KR20070056367A - Mobile communication terminal and method for controlling transmission rate of reverse traffic channel - Google Patents

Abstract

A mobile communication terminal and a transfer rate controlling method of a reverse traffic channel are provided to set a reverse traffic transfer rate as the maximum limit value, depending on whether traffic is congested or according to the number of mobile communication terminals using reverse traffic, during packet transmission, so that packets can be transmitted at high speed. A receiver(40) receives data. A transmitter(30) transmits the data to the outside. A transceiving controller(20) analyzes the data received through the receiver(40), and sets a data transfer rate of the transmitter(30) as the maximum transfer rate limit value, depending on whether a reverse traffic channel is congested or according to the number of mobile communication terminals using the reverse traffic channel.

Description

Mobile communication terminal and method for controlling transmission rate of reverse traffic channel

1 is a block diagram showing the configuration of a mobile communication terminal according to the present invention;

2 is a diagram illustrating a quick config message structure of a mobile communication terminal according to the present invention;

3 is a flowchart illustrating a method of controlling a transmission rate of a reverse traffic channel according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: control unit 20: transmission and reception control unit

30: transmitter 40: receiver

50: memory 60: display

70: input unit

The present invention relates to a method for controlling a transmission speed of a mobile communication terminal and a reverse traffic channel, and more particularly, a method for improving transmission efficiency by setting a transmission speed of a reverse traffic channel to a maximum limit value according to the number of mobile communication terminals using reverse traffic. The present invention relates to a transmission rate control method for a communication terminal and a reverse traffic channel.

In general, a high speed wireless data communication (HDR) system is a system that provides a high speed packet data service excluding a real time voice service. The HDR system allocates a separate frequency band for high-speed data service by using a difference between voice traffic and data traffic, and proposes a method for efficient full-speed transmission of high-speed data.

When the conventional mobile communication terminal transmits data of a new packet in the HDR system, when the reverse activity bit (RAB) is 1 from at least one or more base stations of the plurality of base stations in the active set, the reverse traffic is transmitted. It is determined that the channel is congested to reduce the transmission rate.

In this case, when the transmission rate is 9.6 kbps or less, the transmission rate is maintained even when the reverse activity bit (RAB) is 1 as described above.

On the other hand, the mobile communication terminal also has a transmission rate that is twice the previous rate when all of the received reverse activity bits (RAB) is set to 0, or when another packet is already transmitted before transmitting a new packet. Data transfer is possible.

Here, the variable rate according to the reverse activity (RAB) as described above is to increase the reverse rate sequentially while preventing congestion of the reverse traffic channel.

In this case, since the transmission speed of the reverse traffic channel cannot be greater than the rate limit value, the mobile communication terminal sets the transmission rate of the reverse traffic channel to a smaller value by comparing the increase rate with the rate limit value.

In this case, the transmission speed of the mobile communication terminal is sequentially increased by doubling from 9.6kbps, and increases to 153.6kbps. This is to prevent the reverse traffic channel from being congested.

However, the mobile communication terminal can be efficiently used when a plurality of mobile communication terminals are connected to the reverse traffic channel to transmit and receive data, thereby causing a problem in that the transmission speed of the access terminal, that is, the mobile communication terminal, is increased slowly. In particular, even when a small number of mobile communication terminals are connected, since a low transmission rate is set, there is a problem that the efficiency of the transmission rate is greatly reduced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and, when transmitting a packet, sets a reverse traffic transmission rate as a maximum limit value according to the number of mobile communication terminals using reverse traffic or whether the traffic is congested. It is an object of the present invention to provide a method for controlling a transmission speed of a mobile communication terminal and a reverse traffic channel which prevents a drop in a reverse traffic channel and improves transmission efficiency by allowing a packet to be transmitted.

According to an aspect of the present invention, there is provided a mobile communication terminal including a receiver for receiving data, a transmitter for transmitting data to the outside, and a reverse traffic channel by analyzing data received through the receiver. And a transmission / reception control unit for setting the data transmission rate of the transmitter to a maximum transmission rate limit value according to the number or presence or absence of congestion of the reverse traffic channel.

