KR20050014552A - Mobile terminal control method for reducing power consumption - Google Patents

Abstract

The present invention relates to a method of controlling a mobile terminal for reducing power consumption. In particular, the user can directly control the terminal during the idle period not transmitting or receiving information data when using a wireless data service. It relates to a method for controlling a mobile terminal. Conventionally, if a user is using a wireless data service using a mobile terminal, the pilot signal and the channel quality signal are always transmitted to the base station at the maximum rate. Therefore, even when checking service information or performing other tasks, There is a problem in that the power consumption is severe, greatly reducing the use time of the mobile terminal. In view of the above problems, the present invention provides a dormant mode that reduces transmission data by gating pilot signals and channel quality signals transmitted to a base station by a user manually operating the terminal while using a wireless data service. By providing a method of controlling the handset to reduce power consumption, which allows the user to enter or revert from the dormant mode to the active mode, the user can directly manage the power consumption while using the wireless data communication service, so that even when the power is insufficient, The mobile terminal can be used for a time, and the communication environment is improved by reducing the communication load.

Description

Mobile terminal control method to reduce power consumption {MOBILE TERMINAL CONTROL METHOD FOR REDUCING POWER CONSUMPTION}

The present invention relates to a method of controlling a mobile terminal for reducing power consumption. In particular, the user can directly control the terminal during the idle period not transmitting or receiving information data when using a wireless data service. It relates to a method for controlling a mobile terminal.

As the use of portable terminals is gradually expanded and their functions are diversified, the use of wireless data services is rapidly spreading. In particular, access to the Internet using mobile terminals and the use of various additional services are already becoming more common.

In general, while using a wireless data service using a portable terminal, the portable terminal continuously transmits and receives a pilot signal through a pilot channel with the base station, thereby informing the base station of the portable terminal. In addition, information on the transmission quality is provided to the base station through a reverse channel quality indicator channel (R-CQICH).

The portable terminal can receive a smoother and higher quality wireless data communication service by continuously transmitting various information about the communication status to the base station while using the wireless data communication service. However, an operation in which the portable terminal wirelessly connects with the base station and transmits various signals causes power consumption considerably larger than power consumed by the internal operation of the portable terminal. In other words, when wireless data communication is used, the power consumption may be quickly exhausted, and thus the usage time may be frequently decreased.

FIG. 1 illustrates a pilot signal transmitted from a mobile terminal to a base station in a conventional wireless data communication service, and illustrates a signal transmitted through a reverse pilot channel (R-PICH). As shown in the figure, a signal consisting of a pilot signal and a power control bit is transmitted by 1.25ms to transmit 16 signals for 20ms.

However, in actual use of the wireless communication service, the user does not always send and receive information through the wireless data communication service, but checks the received contents (for example, mail or contents), or performs other tasks for a while. It can often occur, and it is a waste of unnecessary power to continuously transmit a pilot signal or a quality indication signal until such a case.

Accordingly, when a user does not actually transmit or receive information through a mobile terminal while using a wireless data communication service, a method of securing unnecessary power by temporarily stopping unnecessary signal transmission is required.

As described above, if a user is using a wireless data service by using a mobile terminal, the pilot signal and the channel quality signal are always transmitted to the base station at the maximum rate, so that it is unnecessary even when checking the received information or performing other tasks for a while. Power consumption due to signal transmission is severe and there is a problem of significantly reducing the use time of the portable terminal.

In view of the above problems, the present invention provides a dormant mode that reduces transmission data by gating a pilot signal or a channel quality signal transmitted to a base station by a user manually operating the terminal while using a wireless data service. It is an object of the present invention to provide a method of controlling a mobile terminal for reducing power consumption, which enables a user to enter or return from the idle mode to an active mode, thereby greatly reducing the power consumption of the mobile terminal.

1 is a diagram of reverse pilot channel signal transmission in a conventional wireless data service.

2 is a diagram illustrating reverse pilot channel signal transmission according to an embodiment of the present invention.

3 is a signal flow diagram illustrating an operation procedure of an embodiment of the present invention.

*** Explanation of symbols for main parts of drawing ***

10: mobile terminal 20: base station

According to an aspect of the present invention, there is provided a method of controlling a mobile terminal to reduce power consumption during a wireless data communication service, the active state maintaining step of transmitting a signal indicating a communication state to a base station at a maximum ratio. Wow; An idle mode entering step of operating the terminal when the user does not receive the wireless data service, gating and transmitting the signals transmitted at the maximum ratio from the portable terminal to the base station at a predetermined ratio; And an active mode returning step of transmitting the gating and transmitting signals at a maximum ratio when the user manipulates the terminal to exit the idle mode.

