KR20110101343A - Apparatus and method for controlling update cycle of position value recognition using acceleration sensor of mobile terminal and computer read recording medium comprizing instruction word for processing method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for adjusting a position value update update period using an acceleration sensor provided in a mobile terminal, and a recording medium recorded by the method. In particular, the user's activity state is determined by an acceleration sensor provided in the mobile terminal. An apparatus and method for adjusting a position value recognition update period, and a recording medium recorded by the method.
The present invention provides an output voltage information acquisition unit for obtaining information on the voltage output according to the passage of time in the acceleration sensor provided in the mobile terminal; An activity index calculator for calculating an activity index of the mobile terminal from the output voltage; An activity state determination unit for determining an activity state of the mobile terminal from the activity index; And an update period adjusting unit configured to adjust a position value recognition update period of the mobile terminal according to the determined activity state. The position value recognition update period adjusting device using the acceleration sensor provided in the mobile terminal, comprising: a; do.

Description

Apparatus and method for controlling update cycle of position value recognition using acceleration sensor of mobile terminal and computer read recording medium comprizing instruction word for processing method

The present invention relates to an apparatus and method for adjusting a position value updating update period using an acceleration sensor provided in a mobile terminal, and a computer readable recording medium including instructions for performing the method. An apparatus and method for determining an activity state of a user and adjusting a location value recognition update period, and a computer readable recording medium including instructions for performing the method.

With the development of mobile communication technology and related technologies, mobile terminals of recent years have played the role of a comprehensive information medium that can transmit and receive multimedia data through wireless Internet or mobile Internet, beyond the scope of simple communication means.

In particular, recently, a location based service (LBS), which provides a predetermined service after grasping the current location of the user by using a characteristic that the user always carries, has attracted attention.

Such location-based services include services that provide traffic information and map information of surrounding areas, friend search services, and emergency relief services.

In order to provide a location-based service, the current location of a mobile terminal must be checked first, and the location verification method is largely divided into a GPS (Global Positioning System) method and a cell-based method.

The cell-based method uses a plurality of base station signals. Specifically, a time-of-arrival (TOA) method that calculates a distance by measuring a propagation time between a base station and a mobile terminal, and calculates a time difference of propagation from two signal sources. There is a TDOA (Time Difference of Arrival) scheme.

The GPS method is a method in which a mobile terminal having a GPS receiver determines a location of the mobile terminal using GPS signals transmitted from at least four GPS satellites, and has a higher accuracy than a cell-based method.

In the location-based service as described above, the user receives the service periodically and receives the service based on the recognized location information.

However, even when the user is not moving (the user does not change the position), not only must continuously recognize the location, but also to transmit the recognized location information, there is a problem that the battery life of the mobile terminal carried by the user is reduced .

The present invention provides an apparatus and method for increasing battery life of a mobile terminal by adjusting a location value recognition update period of the mobile terminal according to an activity state of a user carrying the mobile terminal, and a computer readable recording medium including instructions for performing the method. The purpose is to provide.

One aspect of the invention, the output voltage information acquisition unit for obtaining information on the voltage output according to the time elapsed in the acceleration sensor provided in the mobile terminal; An activity index calculator for calculating an activity index of the mobile terminal from the output voltage; An activity state determination unit for determining an activity state of the mobile terminal from the activity index; And an update period adjusting unit configured to adjust a position value recognition update period of the mobile terminal according to the determined activity state. The position value recognition update period adjusting device using the acceleration sensor provided in the mobile terminal, comprising: a; do.

Another aspect of the present invention is a position value recognition update period adjusting method using an acceleration sensor provided in a mobile terminal,

Acquiring information on a voltage output according to a time elapse from an acceleration sensor provided in the mobile terminal; Calculating an activity index of the mobile terminal from the output voltage; Determining an activity state of the mobile terminal from the activity index; And adjusting a location value recognition update period of the mobile terminal according to the determined activity state.

In one embodiment of the present invention, the active state of the mobile terminal provides a method for adjusting the update period is any one of the sitting state, walking state, or running state of the user carrying the mobile terminal.

In another embodiment of the present invention, the step of determining the activity state of the mobile terminal, if the activity index is greater than 0 and less than the first set index is determined as a sitting state of the user carrying the mobile terminal, When the activity index is greater than the first setting index and smaller than the second setting index, the user carrying the mobile terminal is determined to be walking. When the activity index is larger than the second setting index, the mobile terminal is carried. An update cycle adjustment method for determining that a user is running is provided.

In another embodiment of the present invention, the first setting index and the second setting index provides a method for adjusting the update period is a value set in the mobile terminal upon initialization of the mobile terminal.

