KR101203859B1 - Method for Saving Power of Mobile Telecommunication Terminal and Mobile Telecommunication Terminal using the same - Google Patents

Abstract

The present invention relates to a power saving method of a mobile communication terminal in a portable internet system and a mobile communication terminal using the same.

According to an aspect of the present invention, there is provided a method of power saving of a mobile communication terminal in a portable Internet system, the method comprising: obtaining and storing at least one information related to terminal use-related information and data transmission / reception related information; The present invention provides a power saving method of a mobile communication terminal in a portable internet system including selecting a power saving mode to be set in a terminal and setting the selected power saving mode, and a mobile communication terminal using the same.

Therefore, according to the present invention, an appropriate power saving mode can be set in consideration of the degree of use of the terminal or the degree of data transmission and reception.

Portable Internet System, Sleep Mode, Idle Mode, Sleep Mode, Sleep Section

Description

Power saving method of mobile communication terminal in portable internet system and mobile communication terminal using same {Method for Saving Power of Mobile Telecommunication Terminal and Mobile Telecommunication Terminal using the same}

1 is a configuration of an embodiment of a mobile communication terminal having a power saving function in a portable Internet system according to the present invention.

2 is a flowchart illustrating a power saving method of a mobile communication terminal in a portable Internet system according to the present invention.

3 is a flowchart illustrating another embodiment of a power saving method of a mobile communication terminal in a portable Internet system according to the present invention.

4A is a structural diagram of an embodiment of a sleep mode request message according to the present invention;

4B is a structural diagram of an embodiment of a sleep mode response message according to the present invention;

FIG. 5A is a first exemplary diagram illustrating performance of a sleep mode in which a length of a sleep interval is set according to the present invention; FIG.

FIG. 5B is a second exemplary view illustrating performance of a sleep mode in which a length of a sleep interval is set according to the present invention; FIG.

The present invention relates to a power saving method of a mobile communication terminal, and more particularly, to a power saving method of a mobile communication terminal in a portable Internet system and a mobile communication terminal using the same.

A power saving method of a mobile communication terminal according to the prior art is as follows.

The mobile communication terminal operates in a power saving mode to reduce power usage of the terminal. For example, the power saving mode includes an idle mode and a sleep mode defined by the IEEE.

The mobile terminal enters a power saving mode, consumes minimal power by not transmitting or receiving data during a predetermined period, and determines whether there is data transmitted from a base station during another predetermined period. When it is determined that the data exists, the mobile communication terminal enters a normal operation mode and receives data normally from the base station.

In addition, after entering the power saving mode, the mobile communication terminal returns to the normal operation mode from the power saving mode and operates to transmit data to the base station.

However, according to the above-described conventional invention, an appropriate criterion for the mobile communication terminal to select one of an idle mode and a sleep mode is not presented. Therefore, it is impossible to select the most suitable power saving mode in the situation of the current terminal.

Further, according to the above-described conventional invention, when the mobile communication terminal selects the sleep mode as the power saving mode, the length of the sleep period cannot be set in consideration of the current terminal situation. Therefore, even if it is necessary to set the length of the initial slip period as long as possible or at least short, this situation cannot be considered at all.

The present invention is to solve the above problems, and provides a mobile communication terminal and a method thereof that can select the most suitable power saving mode in the situation of the current terminal by using the terminal usage-related information and data transmission and reception data. There is a purpose.

In addition, the present invention is to solve the above problems, a mobile communication terminal that can appropriately set the length of the sleep period in consideration of the current situation of the terminal by using the terminal usage-related information and data transmission and reception related data and this There is another purpose in providing the method.

In order to achieve the above object, a power saving method of a mobile communication terminal in a portable Internet system according to the present invention, the method comprising the steps of obtaining and storing at least one information from the terminal usage-related information and data transmission and reception related information, Selecting a power saving mode to be set in the mobile communication terminal using the information; and setting the selected power saving mode.

In addition, in order to achieve the above object, a power saving method of a mobile communication terminal in a portable Internet system according to the present invention comprises the steps of acquiring and storing at least one information from the terminal usage-related information and data transmission and reception related information; Determining a length of a sleep period using the obtained information when a sleep mode is to be set in the mobile communication terminal, and a sleep mode request message including information on the determined sleep period length Transmitting to the serving base station, receiving a response message thereto, and performing a sleep mode according to the information on the length of the sleep interval included in the response message.

