KR20140094147A - Method of Saving Power Usage of GPS Sensor of Mobile Apparatus by Using Acceleration Sensor - Google Patents

Abstract

The present invention relates to a method for reducing GPS power consumption by using an acceleration sensor of a mobile device. More specifically, the method for reducing GPS power consumption by using an acceleration sensor can effectively adjust the measurement frequency of a GPS sensor of the mobile device to reduce the battery power consumption of the mobile device while maintaining the precision of the mobile device determining the current location. The present invention can reduce the battery power consumption due to the usage of the GPS sensor while maintaining a high level of the precision regarding determining the location of the mobile device.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of reducing power consumption of a mobile device using an acceleration sensor,

The present invention relates to a method for reducing GPS power consumption using an acceleration sensor of a mobile device, and more particularly, to a method and apparatus for reducing the amount of battery power used by a mobile device, The present invention relates to a method for reducing GPS power consumption using an acceleration sensor of a mobile device capable of maintaining the accuracy to be grasped.

In recent years, most mobile devices have GPS sensors installed and sold. Various services for locating the location using the GPS sensor of a mobile device are provided, and services for providing various location information related to the detected location are also emerging.

In order to provide or utilize such a location information service, the current position of the user should be determined using a GPS sensor at a predetermined time interval. As the frequency of use of the GPS sensor is increased to increase the accuracy of detecting the current position, the battery power consumption increases and the battery use time of the mobile device is shortened. If the frequency of use of the GPS sensor is reduced to increase the battery usage time, there is a problem that the accuracy of detecting the current position or the accuracy of the travel route is decreased.

Conventionally, a method of calculating the moving speed by using the time interval using the GPS sensor and the distance between the moving distance and increasing or decreasing the frequency of using the GPS sensor in proportion to the calculated moving speed has been mainly used.

Recently, it is common to install various sensors besides GPS sensors in mobile devices. Therefore, it is necessary to use such sensors to reduce the use ratio of GPS sensors, and to maintain the accuracy of detecting the current position or movement route at a high level .

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for detecting a position of a mobile device while reducing consumption of battery power by a GPS sensor, And a method for reducing power consumption.

In order to solve the above-mentioned need, the method for reducing the GPS power consumption using the acceleration sensor of the mobile device of the present invention includes the acceleration sensor of the mobile device that grasps the position of the user using the GPS device and the mobile device equipped with the acceleration sensor A method for reducing the amount of GPS power used, the method comprising the steps of: (a) determining a degree of movement of a user carrying the mobile device using the acceleration sensor; And (b) increasing or decreasing the frequency of measuring the position of the user using the GPS sensor according to the degree of movement of the user, which is detected in the step (a).

The method of reducing the GPS power consumption using the acceleration sensor of the mobile device of the present invention is advantageous in that the use of the battery power by the GPS sensor of the mobile device can be reduced and the position of the mobile device can be grasped with high accuracy.

Hereinafter, a method of reducing GPS power consumption using an acceleration sensor of a mobile device according to the present invention will be described in detail with reference to the preferred embodiments.

The method for reducing the GPS power consumption using the acceleration sensor of the mobile device of the present embodiment is performed using a mobile device including an acceleration sensor, a GPS sensor, and a wireless communication module. The mobile device may be a mobile phone, a tablet, a black box for a vehicle, or a car navigation system. In addition to the GPS sensor, the acceleration sensor and the wireless communication module, the mobile device may further include an angular velocity sensor, a gravity sensor, a temperature sensor, and a proximity sensor.

The mobile device grasps the current position by communicating with a GPS satellite in the outdoor, and communicates with an access point in the room to grasp the current position by an A-GPS (Assisted GPS) method.

The present invention is characterized in that the position of the mobile device can be effectively grasped while reducing the power consumption by adjusting the frequency of use of the GPS sensor.

First, the degree of movement of the user carrying the mobile device is determined using the acceleration sensor of the mobile device (step (a)). Basically, the degree of movement of a user is determined by using an acceleration sensor of a mobile device. However, in some cases, the degree of movement of a user may be determined by considering angular velocity sensors and gravity sensors installed in a mobile device. In some cases, the type of movement of the user can be determined by analyzing the pattern of change in acceleration over time. For example, it is possible to grasp the type of movement of the user by analyzing the change pattern of the acceleration sensor and the angular velocity sensor over time, such as the user's slow walking, fast walking, running, sitting, .