In another embodiment of the present invention, the activity index is (where X is the magnitude of the voltage output in the first setting direction, Y is the magnitude of the voltage output in the direction perpendicular to the first setting direction, and Z is the first setting. It provides a method for adjusting the update period of the direction and the magnitude of the voltage output in the direction perpendicular to the second set direction.

In another embodiment of the present invention, the step of adjusting the position value recognition update period of the mobile terminal, wherein the activity index is greater than 0 and less than the first set index, the position value recognized immediately before the recognized position value If the difference is less than a set distance, updating the position value recognition of the mobile terminal at a first time period; If the activity index is greater than 0 and less than the first set index, and the difference between the recognized position value and the immediately recognized position value is greater than or equal to a set distance, the position of the mobile terminal in a second time period smaller than the first time period Updating the value recognition; If the activity index is greater than or equal to a first set index and less than a second set index, updating the position value recognition of the mobile terminal with a third time period smaller than the first time period and larger than the second time period; And updating the position value recognition of the mobile terminal with a fourth time period smaller than the second time period, if the activity index is equal to or greater than a second set index.

Another aspect of the present invention provides a computer readable recording medium comprising instructions for performing any one of the above methods.

According to the present invention, the battery life of the mobile terminal is increased by adjusting the location value recognition update period of the mobile terminal according to the activity state of the user carrying the mobile terminal, so that the battery does not need to be replaced frequently and the battery replacement cost. This is saved.

1 is a block diagram showing the internal configuration of a mobile terminal equipped with an acceleration sensor of the present invention.
FIG. 2 is a block diagram illustrating a detailed internal configuration of the controller of FIG. 1.
3 is a chart showing the active state of the mobile terminal according to the activity index of the present invention.
Figure 4 is a graph showing the output value of the acceleration sensor over time of the present invention.
5 is a flowchart illustrating a method for adjusting a location value recognition update period using an acceleration sensor provided in a mobile terminal of the present invention.
FIG. 6 is a flowchart illustrating a method of adjusting a location value recognition update period of the mobile terminal of FIG. 5.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Shapes and sizes of the elements in the drawings may be exaggerated for clarity, elements denoted by the same reference numerals in the drawings are the same elements.

1 is a block diagram showing the internal configuration of a mobile terminal equipped with an acceleration sensor of the present invention, Figure 2 is a block diagram showing a detailed internal configuration of the control unit of FIG.

Referring to FIG. 1, the mobile terminal 1000 according to the present invention includes a data storage unit 100, a display unit 200, a controller 300, and an acceleration sensor 400.

The data storage unit 100 functions as a data buffer when an operation program of the mobile terminal 1000 is executed, and data stored in the data storage unit 100 is sent to the control unit 300.

The display unit 200 displays an operating state of the mobile terminal 1000, such as a state of use of the battery, a reception intensity of radio waves, a date, a time, and the like. The display unit 200 may be implemented as an LCD.

The controller 300 activates the operation of the acceleration sensor 400 to obtain information about the voltage output from the acceleration sensor 400 over time. That is, when the mobile terminal 1000 is moved by the user, the acceleration sensor 400 detects the movement of the mobile terminal 1000. In this case, the control unit 300 controls the voltage output from the acceleration sensor 400 according to time. Obtain information about

Looking at the control unit 300 in detail with reference to Figure 2, the control unit 300 output voltage information acquisition unit 310, activity index calculation unit 320, activity state determination unit 330, the update period control unit 340 Include.

The output voltage information acquisition unit 310 obtains information on the voltage output from the acceleration sensor 400 provided in the mobile terminal 1000 according to time.

The activity index calculator 320 calculates the activity index of the mobile terminal 1000 from the voltage output from the output voltage information acquirer 310. The activity index calculation will be described in detail with reference to FIG. 4.

The activity state determination unit 330 determines the activity state of the mobile terminal 1000 from the activity index calculated by the activity index calculator 320. The active state of the mobile terminal 1000 includes a user who carries the mobile terminal 1000 in a sitting state, a walking state, and a running state.

The update period adjusting unit 340 adjusts the position value recognition update period of the mobile terminal 1000 according to the activity state determined by the activity state determining unit 330.

On the other hand, the mobile terminal 1000 as described above is a computer terminal, a communication terminal, a public switched telephone network (PSTN) terminal, VoIP, Session Initiation Protocol (SIP), Megaco, PDA (Personal Digital Assistant), cellular phone, PCS ( Personal

Communication Service Phones, Hand-Held PCs, CDMA-2000 (1X, 3X) Phones, Wideband CDMA Phones, Dual Band / Dual Mode Phones, GSM (Global Standard) for mobile (MBS) phone, mobile broadband system (MBS) phone, or satellite / terrestrial digital multimedia broadcasting (DMB) phone.