In addition, in order to achieve the above object, a mobile communication terminal having a power saving function in the portable Internet system according to the present invention, the information collection unit for obtaining at least one information from the terminal usage related information and data transmission and reception related information; A control unit for selecting a power saving mode to be set in the mobile communication terminal using the obtained information, a transmission / reception module for transmitting a request message for setting the selected power saving mode to a serving base station, and receiving a response message thereto and the response message; In response to receiving, the mode management unit for setting the selected power saving mode.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, various embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. In addition, the detailed description of the known technology, which is considered to be a possibility of blurring the gist of the present invention, will be omitted.

Referring to FIG. 1, a mobile communication terminal having a power saving function in a portable Internet system according to the present invention will be described in detail as follows.

As shown in FIG. 1, the mobile communication terminal includes an input unit 110 for receiving a predetermined operation from a user, an information collection unit 120 for obtaining information related to the terminal, and a storage unit for storing information related to the terminal. 130, a control unit 140 for controlling the overall operation of the terminal, a transmission and reception module 150 for transmitting and receiving data with the base station via the portable Internet, and a mode manager 160 for managing the mode set in the terminal.

The input unit 110 generates a signal corresponding to a predetermined operation received from a user. In general, the signal means a signal for implementing a predetermined function set in the mobile communication terminal.

In particular, in the present invention, the input unit 110 is provided with input means for receiving a user's operation. Here, the input means may be at least one of a jog shuttle, a jog dial, a touch pad, a touch screen, and a key pad.

The information collecting unit 120 collects various information related to the mobile communication terminal.

In particular, in the present invention, the information collecting unit 120 obtains at least one information from the terminal usage related information and data transmission and reception related information.

The terminal usage related information means information related to terminal use by a user or information related to the operation of each component that is operated by the terminal itself.

For example, the terminal usage related information may include at least one of whether a display window is on / off, whether a folder or slide is opened or closed, battery remaining amount information, a key input from a user, a frequency of a voice signal connection, and a voice signal amount. .

In addition, the data transmission and reception related information refers to all information related to data transmitted and received with the serving base station through the transmission and reception module 150 in the portable Internet system. Here, the serving base station means a base station that is currently transmitting and receiving data with the mobile communication terminal through the portable Internet.

For example, the data transmission / reception related information includes at least one of a data transmission / reception amount according to time zone, a last data transmission / reception time and data amount, and a data transmission / reception pattern.

The storage unit 130 not only stores all data input and output to the mobile communication terminal, but also stores a program necessary for the operation of the mobile communication terminal.

In particular, in the present invention, the storage unit 130 stores the terminal usage related information or the data transmission / reception related information obtained by the information collecting unit 120. In addition, the information collecting unit 120 may store the obtained information on its own, without separately storing the obtained information in the storage unit 130.

The controller 140 controls overall operations of the mobile communication terminal, and in particular, controls operations related to the mobile Internet.

In particular, in the present invention, the controller 140 selects a power saving mode to be set in the mobile communication terminal by using the terminal usage related information or the data transmission and reception related information obtained by the information collecting unit 120. .

For example, the controller 140 selects one of an idle mode and a sleep mode as a power saving mode established by an Institute of Electrical and Electronics Engineers (IEEE).

Here, the idle mode may be set by releasing a connection with a serving base station or transmitting an idle mode request message to the serving base station when it is determined that the terminal does not need to operate for a predetermined period of time. Therefore, as the idle mode is set, the mobile communication terminal repeats the sleep state and the operation state at regular intervals. Then, the mobile communication terminal returns to the normal mode for transmitting and receiving data as the predetermined message is received in the operation state.

In addition, when it is determined that data transmission / reception is not necessary for a predetermined period, the sleep mode is set by transmitting a sleep mode request message in which a parameter value necessary for setting a sleep mode is set, and receiving a response message thereto. Therefore, as the sleep mode is set, the mobile communication terminal repeats a listening window and a sleep window at regular intervals. The mobile communication terminal returns to the normal mode for receiving the sensed data when transmitting or receiving predetermined data during the monitoring interval or detecting the data transmitted from the serving base station.

On the other hand, the time taken to return to the normal mode from the idle mode takes much more than the time taken to return to the normal mode from the sleep mode. Hereinafter, a method of selecting one of an idle mode and a sleep mode in consideration of this will be described in detail.