In this manner, the frequency of measuring the position of the user using the GPS sensor is increased or decreased according to the degree of the user's movement measured in the step (a), thereby reducing the power consumption of the GPS sensor (step (b)).

Conventionally, only the change with time of the position measured by the GPS sensor is used. When the moving speed is high, the frequency of measuring the position of the user is increased by using the GPS sensor and the position of the user is measured when the moving speed is low It was common to lower the frequency.

However, according to the present invention, it is possible to reduce the power consumption of the mobile device and to maintain the accuracy of the position measurement at a high level by adjusting the frequency of use of the GPS sensor by using the values measured by the acceleration sensor together, .

A moving speed of a user carrying the mobile device is measured using a GPS sensor (step (c)), and the position of the user is measured considering the degree of movement of the user in step (a) Increase or decrease the frequency.

That is, if it is determined that the user is walking, the GPS sensor can be operated at an appropriate frequency according to the general walking speed, and the GPS sensor can be operated according to the running speed when it is determined that the user is running. In addition, when there is no motion detected by the acceleration sensor, the GPS sensor is not operated or operated at the lowest frequency, thereby preventing unnecessary power consumption by the GPS sensor.

On the other hand, when the mobile device is located indoors, the current position is grasped by an A-GPS (Assisted GPS) method. That is, the wireless communication module of the mobile device communicates with the nearby access point (AP) to grasp the current location.

By using both satellite GPS and A-GPS, the present invention can improve positioning accuracy while reducing battery usage in a more versatile and effective manner. A-GPS can be supplementarily used only when the satellite GPS and A-GPS are complementary at the same time, or when the GPS sensor is used to mainly utilize the positioning by the satellite GPS and the satellite GPS signal can not be received .

Typically, when a mobile device is located indoors, it can not receive satellite GPS signals. In the case where the mobile device is located inside the passenger car or close to the window of the vehicle, it can receive the satellite GPS signal. When a user is inside a relatively large vehicle such as a bus, it is often impossible to receive a satellite GPS signal. In most cases, when you are on the subway, you can not receive satellite GPS signals.

In the above (c), the user's movement speed is measured using the GPS sensor. However, if the GPS signal can not be received, the user's position is determined using the A-GPS and the movement speed is measured do.

The present invention performs a step of determining whether the mobile device is in the room or outdoors by using a GPS sensor in order to reduce the battery consumption and improve the positioning accuracy in consideration of whether the user is indoors or not ) step).

If it is determined in step (d) that the mobile device (i.e., the user of the mobile device) is indoors, the location of the user is detected with a frequency lower than the frequency of using the GPS sensor when the user is outdoors . Since the user is more likely to move his / her position when he / she is outdoors and the moving speed is higher than that of the user, it is generally possible to operate at intervals of 20 seconds when the user is outdoors, The location can be grasped.

However, even if the user is indoors as a result of performing the step (d), it is possible to cope with various situations by considering the measured value of the acceleration sensor obtained in the step (a) and the value of the moving speed of the user .

For example, if it is determined that the user is indoors in step (d) and the user is determined not to move in step (a), the user can be regarded as being stopped in the room without moving. In this case, the user may see the case where the user is stationary in the building, but the same result may be obtained even when the user is stopped inside the bus or subway. In this case, it is possible to distinguish whether the user is inside the building or whether it is inside the bus or subway by knowing whether or not the user is moving by the result of the step (c).

If the mobile device is not moving as a result of the step (c), it can be considered that the mobile device is stationary inside the building. In this case, in step (b), the frequency of measuring the position of the user may be minimized (for example, at intervals of 10 minutes) to determine the current position.

Even if the user is indoors and does not move, if the position of the mobile device is moving as a result of the step (c), it is determined that the mobile device is inside the vehicle (bus, subway, etc.) In this case, the frequency of measuring the position of the user in step (b) is increased in proportion to the moving speed of the user, which is grasped in step (c).

For example, if the moving speed of the mobile device is less than 30 km, the user's position is measured at intervals of 1 minute, 30 seconds at 30 to 60 km, and 5 seconds at 60 km or more.