In addition, the method for controlling the transmission rate of the reverse traffic channel according to the present invention includes a first step of counting the number of mobile communication terminals using the reverse traffic channel during packet transmission, and comparing the number of the mobile communication terminals with a predetermined reference value; And a second step of setting a transmission speed of the reverse traffic channel according to the comparison result.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a block diagram showing the configuration of a mobile communication terminal according to the present invention, Figure 2 is a diagram showing a quick config message structure of the mobile communication terminal according to the present invention.

As shown in FIG. 1, the mobile communication terminal according to the present invention includes an input unit 70, a display unit 60, a memory 50 in which a plurality of data are stored, and a receiver 40 receiving data from the outside. And a transmission unit 30 for transmitting data to the outside, a transmission and reception control unit 20 for controlling a transmission speed of the transmission unit 30 according to the data received through the reception unit 40, and controlling the data to be transmitted and received. And a controller 10 to be stored in the memory 50 and to operate the mobile communication terminal accordingly.

The receiver 40 receives a signal of a predetermined frequency band from an antenna (not shown), converts / amplifies the signal to be readable, and applies the signal to the transmission / reception control unit 20.

Here, the receiver 40 receives data from one or more base stations in an active set, and in particular, receives data about the presence or absence of congestion of a traffic channel, that is, a reverse activity bit (RAB).

In addition, the receiver 40 receives a quick config message (Quick Config Message) that is broadcast and broadcast periodically from the base station.

In addition, the receiver 40 receives a broadcast reverse rate limit message periodically transmitted from the at least one base station and applies it to the transmission / reception control unit 20.

The transmission / reception control unit 20 processes data received from the reception unit 40 according to a control command of the control unit 10, and controls the data to be transmitted through the transmission unit 30.

At this time, the transmission and reception control unit 20 analyzes the data received from the receiving unit 40 and controls the transmission rate of the data transmitted through the transmitting unit 30.

The transmission / reception control unit 20 reads RAB values received from at least one base station in an active set through the reception unit 40 to determine whether there is a congestion of the reverse traffic channel.

In addition, the transmission / reception control unit 20 analyzes a Quick Config Message received through the reception unit 40 to determine the number of mobile communication terminals currently using the reverse traffic channel.

In addition, the transmission / reception control unit 20 analyzes the reception of the reverse transmission limit message (Broadcast Reverse Rate Limit Message) through the reception unit 40, and determines the maximum transmission rate limit value of the reverse traffic.

At this time, the transmission / reception control unit 20 according to the presence or absence of congestion of the reverse traffic channel according to the RAB and the number of users (mobile communication terminals) of the reverse traffic channel through the Quick Config Message (30) Set the baud rate.

In particular, when the number of mobile communication terminals of the reverse traffic channel is less than or equal to the reference value, the transmission and reception control unit 20 sets the transmission rate to the maximum transmission rate limit value of the determined reverse traffic channel.

In addition, the transmission and reception control unit 20 analyzes the RAB received from one or more base stations to reduce the current transmission rate when at least one or more RAB values are 1, that is, when at least one or more traffic is congested, and all RAB values. If there is no traffic channel congested to zero, the transmission rate is increased. In addition, the transmission and reception control unit 20 allows the transmission rate to be maintained or changed according to the data rate conversion probability.

Here, when the number of mobile communication terminals of the reverse channel is greater than or equal to the reference value, the transmission / reception control unit 20 changes the transmission rate to the RAB value as described above, if there is a packet being transmitted before transmitting a new packet.

In particular, when all RABs are zero as described above, the transmission rate is set to be increased by twice the current transmission rate, and when at least one traffic is congested, the transmission rate is set to be reduced to 1/2 of the current transmission rate. do.

Accordingly, the transmitter 30 transmits the packet at the transmission rate value set by the transmission / reception control unit 20.