First, a case of selecting a power saving mode by using the terminal usage related information will be described. At this time, the controller 140 determines whether there is a possibility of transmitting or receiving data in the future even if there is no data currently transmitted and received, and selects an appropriate power saving mode.

For example, the controller 140 selects the sleep mode when it is turned on or the idle mode when it is turned off, depending on whether the display window is on or off. Since the display window is turned on, it means that there is a possibility of transmitting and receiving data even if there is no data currently being transmitted and received, and therefore, the sleep mode having a short return time to the normal mode is selected.

In addition, the controller 140 selects the sleep mode when the folder or slide is opened and the idle mode when the folder or slide is opened, depending on whether the folder or slide is opened or closed. The fact that the folder or slide is open means that there is a possibility that data can be transmitted / received even if no data is currently transmitted or received. Therefore, a sleep mode having a short return time to the normal mode is preferably selected.

In addition, the controller 140 determines whether the remaining battery level is greater than or equal to the reference value, and selects the sleep mode when it is determined to be greater than or equal to the reference value, and selects the idle mode when it is determined to be less than the threshold value. At this time, the reference value is set in advance in the mobile communication terminal. Since the battery remaining amount is greater than or equal to the reference value, it means that there is power required for data transmission and reception, and therefore, the sleep mode having a short return time to the normal mode is preferably selected.

In addition, the controller 140 selects the sleep mode when it is determined that there is a key input and determines the idle mode when it is determined that there is no key input. Since the key input from the user means that data can be transmitted and received, it is preferable to select the sleep mode.

The controller 140 selects the sleep mode when it is determined that the frequency is lower than the reference value, and selects the idle mode when it is determined that the frequency is higher than the reference value. The high frequency of the voice call connection means that the possibility of transmitting and receiving data due to frequent voice call connection is small, so the sleep mode is preferably selected.

The controller 140 selects the sleep mode when it is determined that the voice signal amount is lower than a reference value and determines the idle mode when it is determined that the voice signal amount is higher than a reference value. do. Since the amount of the voice signal is large, it is preferable to select the sleep mode because it means that the possibility of transmitting and receiving data is small because it is determined that the voice signal is a large amount.

Next, a case of selecting a power saving mode using the data transmission / reception related information will be described. At this time, the controller 140 determines the information related to the previously transmitted and received data through the transmission and reception module 150, and selects an appropriate power saving mode.

For example, the controller 140 determines the amount of data transmission / reception in the time zone that includes the current time, from the existing time-zone data transmission / reception amount. The controller 140 selects the sleep mode when the determined amount of data transmission and reception is higher than a reference value, and selects the idle mode when the determined data transmission / reception amount is lower than the reference value. The higher value than the reference value means that there is no data currently being transmitted or received, but the existing data transmission and reception degree is determined, and thus the data is likely to be transmitted and received. Therefore, it is preferable to select a sleep mode having a short return time to the normal mode.

In addition, the controller 140 determines the last data transmission / reception time and the amount of data, and determines the sleep mode when the last data transmission / reception time is within a predetermined period from the current time or when the amount of data is greater than a reference value. The idle mode is selected in case of deviation or below the reference value. It is preferable to set the sleep mode because the last data transmission / reception time is within a certain period or the amount of data is higher than the reference value.

In addition, the controller 140 selects a power saving mode suitable for the determined data transmission / reception pattern according to the existing data transmission / reception pattern.

In particular, in the present invention, when the sleep mode is to be set in the mobile communication terminal, the control unit 140 uses the information obtained by the information collecting unit 120 to determine the length of the sleep period. You can decide. The controller 140 includes information on the determined length of the sleep interval in the sleep mode request message.

First, referring to FIGS. 4A and 4B, a method of setting a length of a sleep interval will be described.

4A is a structural diagram of a message (hereinafter, referred to as a sleep mode request message) transmitted from the mobile communication terminal to the serving base station to request a sleep mode.

The mobile communication terminal may use an initial-sleep window indicating the length of an initial sleep interval in the message structure shown in FIG. 4A to set the length of the sleep interval.