3 is a chart showing the active state of the mobile terminal according to the activity index of the present invention. Referring to Figure 3, it can be seen that the activity state of the mobile terminal is different according to three cases of activity index. In order to classify the activity index into three, in the present invention, the first setting index and the second setting index is based on the activity index discrimination, and the first setting index and the second setting index is set to the mobile terminal at the time of initialization of the mobile terminal. Value.

In relation to the activity index determination, the activity state determination unit 330 determines that the user carrying the mobile terminal is in a sitting state when the activity index is greater than 0 and smaller than the first setting index, and the activity index is the first setting index. If larger and smaller than the second set index, the user who carries the mobile terminal is determined to be walking. If the activity index is greater than the second set index, the activity state determination unit 330 determines that the user carrying the mobile terminal is running.

In this invention, although the activity index was made into three cases as an example, it can also further refine | divid it.

Figure 4 is a graph showing the output value of the acceleration sensor over time of the present invention. Referring to FIG. 4, the output value of the acceleration sensor is represented by a voltage size according to time. The user carrying the mobile terminal is sitting, walking, or running. It can be seen that there is a difference according to (Running).

In the graph, X is the magnitude of the voltage output in the first setting direction, Y is the magnitude of the voltage output in the direction perpendicular to the first setting direction, and Z is output in the direction perpendicular to the first setting direction and the second setting direction. The magnitude of the voltage.

Looking at the graph, when the user carrying the mobile terminal is sitting, the voltage level of X, Y, Z is almost O, and when the user carrying the mobile terminal is walking, the X, Y, Z It can be seen that the voltage magnitude is close to 0.2. In addition, when the user carrying the mobile terminal is running, it can be seen that the voltage magnitude of X, Y, Z exceeds 0.3.

The activity index calculated in the present invention is calculated by adding up the squares of X, Y, and Z to one square root.

5 is a flowchart illustrating a method for adjusting a location value recognition update period using an acceleration sensor provided in a mobile terminal of the present invention. 5 will be described together with FIGS. 1 and 2.

First, the output voltage information acquisition unit 310 obtains information on the voltage output from the acceleration sensor 400 provided in the mobile terminal 1000 according to time elapses (S100). The acceleration sensor 400 may determine the inclination of the mobile terminal 1000 using gravity acceleration, obtain a vector, and detect the direction and acceleration of the movement of the mobile terminal 1000. That is, when the acceleration sensor 400 is used, it can be seen how much the mobile terminal 1000 has moved in which direction.

After the step S100, the activity index calculator 320 calculates the activity index of the mobile terminal 1000 from the voltage output from the output voltage information obtaining unit 310 (S200). In relation to the activity index calculation, X is the magnitude of the voltage output in the first setting direction, Y is the magnitude of the voltage output in the direction perpendicular to the first setting direction, and Z is the same as the first setting direction and the second setting direction. When the magnitude of the voltage is output in the orthogonal direction, the activity index is calculated by adding the square roots of the sum of the squares of X, Y, and Z.

After the step S200, the activity state determination unit 330 determines the activity state of the mobile terminal 1000 from the activity index calculated by the activity index calculator 320 (S300). The active state of the mobile terminal 1000 may be, for example, a sitting state, a walking state, or a running state of the user carrying the mobile terminal 1000. The activity state may be determined through other classifications.

After the step S300, the update period adjusting unit 340 adjusts the position value recognition update period of the mobile terminal 1000 according to the activity state determined by the activity state determination unit 330 (S400). The adjustment of the position value recognition update period of the mobile terminal 1000 will be described in detail with reference to FIG. 6.

FIG. 6 is a flowchart illustrating a method of adjusting a location value recognition update period of the mobile terminal of FIG. 5.

First, the update period adjusting unit 340 determines whether the activity index is greater than zero and less than the first set index (S410).

After the step S410, if the activity index is greater than 0 and less than the first set index, the update period adjusting unit 340 determines whether the difference between the recognized position value and the immediately recognized position value is less than 30m (S420).

After the step S42O, if the difference between the recognized position value and the immediately recognized position value is less than 30m, the update period adjusting unit 340 recognizes the position value of the mobile terminal 1000 in a 5-minute period (first setting cycle). Update (S421). However, when the difference between the recognized position value and the immediately recognized position value is 30 m or more, the update period adjusting unit 340 updates the position value recognition of the mobile terminal 1000 in a 200 second period (second setting period). (S422).

