KR101135999B1 - A Method Controlling Data Rate Control Channel of EVDO - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Data Rate Control Channel (DRC Channel) of EVDO (Evolution Data Only). This is to solve the problem that the data rate control lock (DRCLock) channel informs the access terminal of an inappropriate or incorrect data rate control lock signal.

According to the present invention, when the data rate control lock signal is set to "0" and is known to the access terminal, the access terminal immediately stops transmitting the data rate control channel for a predetermined time or up to a maximum value of the data rate control channel. Increasing the power reduces the unnecessary movement between sectors of the access network in a rapidly changing environment, and the performance of the forward transport channel is good, but the data rate is only because the access network misjudges the data transmission speed of the access terminal. By sending a control lock signal, it is possible to prevent data transmission rate control channel from being interrupted, thereby improving data transmission efficiency.

EVDO (Evolution Data Only), Data Rate Control Channel (DRC Channel), Data Rate Control Lock Channel (DRCLock Channel)

Description

A method control data rate control channel of EVDO

1 is a block diagram illustrating a data rate control channel and a data rate control lock channel between an access network and an access terminal.

2 is a flowchart illustrating a control method of a data rate control channel of an access terminal using a conventional data rate control lock channel.

3 is a flowchart illustrating a method of controlling a data rate control channel of an access terminal using a data rate control lock channel according to the present invention.

4 is a flowchart illustrating a control method of increasing power using only time in a data rate control channel control method of an access terminal using a data rate control lock channel according to the present invention.

5 is a flowchart illustrating a control method of increasing power using only a maximum power of a data rate control channel control method of an access terminal using a data rate control lock channel according to the present invention.

6 is a block diagram showing a control apparatus of a data rate control channel of an access terminal using a data rate control lock channel according to an embodiment of the present invention.

When using a Data Rate Control Channel (DRC Channel) in EVDO (Evolution Data Only), when the signal of the data rate control channel cannot be recognized, the sector of the access network is accessed. In order not to transmit data to an access terminal (AT), the fact is informed to an access terminal through a Data Rate Control Lock Channel (DRCLock Channel). Speed control locking operation.

Herein, the data rate control channel is a reverse traffic channel indicating a rate at which an access terminal can receive on a forward traffic channel and a sector to which data is to be received through a forward transport channel. ) Means one channel.

The data rate control locking channel refers to one channel of a forward transmission channel that informs an access terminal whether an access network (AN) can receive data rate control information sent by an access terminal.

An access terminal is a device that provides a data connection to a user. The access terminal may be connected with a computer device such as a laptop personal computer or with a data device such as a personal digital assistant. An access terminal is a concept like a mobile station.

An access network is a network device that provides a data connection between a public switched data network (PSDN) and an access terminal. An access network is a concept like a base station.

Hereinafter, a data transmission control method using a conventional data transmission rate control locking channel will be described in detail.

1 is a block diagram illustrating a data rate control channel and a data rate control lock channel between an access network and an access terminal.

As shown in FIG. 1, if a sector of the access network 110 is in operation with respect to a particular access terminal 120, the sector in which the transmission is made in the access network periodically disconnects the data rate control channel 130 from the access terminal. Receives data transmission rate control information and transmits data accordingly.

When the sector in which the transmission is performed in the access network receives data rate control information continuously through the data rate control channel 130 from the access terminal, the data rate control lock signal is set to " 1 ". However, if the data rate control information is not received, the sector that has not received the information sets the data rate control lock signal to "0" for the access terminal that did not send the data rate control information to the data rate control lock channel 140. The access terminal informs the access terminal through the data rate control lock signal and blocks the transmission of information through the data rate control channel for the sector which has transmitted the data rate control lock signal. This prevents certain access terminals from transmitting specific sectors and data in the access network.

2 is a flowchart illustrating a control method of a data rate control channel of an access terminal using a conventional data rate control lock channel.

As shown in FIG. 2, when the data rate control lock signal is checked through the data rate control lock channel (S210) and the data rate control lock signal is “1” (S220), the data rate control lock signal is checked again. Returning to step S210, if the data rate control lock signal is "0" (S230), the data rate control channel does not designate a sector of the access network that has sent "0" as the data rate control lock signal (S240).

However, such a prior art had the following problems.