The signals indicating the communication status may be at least one of a pilot signal through a reverse pilot channel (R-PICH) and a channel quality indication signal through a reverse channel quality indication channel (R-CQICH).

The step of returning to the active mode may include: a user operating the portable terminal to release the idle mode; Transmitting, by the portable terminal, a signal for requesting traffic channel allocation to a base station; And transmitting the information on the newly allocated traffic channel to the mobile terminal by the base station that has been requested to allocate the traffic channel.

When described in detail with reference to the embodiments of the present invention as described above.

2 is a reverse pilot channel signal transmission diagram according to an embodiment of the present invention. As shown in FIG. Although the gating for the reverse channel has already been defined in the communication protocol, there is no practical application because there is no mention of specific utilization, but the core of the present invention utilizes this gating as a method for reducing power consumption. By using this, the user can easily switch between the power saving state (pause mode) and the normal state (active mode).

The gating rate shown is 1/4, but 1/2 or else is applicable. As a result of gating the reverse channel signals transmitted at the maximum data rate, radio transmissions that cause relatively high power consumption can be reduced, thereby greatly reducing power consumption. This not only reduces power on the user side, but also additionally reduces the communication load, thereby improving the communication environment.

FIG. 3 illustrates a signal flow according to an embodiment of the present invention. When the user repeatedly selects a "hold" key preset in a mobile terminal during a data communication service, the active mode and the idle mode are switched to each other.

As shown, when the user is using the wireless data communication service using the mobile terminal 10, the mobile terminal does not gate the reverse channels (R-PICH, R-CQICH) without gating the base station 20 at the maximum transmission rate. It operates in an active mode that transmits to the wireless network, in which case it can normally transmit and receive wireless data.

If the user does not use the wireless data communication service for a while, such as when the user checks the received information through the wireless data service or performs another task, the user presses the preset “hold” key to enter the idle mode in the mobile terminal 10. You can be instructed to enter.

When the portable terminal 10 presses the " hold " key, 1/2 or 1 reverse channels (R-PICH, R-CQICH) provided to the base station 20 for the wireless data communication service currently being used. Gating is provided at a / 4 gating rate. In this case, transmission and reception of normal wireless communication data becomes difficult, but it is possible to extend the use time by reducing power consumption of the mobile terminal 10.

Then, when the user presses the "hold" key again, the mobile terminal 10 transmits a new traffic channel assignment request message to the base station 20 through the reverse dedicated control channel (R-DCCH), and receives the base station 20 ) Allocates a new traffic channel and provides it to the mobile terminal 10 through a forward packet data channel (F-PDCH). Receiving the new traffic channel information, the mobile terminal 10 transmits the gating and transmitting reverse channels (R-PICH, R-CQICH) to the base station 20 at the maximum transmission rate and provides a smooth wireless data communication service. It will return to the active state.

In other words, by pressing the "hold" key whenever the user wants, the gating rate of the reverse channel can be switched so that the user can control the power consumption of the portable terminal.

As described above, the method for controlling a mobile terminal for reducing power consumption of the present invention is a pilot signal and channel quality transmitted to a base station only by a user manually manipulating the terminal while using a wireless data communication service using the mobile terminal. Allows users to manage power consumption directly while using wireless data communications services by allowing the signal to enter idle mode, which reduces transmission data, or transition from idle mode to active mode, allowing users to manage power consumption for longer periods, even when power is low While the portable terminal can be used, the communication environment can be improved by reducing the communication load.

Claims (4)

CLAIMS What is claimed is: 1. A method of controlling a portable terminal to reduce power consumption during a wireless data communication service, the method comprising: maintaining an active state in which the portable terminal transmits signals indicating a communication state to a base station at a maximum rate; An idle mode entering step of operating the terminal when the user does not receive the wireless data service, gating and transmitting the signals transmitted at the maximum ratio from the portable terminal to the base station at a predetermined ratio; And an active mode returning step of transmitting the gating and transmitting signals at a maximum ratio when the user manipulates the terminal to exit the idle mode. The method of claim 1, wherein the signals indicating the communication status are at least one of a pilot signal through a reverse pilot channel (R-PICH) and a channel quality indication signal through a reverse channel quality indication channel (R-CQICH). A portable terminal control method for reducing power consumption. The method of claim 1, wherein the operation of the terminal is performed by repeatedly pressing a preset “hold mode” key to switch between the idle mode and the active mode. The method of claim 1, wherein the returning of the active mode comprises: a user releasing the idle mode by manipulating the portable terminal; Transmitting, by the portable terminal, a signal for requesting traffic channel allocation to a base station; And transmitting information on the traffic channel newly allocated by the base station that has been requested to allocate the traffic channel to the mobile terminal.