For example, when it is determined that the terminal use-related information or the data transmission / reception related information is determined that the possibility of future transmission / reception of data is small, when the length of the first sleep period is determined to be long and it is determined that the possibility of future transmission / reception of data is large. The length of the initial slip period may be set short. This is because the length of each of the plurality of slip sections is equal to the length of the first slip section x 2 ^n-1 (n; the order of the slip sections for which the current length is to be obtained), and the length of the final slip section is fixed. This is because setting the length of the first sleep period is advantageous for power savings as the transmission and reception probability of L is small, and setting the length of the first sleep period as short as the transmission and reception possibility is advantageous in reducing the return time to the normal mode.

4B is a structural diagram of a response message to the sleep mode request message.

In the message structure shown in FIG. 4B, the mobile communication terminal may determine the length of the sleep period by using the length information of the first sleep period included in the initial-sleep window indicating the length of the first sleep period.

The length information of the first sleep period included in the initial-sleep window of the response message may be determined according to the length information of the first sleep period included in the initial-sleep window of the sleep mode request message. That is, as requested by the mobile communication terminal, the length of the first sleep period is set.

The mobile communication terminal sets a reference value for the length of the first sleep period. In this case, the reference value is preferably 1/2 of the length of the final slip period. Here, it is assumed that the length of the last slip period is fixed at 1024 frames.

Hereinafter, a case in which the length of the sleep interval is determined using the terminal usage related information will be described.

For example, according to whether the display window is on or off, the control unit 140 is less than the reference value when the display window is turned on, or above the reference value when the display window is turned off. Determine the length. When the display window is turned on, it means that there is a high possibility of transmitting and receiving data even if no data is currently transmitted and received. Therefore, it is preferable to set the length of the initial slip period to be short so as to quickly return to the normal mode.

In addition, the controller 140 determines the length of the initial slip period, below the reference value when the folder or slide is open, or above the reference value when the folder or slide is open, depending on whether the folder or slide is opened or closed. do. Opening the folder or slide means that there is a high possibility of transmitting and receiving data in the future, and therefore, it is preferable to shorten the length of the initial sleep period.

In addition, the controller 140 determines whether the battery residual amount is greater than or equal to the reference value, when it is determined that the battery level is greater than or equal to the reference value. Determine the length. Since the battery remaining amount is greater than or equal to the reference value, it means that there is a power source for data transmission and reception, and therefore, it is preferable to shorten the length of the initial sleep period.

In addition, when the controller 140 determines the key input by the user, the controller 140 is less than the reference value when it is determined that there is a key input, and is above the reference value when it is determined that there is no key input. Determine the length of the family. Since the key input from the user means that the possibility of data transmission and reception in the future is large, it is preferable to set the length of the initial sleep period to be short.

In addition, the controller 140 determines the voice call connection frequency, when the frequency is determined to be lower than the reference value, when the frequency is determined to be lower than the reference value. Determine the length of the interval. Since the high frequency of the voice call connection means that the possibility of transmitting and receiving data is small due to frequent voice call connection, it is preferable to set the length of the initial sleep interval to be long.

In addition, the controller 140 determines the voice signal amount to be less than the reference value when it is determined that the voice signal amount is lower than the reference value, and to determine the voice signal amount to be higher than the reference value when it is determined that the voice signal amount is higher than the reference value. The length of the initial slip period is determined. Since the amount of the voice signal is large, it is determined that a large amount of the voice signal means that the possibility of transmitting and receiving data is small. Therefore, it is preferable to set the length of the first sleep period to be long.

Meanwhile, in setting the length of the first sleep period, the length of the last sleep period may not exceed 1024 frames.

In the following description, a case of determining the length of the sleep period using the data transmission / reception related information will be described.

For example, the controller 140 determines the amount of data transmission / reception in the time zone that includes the current time, from the existing time-zone data transmission / reception amount. The controller 140 determines the length of the first sleep period below the reference value when the determined amount of data transmission / reception is higher than the reference value and above the reference value when the determined data transmission / reception amount is higher than the reference value. Since higher than the reference value means that the possibility of data transmission and reception in the future is large, it is preferable to shorten the length of the initial sleep period in order to shorten the return time to the normal mode.

In addition, the controller 140 determines the last data transmission / reception time and the amount of data, so that when the last data transmission / reception time is within a certain period from the current time or when the amount of data is greater than or equal to the reference value, the controller 140 sets the predetermined period. In the case of deviation or less than the reference value, the length of the initial slip period is determined above the reference value. Since the last data transmission / reception time is within a certain period or the amount of data is higher than the reference value, it means that there is a high possibility of transmitting / receiving data again. Therefore, it is preferable to shorten the length of the first sleep period.