If it is determined that the user is outdoors as a result of performing the step (d), the frequency of the user's location can be adjusted according to the result of performing the step (a). That is, the frequency of grasping the location of the user can be adjusted according to whether the user is moving or not.

If the user is outdoors as a result of the step (d) and the user is moving as a result of performing the step (a), the user can be seen as walking or running outdoors. In some cases, the user may be riding a bicycle. However, the result of performing the step (a) may vary depending on which part of the user's body the mobile device is carried. In this way, when the user is moving outdoors, there is a high possibility that the moving speed is lower than when the mobile device is placed in a state where there is no movement at a position capable of receiving the satellite GPS signals in the vehicle during driving. That is, there is a high possibility that the mobile device, which is disposed without movement in the running vehicle, moves faster than when the user is walking or running and the mobile device is moving. Therefore, in the case where there is a movement of the user, the step (b) is performed so as to grasp the current position with less frequency than when the user does not move. In either case, the frequency of identifying the initial current position is determined according to the result of step (a), but the frequency of grasping the position of the user in proportion to the moving speed of the user measured as a result of performing step (c) is adjusted. By adjusting the current position recognition frequency in accordance with the movement speed of the user, it is possible to effectively control the current position of the bicycle when the user travels the bicycle at high speed, when the user is stationary outdoors, when the user is inside the car Can respond.

It is possible to classify the situation according to the measurement value of the acceleration sensor and the reception of the satellite GPS signal without increasing the frequency of the position measurement in proportion to the speed by measuring the moving speed by the GPS sensor, It is possible to reduce the battery usage of the mobile device while maintaining the accuracy of grasping the current position and the travel route at a predetermined level or more.

In the meantime, all of the above-described examples are based on the assumption that the external power is not connected to the mobile device but the battery power is used. When external power is connected to the mobile device, the above- It is also possible to grasp the current position.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to the examples described above.

For example, although the acceleration sensor is mainly used as an example, the angular velocity sensor or the angular velocity sensor and the acceleration sensor are used together to determine the type of movement of the user, and the frequency of use of the GPS sensor It is also possible to do. In some cases, a gravity sensor may also be used.

Claims (7)

A method for reducing GPS power consumption using an acceleration sensor of a mobile device that grasps a user's position using a GPS device and a mobile device equipped with an acceleration sensor,
(a) determining a degree of movement of a user carrying the mobile device using the acceleration sensor; And
(b) increasing or decreasing the frequency of measuring the position of the user using the GPS sensor according to the degree of the movement of the user detected in the step (a) To reduce GPS power usage. The method according to claim 1,
(c) measuring a moving speed of a user carrying the mobile device using the GPS sensor,
Wherein the step (b) increases or decreases the frequency of measuring the position of the user by using the GPS sensor in consideration of the degree of movement of the user and the moving speed of the user measured in the step (c) A Method for Reducing GPS Power Consumption Using Accelerometer of Mobile Device. 3. The method of claim 2,
(d) determining whether the mobile device is indoors or outdoors using the GPS sensor,
If it is determined in step (d) that the user is indoors,
The method of claim 1, wherein the step (b) is performed by using an A-GPS method. The method of claim 3,
The method of claim 1, wherein the step (b) further comprises determining a position of the user with a smaller frequency when the user is located outside the outdoor area, How to reduce power usage. The method according to claim 3 or 4,
Wherein it is determined that the user is indoors in the step (d), the user is not moved in the step (a), and when the movement of the user is not detected in the step (c) The frequency of measuring the position of the user is minimized,
Wherein if it is determined that the user is indoors in the step (d), the user is determined not to move in the step (a), and if the movement of the user is detected in the step (c) Wherein the frequency of measuring the position of the user increases in proportion to the moving speed of the user. The method according to claim 3 or 4,
If it is determined in step (d) that the user is outdoors,
Wherein the step (b) further comprises the step of recognizing the user's position with a smaller frequency when it is determined that there is a movement of the user, in the case where it is determined that there is no movement of the user in the step (a) A Method for Reducing GPS Power Consumption Using Accelerometer. The method according to claim 3 or 4,
If it is determined in step (d) that the user is outdoors, and if it is determined in step (a) that the user does not move,
Wherein the step (b) increases the frequency of locating the user in proportion to the moving speed of the user measured in the step (c).