According to the prior art, when an access terminal receives "0" as a data rate control lock signal from a specific sector of an access network, transmission of data rate control information for that sector is stopped. As a result, the data rate control channel transmission to the sector actually had a problem due to a line failure, but soon the data rate control channel improved or the forward transmission channel was good. Even if the data cannot be transmitted due to the environment, the data transmission rate control lock signal is set to "0" and the access terminal is notified so that the resource is not allocated to the access terminal. have.

The present invention has been devised to solve the above problems of the prior art. That is, according to the present invention, the data transmission rate control channel or the problem in which a sector of an access network exchanging data with the access terminal informs the access terminal of an incorrect data rate control lock signal due to the performance or environment of the access rate control channel. It is an object of the present invention to solve the problem by adjusting the power of a transmission rate control channel.

In the control method of the data rate control channel using the data rate control lock channel of the EVDO according to the present invention for achieving the above object when the "0" as the data rate control lock signal received from the access terminal of the EVDO A method of determining whether data is transmitted between the access terminal and an access network while increasing the power of a data rate control channel until a predetermined time elapses, and accessing the access terminal while increasing the power of a data rate control channel to a predetermined value. And determining a data transmission between the access terminal and the access network while increasing the power of the data transmission rate control channel until a predetermined time elapses or reaches a predetermined value. It is done.

The predetermined time is determined in consideration of the reconnection time and the frequency number of each access terminal in the access network, and the predetermined value is the frequency at which the sector performing transmission in the access network is changed and the accesses connected to the access network. It is characterized by determining in consideration of the number of terminals.

In addition, the control method according to the present invention includes a method for reducing the power of another reverse transmission channel when increasing the power of the data rate control channel as described above, wherein the reverse transmission channel for reducing power includes a pilot channel, A response channel, a reverse transmission rate display channel, and the like are included.

Hereinafter, the configuration and operation of the present invention will be described in detail.

When the access terminal receives the data rate control lock signal (lock signal receiving step) and the access terminal checks the data rate control lock signal in the data rate control lock channel and the data rate control lock signal is "0". In addition, the timer is operated after setting a certain time (time setting step) without stopping transmission of the data transmission rate control channel, and setting the maximum power value of the data transmission rate control channel (power max setting step) as necessary. Increase the power of the data rate control channel to the maximum power (power control process). Subsequently, the data rate control lock signal is checked, and when the data rate control lock signal becomes "1", data transmission is continued (channel check step).
In the power control process, if it is determined that the process of determining whether to stop through the data transmission rate control channel is based only on the elapsed time set in the time setting step, the power control is performed for the set time. That is, when the data rate control lock signal is received as "0", the present invention drives a timer for a predetermined time set in the time setting step to determine whether to stop data transmission through the data rate control channel. It is possible to determine whether to interrupt data transmission through the data transmission rate control channel in three ways: to perform power control to immediately increase power without waiting for a predetermined time or to wait for a predetermined time. . In the process of performing power control while waiting for a predetermined time to elapse, the step of setting the time setting and the power maximum at the same time is the time-setting power setting step of the present invention.

The reason why the power of the data rate control channel is increased is because the channel's transmission capacity is increased. If the transmission is interrupted due to a temporary problem with the channel or an incorrect control lock signal, the transmission can be made by increasing the transmission capacity of the channel by increasing the power.

The limit to increase the power is determined by the constant time set in the timer and the maximum power of the data rate control channel. When the timer expires or the power of the data rate control channel increases to the maximum value, the operation of increasing the power of the data rate control channel is stopped. That is, if the power of the data transmission rate control channel reaches the maximum value, the operation of increasing the power of the data transmission rate control channel is stopped even though all the time set in the timer has not elapsed. Even if the power of the control channel does not reach the maximum value, the operation of increasing the power of the data rate control channel is stopped.

Here, the predetermined time set in the timer is determined by the access network and informed the access terminal. Selecting a certain time means that if the data rate control lock signal is "0", as in the conventional data rate control channel control method using the data rate control lock channel, the access terminal immediately transmits the data rate control lock signal to "0". Block data transmission to the sectors of the access network sent to the network and send data to the other sectors, and data is made possible by increasing the power of the data transmission rate control channel after a certain time. It is based on which is more efficient compared to the case where the transmission rate control lock signal is set to "1" again and data is transmitted through a sector where the transmission rate control lock signal is set to "0". Specifically, the value selected by the access network is selected in consideration of the reconnection time and frequency of each access terminal in the access network.