The transmission and reception module 150 transmits and receives data with the serving base station through the portable Internet.

In particular, in the present invention, the transmission and reception module 150 transmits a request message for setting a power saving mode selected by the controller 130 to the serving base station, and receives a response message thereto.

For example, when the selected power saving mode is a sleep mode, the transmission / reception module 150 transmits the request message including the information about the length of the sleep period, and correspondingly, the length of the sleep period to the sleep period. Receive the response message including the information.

The mode manager 160 sets and manages a mode suitable for a mobile communication terminal in a portable Internet system.

In particular, in the present invention, the mode manager 160 sets the selected power saving mode according to the control signal of the controller 140. In this case, the power saving mode may be one of an idle mode and a sleep mode.

In particular, in the present invention, when the sleep mode is selected, the mode manager 160 not only sets the sleep mode but also operates the sleep period by using the sleep period length information included in the response message.

Hereinafter, a process of performing the sleep mode according to the length of the sleep interval will be described with reference to FIGS. 5A and 5B.

First, as the sleep mode is set, the mobile communication terminal alternately performs a monitoring period and a sleep period. At this time, the plurality of monitoring sections have the same length.

FIG. 5A illustrates a case where the length of the initial sleep period found from the information included in the initial sleep window of FIG. 4B is 256 frames. In this case, each of the slip periods after the initial slip period has a length × 2 ⁿ⁻¹ of the initial slip period.

First, the mobile communication terminal performs a first sleep period 502 of 256 frames after performing the first monitoring period 501. After the second monitoring section 503 is performed, the second sleep section 504 of 512 frames is performed. At this time, 512 frames, which is the length of the second slip period, is calculated by 256 frames × 2 ^2-1 . After the third monitoring section 505 is performed, the third sleep section 506 of 1024 frames is performed. At this time, 1024 frames, which is the length of the third slip period, is calculated by 256 frames × 2 ^3-1 . In addition, since the third slip period 506 has 1024 frames, which is the maximum length of the final slip period, all of the slip periods after the third slip period 506 have a length of 1024 frames.

FIG. 5B illustrates a case where the length of the initial sleep period found from the information included in the initial sleep window of FIG. 4B is 1024 frames.

Since the first sleep period, that is, the first sleep period 551 has 1024 frames which is the maximum length of the last sleep period, the mobile communication terminal, all the sleep periods 557, after the first sleep period 553, 561) for 1024 frames.

In addition, when data transmitted from the serving base station is detected, the mode manager 160 sets a normal mode for receiving the transmitted data according to a control signal of the controller 140.

2, an embodiment of a power saving method of a mobile communication terminal in a portable Internet system according to the present invention will be described in detail.

The mobile communication terminal will be described assuming that it includes the components shown in FIG.

The information collecting unit 120 obtains and stores at least one information from the terminal usage related information and the data transmission / reception related information (S210).

The terminal usage related information means information related to terminal use by a user or information related to the operation of each component that is operated by the terminal itself.

For example, the terminal usage related information may include at least one of whether a display window is on / off, whether a folder or slide is opened or closed, battery remaining amount information, a key input from a user, a frequency of a voice signal connection, and a voice signal amount. .

In addition, the data transmission and reception related information refers to all information related to data transmitted and received with the serving base station through the transmission and reception module 150 in the portable Internet system. Here, the serving base station means a base station that is currently transmitting and receiving data with the mobile communication terminal through the portable Internet.

For example, the data transmission / reception related information includes at least one of a data transmission / reception amount according to time zone, a last data transmission / reception time and data amount, and a data transmission / reception pattern.

The information collecting unit 120 may store the obtained terminal use related information or the data transmission / reception related information in the storage unit 130.

The controller 140 selects a power saving mode to be set in the mobile communication terminal by using the obtained terminal usage related information or the data transmission and reception related information (S220).

For example, the controller 140 selects one of an idle mode and a sleep mode as a power saving mode established by an Institute of Electrical and Electronics Engineers (IEEE).

First, a case of selecting a power saving mode by using the terminal usage related information will be described.