Here, the transmission / reception control unit 20 analyzes the data received from the reception unit 40 at predetermined time intervals and periodically changes the current transmission speed according to the number of users (mobile communication terminals) of the traffic channel, The transmission rate is increased or decreased accordingly.

As shown in FIG. 2, the transmission / reception control unit 20 reads a quick config message received from the reception unit 40 and sets a transmission rate as described above.

The Quick Config Message consists of a Message ID field, a Color Code field, a SectorID24 field, a SectorSignature field, an AccedssSignature field, , Reditect field, and RPCCount field (RPCCount).

At this time, the transmission and reception control unit 20 determines the number of mobile communication terminals using the reverse traffic channel according to the value of the 6-bit RPCCount (RPCCount) field of the Quick Config Message (Quick Config Message).

Here, the RPC Count field includes a DRClook value and a ForwardTrafficValid value, and the transmission / reception control unit 20 uses the number of mobile communication terminals that use a reverse traffic channel according to the number of fields whose ForwardTrafficValid value is '1'. Judge.

Looking at the operation of the present invention configured as described above are as follows. 3 is a flowchart illustrating a method of controlling a transmission rate of a reverse traffic channel according to the present invention.

When the mobile communication terminal intends to transmit a packet (data), the mobile communication terminal determines the number of mobile communication terminals using the reverse traffic channel. (S1)

At this time, the mobile communication terminal determines the number of users of the traffic channel through the data broadcast periodically from the base station, the Quick Config Message (Quick Config Message).

Herein, the mobile communication terminal determines that the number of users of the reverse traffic channel is large and small by comparing the number of users (mobile communication terminals) of the traffic channel with a predetermined reference value. The reference value is preferably set to three.

If the number of users of the reverse traffic channel is less than the reference value, the transmission rate for transmitting the packet is set to the maximum transmission rate limit value, so that the packet is transmitted at the maximum limit value. (S2)

Herein, the mobile communication terminal receives a broadcast reverse rate limit message broadcast from the base station to determine a maximum transmission rate limit value of the reverse traffic channel.

If the number of users of the reverse traffic channel is larger than the reference value, it is determined whether there is a packet currently being transmitted in addition to the newly transmitted packet.

In this case, if there is no packet currently being transmitted, the packet is transmitted by setting the transmission rate for the packet to be transmitted to 9.6 Kbps. (S4)

On the other hand, if there is a packet being transmitted, the Reverse Activity Bit (RAB) is received from one or more base stations in the Active Set. (S5)

At this time, the mobile communication terminal sets a transmission rate by generating a random variable (Ra) and comparing the data rate conversion ratio. (S5, S6)

In this case, the mobile communication terminal maintains the current transmission rate when the current transmission rate is lower than 9.6 Kbps, and variably sets the RAB value received from one or more base stations when it is larger than 9.6 Kbps. (S7 to S8)

If at least one of the RAB values received from the one or more base stations is '1', the current transmission rate is set to be reduced (S9).

In this case, when the RAB value is at least one or more as described above, the mobile communication terminal determines that at least one reverse traffic channel is congested so that the transmission rate is reduced to 1/2 of the current transmission rate. (S10)

For example, when the current transmission rate is 19.2 Kbps, if at least one RAB is '1', the transmission rate is changed to 9.6 Kbps.

At this time, if the current transmission rate is less than 9.6 Kbps to maintain the transmission rate. That is, if the current transmission rate is 9.6 Kbps or less, the current transmission rate is maintained without any change.

On the other hand, if all RAB values are zero, the transmission rate is increased to twice the current transmission rate. (S11)

In other words, if the current transmission speed is 19.2 Kbps, change the transmission speed to 38.4 Kbps, which is twice the speed.

Herein, the mobile communication terminal increases or decreases the transmission rate by two times according to the state of the reverse traffic channel, that is, whether there is congestion, so that the transmission rate is sequentially increased when the channel is not congested.