In relation to setting the maximum power, the access network determines the unit and the number of times to increase the power to the access terminal to inform the access terminal. The unit and the number of times of increasing the power are determined in consideration of the frequency of the sector change designated by the data rate control signal of the access terminals connected to the access network and the number of access terminals connected to the access network. If many access terminals are connected to one access network, it may not be possible to give maximum performance to each access terminal, so it is good practice to make it possible to move to sectors of other access networks as easily as possible.

At this time, the power of the data rate control channel is secured by reducing the power of the other reverse transmission channel. The reverse channel that reduces power includes a pilot channel, an ACK channel, and a reverse rate indicator channel (RRI channel).

Here, the pilot channel allows the mobile station to capture the timing of the forward transmission channel, provides a reference phase for coherent modulation, and provides a means of comparing signal strength between base stations to determine when channel switching occurs. . The response channel is a channel that transmits data using an error detection signal, and transmits a character used to check the presence or absence of an error in the data at the receiving end and notify the transmitting end at regular intervals. It is used to know whether an error has occurred in the received data. The reverse rate indication channel serves to transmit information related to the transmission rate, the number of transmission bits, the modulation scheme, and the encoding of the traffic data transmitted in the same time interval (frame) to the access network.

Both times or ranges of power up may be applied in parallel, or only one of them. That is, in some cases, there is a case where the timer is operated by setting a predetermined time instead of setting the maximum value of the power to increase the power until all the time elapses. This can be used when there is sufficient power or when it is necessary to determine whether to transfer data using another sector in a short time. Next, in some cases, there is a case where the maximum power of the data transmission rate control channel is set until the maximum value is reached without setting a predetermined time. This can be used when there is not enough power or when efficient use of power is required.

In order to determine whether to stop data transmission through the data rate control channel, the timer is driven with the time interval set by the time setting step or the power control is performed to increase the power to the maximum power set by the power maximum value setting step. Or after receiving the data transmission rate control lock signal transmitted from the access network during the power control for increasing the power to the maximum value after the time set by the time-power max value setting step has elapsed or after the set time elapses. It is determined whether the transmission rate control lock signal is different from "0" (channel check step).
When the data rate control lock signal is “1” in this channel check step, data is transmitted with the corresponding sector of the access network.
However, if the data rate control lock signal remains "0" even after increasing the power of the data rate control channel for a certain time or up to a maximum value, the access terminal stops transmitting through the data rate control channel and locks the data rate control. Do not specify a sector in the access network that sends a signal to "0". Then, data transfer is performed with another sector (sector change step).

This will be described with a flow chart as follows.

3 is a flowchart illustrating a method of controlling a data rate control channel of an access terminal using a data rate control lock channel according to the present invention.

3, first check the data rate control lock signal (S310) and if the data rate control lock signal is "0" (S320) to operate the timer (S330), the data rate control lock signal is "1" If it returns to step S310 again to check the data rate control lock signal (feedback step). When the transmission channel is operating normally, the data rate control lock signal is continuously set to "1" and sent to the access terminal. In this case, the data transmission rate control lock signal is continuously checked (S310) to determine whether the data transmission rate control lock signal is "0" (S320).

If the data rate control lock signal is "0" and the channel is set to a timer, increase the power of the data rate control channel (S340) (power control step) and check whether the data rate control lock signal is "0" again (S350). (Check channel). At this time, if the data rate control lock signal is "1", the transmission channel is normally operating. Therefore, the control unit returns to the step of checking the data rate control lock signal of S310 that first checks the data rate. If the data rate control lock signal is "0", it is determined whether all of the time set in the timer has passed (S360) and whether the power of the data rate control channel is greater than the maximum value (S370). If any one of the data rate control channels does not specify a sector whose data rate control lock signal is "0" (S380) (sector change step), when the set time has not elapsed and the power does not reach the maximum value. In step S340, the power of the data rate control channel is continuously increased (the feedback step) and the data rate is again. The control lock signal is checked (S350) (channel check step) and the steps (S360, S370) are repeated to determine whether the time set in the timer has elapsed or the power of the data transmission rate control channel is greater than the maximum (return step).