For example, the controller 140 selects the sleep mode when it is turned on or the idle mode when it is turned off, depending on whether the display window is on or off. In addition, the controller 140 selects the sleep mode when the folder or slide is opened and the idle mode when the folder or slide is opened, depending on whether the folder or slide is opened or closed. In addition, the controller 140 determines whether the remaining battery level is greater than or equal to the reference value, and selects the sleep mode when it is determined to be greater than or equal to the reference value, and selects the idle mode when it is determined to be less than the threshold value. At this time, the reference value is set in advance in the mobile communication terminal. In addition, the controller 140 selects the sleep mode when it is determined that there is a key input and determines the idle mode when it is determined that there is no key input. The controller 140 selects the sleep mode when it is determined that the frequency is lower than the reference value, and selects the idle mode when it is determined that the frequency is higher than the reference value. The controller 140 selects the sleep mode when it is determined that the voice signal amount is lower than a reference value and determines the idle mode when it is determined that the voice signal amount is higher than a reference value. do.

Next, a case of selecting a power saving mode using the data transmission / reception related information will be described.

For example, the controller 140 determines the amount of data transmission / reception in the time zone that includes the current time, from the existing time-zone data transmission / reception amount. The controller 140 selects the sleep mode when the determined amount of data transmission and reception is higher than a reference value, and selects the idle mode when the determined data transmission / reception amount is lower than the reference value. In addition, the controller 140 determines the last data transmission / reception time and the amount of data, and determines the sleep mode when the last data transmission / reception time is within a predetermined period from the current time or when the amount of data is greater than a reference value. The idle mode is selected in case of deviation or below the reference value. In addition, the controller 140 selects a power saving mode suitable for the determined data transmission / reception pattern according to the existing data transmission / reception pattern.

In particular, when the sleep mode is selected, the controller 140 may determine the length of the sleep period by using the terminal usage related information or data transmission / reception related information. This will be described below in detail with reference to FIG. 3.

The transmission / reception module 150 transmits a request message for setting the selected power saving mode to the serving base station (S230), and receives a response message thereto (S240).

The mode manager 160 sets the selected power saving mode in response to the response message (S250). In this case, the power saving mode may be one of an idle mode and a sleep mode.

3, another embodiment of a power saving method of a mobile communication terminal in a portable Internet system according to the present invention will be described in detail.

The mobile communication terminal will be described assuming that it includes the components shown in FIG.

The information collecting unit 120 obtains and stores at least one information from the terminal usage related information and the data transmission / reception related information (S310).

Since step S310 is the same as step S210 of FIG. 2, a detailed description thereof will be omitted.

When the controller 140 determines to set the sleep mode in the mobile communication terminal (S320), the controller 140 determines the length of the sleep period by using the obtained terminal usage related information or data transmission / reception related information (S330). .

In this case, as described above with reference to FIG. 2, the controller 140 may determine to set one of an idle mode and a sleep mode by using the terminal usage related information or data transmission / reception related information.

Hereinafter, a case in which the length of the sleep interval is determined using the terminal usage related information will be described.

In this case, the mobile communication terminal presets a reference value for the length of the first sleep period. Further, in setting the length of the first sleep period, the length of the first sleep period does not exceed 1024 frames, which is the maximum length of the last sleep period.

For example, according to whether the display window is on or off, the control unit 140 is less than the reference value when the display window is turned on, or above the reference value when the display window is turned off. Determine the length.

In addition, the controller 140 determines the length of the initial slip period, below the reference value when the folder or slide is open, or above the reference value when the folder or slide is open, depending on whether the folder or slide is opened or closed. do. In addition, the controller 140 determines whether the battery residual amount is greater than or equal to the reference value, when it is determined that the battery level is greater than or equal to the reference value. Determine the length. In addition, when the controller 140 determines the key input by the user, the controller 140 is less than the reference value when it is determined that there is a key input, and is above the reference value when it is determined that there is no key input. Determine the length of the family. In addition, the controller 140 determines the voice call connection frequency, when the frequency is determined to be lower than the reference value, when the frequency is determined to be lower than the reference value. Determine the length of the interval. In addition, the controller 140 determines the voice signal amount to be less than the reference value when it is determined that the voice signal amount is lower than the reference value, and to determine the voice signal amount to be higher than the reference value when it is determined that the voice signal amount is higher than the reference value. The length of the initial slip period is determined.

In the following description, a case of determining the length of the sleep period using the data transmission / reception related information will be described.

