system, Determining a communication speed between the base station and the terminal in consideration of an input speed of data transmitted from the central network, Wherein the communication rate is determined by comparing a CQI transmission rate calculated from the channel quality information (CQI) received from the terminal with a data input rate received from the central network, setting a smaller one of the CQI transmission rate and the communication rate, Wherein the setting of the communication rate is repeatedly performed whenever a change in the CQI transmission rate or the data input rate occurs. delete delete delete (A) calculating an input rate of data to be transmitted to a transmission queue of a base station; (B) calculating a CQI transmission rate according to a channel quality information (CQI) value received from the terminal; (C) comparing the data input rate and the CQI transmission rate, and setting a smaller one of them as a communication rate; (D) transmitting the communication rate information to the terminal; And (E) setting a data reception clock rate in response to the communication rate by the terminal that has received the communication rate information. 11. The method of claim 10, Wherein the determination of the communication speed comprises: A CQI transmission rate calculated from channel quality information (CQI) received from the terminal; Wherein the transmission rate is determined by comparing a data input rate received at the transmission queue and setting a smaller one of the transmission rate and the data rate at the communication rate. delete In the HSDPA system, A scheduler in a base station sets a communication rate by comparing a CQI transmission rate calculated from channel quality information (CQI) received from a terminal and an input rate of data transmitted from a central network; Wherein the terminal receives information on the set communication rate and sets a data reception clock rate and a processing clock rate in accordance with the communication rate, wherein the communication rate is set to a smaller value of a CQI transmission rate and a data input rate, Data transmission method. delete

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