As described above, the process of determining whether to stop data transmission of the data rate control channel after waiting for a predetermined time or increasing power to a maximum value may be applied in parallel or only one of them may be applied.
In addition, a flowchart of a control method using only one of them is shown in FIGS. 4 and 5.

4 is a flowchart illustrating a control method of increasing power using only time in a data rate control channel control method of an access terminal using a data rate control lock channel according to the present invention.

FIG. 5 is a flowchart illustrating a control method of increasing power using only a maximum power of a data rate control channel control method of an access terminal using a data rate control lock channel according to the present invention.

Hereinafter, one embodiment of a control method according to the present invention will be described through an apparatus in which the present invention is implemented.

6 is a block diagram showing an apparatus for controlling a data rate control channel of an access terminal using a data rate control lock channel according to the present invention.

6, a data rate control channel control apparatus according to the present invention includes an access network 610, an access terminal 620, a data rate control channel 625 and a data rate control lock channel 615. EVDO transport channel; A lock signal transmitter 616 for checking the data rate control lock signal and transmitting the lock signal to the access terminal; A timer 630 for calculating a lapse of a predetermined time for raising the power of the data rate control channel; A maximum power storage unit 640 for storing a maximum power of the data rate control channel; A power control unit 650 for adjusting power of a reverse transmission channel; A power supply 660 of a reverse transmission channel; A time and power setting unit 670 for setting a maximum value of a timer time and power; And a time and power input unit 680 for inputting a timer time and a maximum power value.

The lock signal transmitter 616 receives the data rate control lock signal through the data rate control lock channel in the access network 610 (lock signal receiving step). The lock signal transmitter 616 does not directly transmit the data rate control lock signal received from the data rate control lock channel to the access terminal 620, but basically sets the data rate control lock signal to "1" to access the terminal. To 620.

The timer 630 checks the data rate control lock signal in the lock signal transmitter 616 and starts operation when the data rate control lock signal becomes "0". The timer 630 is connected to the time and power setting unit 670 and operates for a predetermined time set by the time and power setting unit 670. When the timer 630 starts to operate, the power controller 650 connected to the timer 630 increases the power of the data rate control channel. At this time, the setting unit (the power control unit 650 checks whether all of the time set in the timer 630 has passed. The power control unit 650 is also connected to the maximum power storage unit 640 is connected to the data rate control channel) It is checked whether the power is higher than the maximum value of the power stored in the power maximum storage unit 640.
The process of setting the time for driving the timer of the time and power setting unit 670 is a time setting step of the present invention, and setting to perform power control to the maximum power stored in the storage unit 640 is the maximum power value of the present invention. In the setting step, the time and power maximum value setting step of the present invention is to simultaneously set the time and the power maximum value to perform power control over time.

In the time and power setting unit 670, a predetermined time and power maximum value for power control may be determined and used in advance, or may be manually input by an administrator through the time and power input unit 680. . The power control unit 650 is connected to the power supply device 660 of the reverse transmission channel to control the power supplied to the data rate control channel. The power supply device 660 of the reverse transmission channel reduces power of other reverse transmission channels, such as a pilot channel, a response channel, and a reverse transmission rate indication channel, thereby securing power of the data transmission rate control channel.

A case in which a sector having sent "0" as the data rate control lock signal will send a "1" as the data rate control lock signal again to continue data transmission will be described. When the data rate control lock signal becomes "1" through the unit 616, the power control unit 650 stops increasing the power of the data rate control channel and the access terminal 620 Continues data rate control channel transmission Continues data transfer with the sector in the access network that sent a "0" as the data rate control lock signal. In this case, since the data rate control lock signal transmitted to the access terminal by the lock signal transmission unit 616 remains at " 1 ", the access terminal has no interruption with the sector which sent the data rate control lock signal to " 0 ". Send data.

Next, the case of data transmission by designating a sector other than the sector to which "0" is sent as the data transmission rate control lock signal, all the time set in the timer has elapsed or the power of the data rate control channel is greater than the maximum When the power control unit 650 stops increasing the power of the data rate control channel and increases the time, or the fact that the power of the data rate control channel is higher than the maximum value transmits the lock signal. If known to the unit 616, this transmission unit sends a data rate control lock signal to the access terminal as " 0 " so that the access terminal stops transmitting data with the corresponding sector of the access network and transmits data with another sector (sector change). step).