For example, the controller 140 determines the amount of data transmission / reception in the time zone that includes the current time, from the existing time-zone data transmission / reception amount. The controller 140 determines the length of the first sleep period below the reference value when the determined amount of data transmission / reception is higher than the reference value and above the reference value when the determined data transmission / reception amount is higher than the reference value. In addition, the controller 140 determines the last data transmission / reception time and the amount of data, so that when the last data transmission / reception time is within a certain period from the current time or when the amount of data is greater than or equal to the reference value, the controller 140 sets the predetermined period. In the case of deviation or less than the reference value, the length of the initial slip period is determined above the reference value.

The transmission / reception module 150 transmits the request message including the information about the length of the sleep period (S340), and correspondingly receives a response message including the information about the length of the sleep period (S350). .

As described above, the structure of the request message is shown in FIG. 4A and the structure of the response message is shown in FIG. 4B.

The mode manager 160 performs a sleep mode in response to receiving the response message. In particular, the mode manager 160 operates a plurality of sleep sections according to the information on the length of the sleep section included in the response message.

This is as described above with reference to FIGS. 5A and 5B.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

According to the present invention described above, it is possible to select the most suitable power saving mode in the situation of the current terminal by using the terminal usage-related information and data transmission and reception related information.

In addition, according to the present invention described above, since the situation of the current terminal can be determined from the terminal usage-related information and the data transmission-reception-related information, it is possible to operate a sleep mode in which a sleep interval having a length suitable for the situation of the current terminal is set. .

Claims (11)

In the power saving method of a mobile communication terminal in a portable internet system, Obtaining and storing at least one piece of information related to terminal use-related information and data transmission / reception related information; Selecting a power saving mode to be set in the mobile communication terminal using the obtained information; And And setting the selected power saving mode. The method of claim 1, Transmitting a request message for setting the selected power saving mode to a serving base station; And Receiving a response message to the request message from the serving base station, The setting step may include setting the selected power saving mode in response to receiving the response message. The method of claim 1, The terminal usage related information may include at least one of whether a display window is on / off, whether a folder or slide is opened, battery remaining information, key input, voice call connection frequency, and voice signal volume. The data transmission / reception related information is a power saving method of a mobile communication terminal in a portable Internet system, characterized in that at least one of the data transmission and reception time, the last data transmission time and data amount, data transmission and reception pattern. The method of claim 1, wherein the selecting step, A power saving method of a mobile communication terminal in a portable internet system, characterized in that one of the idle mode (Idle Mode) and sleep mode (Sleep Mode) is selected. In the power saving method of a mobile communication terminal in a portable internet system, Obtaining and storing at least one piece of information related to terminal use-related information and data transmission / reception related information; Determining a length of a sleep period using the obtained information when a sleep mode is to be set in the mobile communication terminal; Transmitting a sleep mode request message including information on the determined length of the sleep interval to a serving base station, and receiving a response message thereto; And And performing a sleep mode according to the information on the length of the sleep interval included in the response message. 6. The method of claim 5, The terminal usage related information may include at least one of whether a display window is on / off, whether a folder or slide is opened, battery remaining information, key input, voice call connection frequency, and voice signal volume. The data transmission / reception related information is a power saving method of a mobile communication terminal in a portable Internet system, characterized in that at least one of the data transmission and reception time, the last data transmission time and data amount, data transmission and reception pattern. The method of claim 5, wherein the determining step, The power saving method of a mobile communication terminal in a portable internet system, characterized in that the length of all sleep intervals are determined by determining the length of an initial sleep interval. An information collection unit for obtaining at least one information from the terminal usage related information and the data transmission / reception related information; A controller for selecting a power saving mode to be set in the mobile communication terminal using the obtained information; A transmission / reception module configured to transmit a request message for setting the selected power saving mode to a serving base station, and receive a response message thereto; And And a mode manager configured to set the selected power saving mode in response to receiving the response message. The method of claim 8, wherein the control unit, A mobile communication terminal having a power saving function in a portable internet system, characterized in that one of the idle mode and the sleep mode is selected as the power saving mode. The method of claim 9, wherein the control unit, In the case of selecting the sleep mode, the length of the sleep interval is determined using the obtained information, and the power saving function in the portable Internet system includes information on the determined length of the sleep interval in the request message. Mobile communication terminal having a. The method of claim 10, wherein the mode management unit, And a sleep mode according to the information on the length of the sleep period included in the response message.

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