In the step S422, unlike the step S421, the reason for updating the position value recognition of the mobile terminal 1000 in a second second period (second setting cycle) is that a user carrying the mobile terminal 1000 carries a vehicle or a train. It is because the actual position changes rapidly even if the activity index is less than 5 minutes (the first setting index) because it is in the vehicle.

On the other hand, after the step S410, if the activity index is greater than or equal to the first set index, the update period control unit 340 determines whether the activity index is greater than the first set index and less than the second set index (S430).

After the step S43O, when the activity index is greater than or equal to the first setting index and less than the second setting index, the update period adjusting unit 340 updates the position value recognition of the mobile terminal 1000 in a 30 second period (third setting period). (S431). However, if the activity index is greater than or equal to the second set index, the update period adjusting unit 340 updates the position value recognition of the mobile terminal 1000 in a 10 second period (fourth set period) (S432).

In the present invention, 5 minutes, 20 seconds, 30 seconds, and 10 seconds are set as the first setting period, the second setting period, the third setting period, and the fourth setting period, respectively. However, the setting periods may be determined at different times.

As described above, in the present invention, the update period can be flexibly adjusted according to the size of the activity index. That is, the faster the active state of the mobile terminal 1000, the faster the cycle of the mobile terminal 1000 is updated, and the slower the active state of the mobile terminal 1000, the slower the cycle of the mobile terminal 1000 is updated. By doing so, it is possible to increase the battery life of the mobile terminal 1000, so that the battery does not need to be cumbersomely replaced frequently, and battery replacement cost is saved.

The method of adjusting the update period as described above may also be recorded on a computer readable recording medium including instructions for performing such a method and read by a user by a computer.

The present invention is not limited by the above-described embodiment and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims, .

100: data storage unit 200: display unit
300: control unit 310: output voltage information acquisition unit
320: activity index calculation unit 330: activity state determination unit
340: update period control unit 400: acceleration sensor

Claims (8)

An output voltage information obtaining unit obtaining information on a voltage output according to a time elapse from an acceleration sensor provided in the mobile terminal;
An activity index calculator for calculating an activity index of the mobile terminal from the output voltage;
An activity state determination unit for determining an activity state of the mobile terminal from the activity index; And
An update period adjusting unit for adjusting a location value recognition update period of the mobile terminal according to the determined activity state;
Position value recognition update period control device using the acceleration sensor provided in the mobile terminal, characterized in that it comprises a. A method of adjusting a location value recognition update period using an acceleration sensor provided in a mobile terminal,
Acquiring information on a voltage output according to a time elapse from an acceleration sensor provided in the mobile terminal;
Calculating an activity index of the mobile terminal from the output voltage;
Determining an activity state of the mobile terminal from the activity index; And
Adjusting a location value recognition update period of the mobile terminal according to the determined activity state;
Update cycle adjustment method comprising a. The method of claim 1,
And an active state of the mobile terminal is any one of a sitting state, a walking state, and a running state of the user carrying the mobile terminal. The method of claim 1,
The determining of the activity state of the mobile terminal,
When the activity index is greater than zero and less than the first set index, the user who carries the mobile terminal is determined as sitting.
When the activity index is greater than the first set index and less than the second set index, it is determined that the user carrying the mobile terminal is walking,
And if the activity index is greater than a second set index, determining that the user carrying the mobile terminal is running. The method of claim 1,
And the first setting index and the second setting index are values set in the mobile terminal upon initialization of the mobile terminal. The method of claim 1,
The activity index (where X is the magnitude of the voltage output in the first setting direction, Y is the magnitude of the voltage output in the direction perpendicular to the first setting direction, Z is the direction perpendicular to the first setting direction and the second setting direction). How to adjust the update period). The method of claim 1,
Adjusting the position value recognition update period of the mobile terminal,
If the activity index is greater than 0 and less than a first set index, and the difference between the recognized position value and the immediately recognized position value is less than a set distance, updating the position value recognition of the mobile terminal at a first time period;
If the activity index is greater than 0 and less than the first set index, and the difference between the recognized position value and the immediately recognized position value is greater than or equal to a set distance, the position of the mobile terminal in a second time period smaller than the first time period Updating the value recognition;
If the activity index is greater than or equal to a first set index and less than a second set index, updating the position value recognition of the mobile terminal with a third time period smaller than the first time period and larger than the second time period; And
If the activity index is greater than or equal to a second set index, updating the position value recognition of the mobile terminal with a fourth time period smaller than the second time period;
Update cycle adjustment method comprising a. A computer-readable recording medium comprising instructions for carrying out the method of claim 2.

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