The configuration and operation of the present invention have been described above. Such a method and apparatus of the present invention can implement efficient data transmission in an EVDO transmission channel using a data rate control locking channel.

When the data rate control lock signal is set to "0" and is known to the access terminal, the access terminal immediately stops transmitting the data rate control channel to raise the power of the data rate control channel for a predetermined time or up to a maximum value. In the fast-changing environment, unnecessary sector-to-sector movement of the access network is reduced, and the performance of the forward transport channel is good. However, the access network has misjudged the problem due to the data rate control channel of the access terminal. It is possible to increase data transmission efficiency by preventing data transmission rate control channel from being interrupted.

Claims (7)

In the control method of the data rate control channel of the EVDO, A lock signal receiving step of receiving a data rate control lock signal at an access terminal of the EVDO; It is determined whether or not the received data rate control lock signal is "0", and if the received data rate control lock signal is not "0", the control unit returns to the lock signal receiving step and controls the received data rate control. A time setting step of setting a predetermined time when the lock signal is "0"; A power control step of increasing power of a data rate control channel until the predetermined time elapses; A channel checking step of confirming whether or not the data transmission rate control lock signal is different from " 0 " during the power up; If the received data transmission rate control lock signal is not "0" as a result of checking in the channel checking step, it returns to the lock signal receiving step, and if the received data transmission rate control lock signal is "0", it returns to the power control step. Feedback step; And And a sector change step of not specifying a sector of the access network in which the data transmission rate control channel sends a "0" as the data transmission rate control lock signal when a predetermined time has elapsed in the power control step. Control method of data rate control channel. In the control method of the data rate control channel of the EVDO, A lock signal receiving step of receiving a data rate control lock signal at an access terminal of the EVDO; It is determined whether or not the received data rate control lock signal is "0", and if the received data rate control lock signal is not "0", the control unit returns to the lock signal receiving step and controls the received data rate control. Setting a maximum power value when the lock signal is "0"; A power control step of increasing power of a data rate control channel to a maximum value of the power; A channel checking step of confirming whether or not the data transmission rate control lock signal is different from " 0 " during the power up; If the received data transmission rate control lock signal is not "0" as a result of checking in the channel checking step, it returns to the lock signal receiving step, and if the received data transmission rate control lock signal is "0", it returns to the power control step. Feedback step; And And a sector change step of not specifying a sector of the access network in which the data rate control channel sends a "0" as the data rate control lock signal when the power reaches a maximum power level in the power control step. Control method of data rate control channel. In the control method of the data rate control channel of the EVDO, A lock signal receiving step of receiving a data rate control lock signal at an access terminal of the EVDO; It is determined whether or not the received data rate control lock signal is "0", and if the received data rate control lock signal is not "0", the control unit returns to the lock signal receiving step and controls the received data rate control. A time-power maximum value setting step of setting a predetermined time and a maximum value of power when the lock signal is "0"; Power control that increases the power of the data rate control channel until either one of the first is satisfied by determining whether the predetermined time has elapsed and whether the power reaches the maximum value while increasing the power of the data rate control channel. step; A channel checking step of confirming whether or not the data transmission rate control lock signal is different from " 0 " during the power up; If the received data transmission rate control lock signal is not "0" as a result of checking in the channel checking step, it returns to the lock signal receiving step, and if the received data transmission rate control lock signal is "0", it returns to the power control step. Feedback step; And In the power control step, it is determined whether a predetermined time has elapsed and whether the power maximum value has been reached. And a sector change step of the data rate control channel of the EVDO. The method according to claim 1 or 3, The predetermined time set in the time setting step or the time-power maximum setting step is determined in consideration of the reconnection time and the frequency number of each access terminal in the access network. The method according to claim 2 or 3, The maximum power set in the power maximum setting step or the time-power maximum setting step is determined in consideration of the frequency of changing sectors performing transmission in the access network and the number of access terminals connected to the access network. A control method of a data rate control channel of an EVDO. The method according to any one of claims 1 to 3, The power control step is a control method of the data rate control channel of the EVDO characterized in that to increase the power of the data rate control channel by reducing the power of one or more reverse transmission channel of the pilot channel, response channel, reverse rate display channel. delete

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