That is, the mobile communication terminal is set to the maximum transmission rate limit value according to the number of users of the reverse traffic channel as described above (S1 to S2), or set to increase or decrease the transmission rate according to the RAB value as described above (S7 to S11) Send the packet.

In this case, the mobile communication terminal resets the transmission rate according to the number of users of the reverse traffic channel or the received RAB value every predetermined time even during the transmission of the packet due to the transmission rate being set as described above.

That is, even when the packet is being transmitted at a low rate, if the number of mobile communication terminals using the reverse traffic channel is determined to be less than or equal to the reference value, the transmission rate is changed to a maximum transmission rate limit value. Enable data transfer.

Therefore, the transmission rate control method of the mobile communication terminal and the reverse traffic channel is to increase or decrease the transmission rate or set the maximum transmission rate limit according to the number of users of the reverse traffic channel, the presence or absence of congestion of the reverse traffic channel, It is possible to respond quickly and to transmit data at high speed, thereby increasing the efficiency of data transmission.

As described above, the method for controlling the transmission rate of the mobile communication terminal and the reverse traffic channel according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and the technical concept is protected. It can be applied within the range.

The transmission rate control method of the mobile communication terminal and the reverse traffic channel according to the present invention configured as described above has a transmission rate depending on the number of mobile communication terminals using the reverse traffic channel or the congestion of the reverse traffic channel during packet transmission. By increasing or decreasing the reverse traffic transmission rate as the maximum limit value, the packet is transmitted at a high transmission rate, so that it is possible to respond quickly to the channel state without changing the existing mobile communication network, thereby reducing the transmission rate in the reverse traffic channel. And the high speed data transmission is possible, thereby greatly improving the transmission efficiency of the traffic channel according to the data transmission.

Claims (12)

A receiving unit for receiving data and a transmitting unit for transmitting the data to the outside; And a transmission and reception control unit configured to set the data transmission rate of the transmitter to a maximum transmission rate limit value according to the number of mobile communication terminals using a reverse traffic channel or the presence or absence of congestion of the reverse traffic channel by analyzing data received through the reception unit. Mobile communication terminal, characterized in that configured. The method of claim 1, And the transmission / reception control unit sets a transmission rate to a maximum transmission rate limit value when the number of mobile communication terminals using a reverse traffic channel is less than or equal to a reference value. The method of claim 2, The transmission and reception control unit determines a number of mobile communication terminals using the reverse traffic channel by analyzing a quick config message (Quick Config Message) received from the base station. The method of claim 2, The transmission and reception control unit is a mobile communication terminal, characterized in that for determining the maximum transmission rate limit value from the Broadcast Reverse Rate Limit Message received from the base station. When sending a packet, Counting the number of mobile communication terminals using a reverse traffic channel and comparing the number of mobile communication terminals with a predetermined reference value; And a second step of setting a transmission rate of the reverse traffic channel according to the comparison result. The method of claim 5, The first step includes analyzing a quick config message broadcast from a base station and counting the number of mobile communication terminals using the reverse traffic channel. Channel transmission speed control method. The method of claim 5, The first step is to control the transmission rate of the reverse traffic channel, characterized in that for setting the maximum transmission rate limit value from the Broadcast Reverse Rate Limit Message received from the base station. The method of claim 5, The second step includes a first step of determining whether there is a current packet transmission; And a second step of varying a transmission rate according to an RAB value received from at least one base station. The method of claim 8, The first process is to control the transmission rate of the reverse traffic channel, characterized in that the transmission rate is set to 9.6 Kbps when there is no packet currently being transmitted. The method of claim 8, The second process is to control the transmission rate of the reverse traffic channel, characterized in that to increase the current transmission rate twice, if all the RAB value is 0. The method of claim 8, The second process is to control the transmission rate of the reverse traffic channel, characterized in that if at least one or more RAB value of 1 is received, the current transmission rate is reduced to 1/2. The method of claim 11, The second process is to control the transmission rate of the reverse traffic channel, characterized in that the current transmission rate is maintained if the current transmission rate is less than 9.6 Kbps.

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