KR20190132125A - Method for predicting damage of mobile phone and apparatus therefor - Google Patents

Abstract

The present invention relates to a method for predicting the damage of a mobile terminal based on a change amount of potential energy, and a communication device therefor. A method of predicting the damage possibility of a mobile terminal by a damage prediction application installed in the mobile terminal according to the present invention includes a step of measuring the altitude of the mobile terminal using an altitude sensor mounted on the mobile terminal; a step of measuring the position energy of the mobile terminal using the measured altitude and the mass of the mobile terminal, and calculating a change in the position energy of the mobile terminal based on a difference between the measured position energy and a previously measured position energy; a step of increasing the damage coefficient of the mobile terminal when the calculated change in potential energy exceeds a first threshold value; and a step of generating an event if the damage coefficient reaches a preset risk factor.

Description

Method for predicting terminal damage and apparatus therefor {Method for predicting damage of mobile phone and apparatus therefor}

The present invention relates to a method of predicting a breakdown of a mobile terminal, and more particularly, to a method of predicting a breakdown of a mobile terminal based on a change in potential energy, and a communication device therefor.

Today, the majority of users have a mobile terminal and use the mobile terminal to make calls or use the wireless Internet. These mobile terminals are becoming a necessity of the user, and their use is becoming more diverse.

In order to prevent the loss or damage of the mobile terminal, the user may purchase a terminal insurance that a certain amount is paid monthly. The following patent document discloses a mobile terminal loss / damage insurance subscription and additional service providing method through a telecommunication company.

However, most users do not have terminal insurance. If the damage of the mobile terminal can be predicted in advance, after inducing the user's insurance and also paying the insurance premiums at a low cost, the user can be guaranteed the cost of the terminal damage.

Publication No. 10-2017-0111317 (published Oct. 12, 2017)

SUMMARY OF THE INVENTION An object of the present invention is to provide a terminal damage prediction method and a communication apparatus for predicting a damage possibility of a mobile terminal based on a change amount of position energy or an acceleration change of a mobile terminal.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to a first aspect of the present invention for achieving the above object, a method of predicting the damage of the mobile terminal by the damage prediction application installed in the mobile terminal, using the altitude sensor mounted on the mobile terminal of the mobile terminal Measuring altitude; Measuring the position energy of the mobile terminal using the measured altitude and the mass of the mobile terminal, and calculating the change in the position energy of the mobile terminal based on the difference between the measured position energy and the previously measured position energy. ; Increasing the failure coefficient of the mobile terminal if the calculated change in potential energy exceeds a first threshold value; And generating an event when the failure coefficient reaches a preset risk factor.

The method for estimating the possibility of damage may include: checking an acceleration change amount of the mobile terminal using an acceleration sensor of the mobile terminal when the calculated change in the potential energy is less than or equal to a first threshold value; And increasing the damage coefficient of the mobile terminal when the acceleration change amount exceeds a second threshold value.

In the increasing of the damage factor, an increase value of the damage factor may be determined in proportion to the magnitude of the potential energy change or the magnitude of the acceleration change.

The method for estimating the possibility of damage may include obtaining subscription information of the mobile terminal; And

The method may further include setting an initial damage factor based on one or more of the number of change of the subscriber's name included in the subscription information and the opening maintenance period.

In the setting of the initial damage factor, after acquiring the specification information of the mobile terminal, the manufacturing date of the mobile terminal may be confirmed from the specification information, and the initial damage coefficient may be set based on the manufacturing date.

In the generating of the event, when the damage factor reaches a preset risk factor, the terminal insurance advertisement may be output as the event on the screen of the mobile terminal.

According to a second aspect of the present invention for achieving the above object, at least one processor; Memory; And one or more programs stored in the memory and configured to be executed by the one or more processors, wherein the programs use the altitude of the communication device and the mass of the communication device in the communication device. A potential energy measuring unit measuring an amount of change in potential energy generated; A damage factor management unit for determining whether or not the measured change in potential energy exceeds a first threshold value and increases a failure coefficient of the communication device; And an event generator for generating an event when the damage factor reaches a preset risk factor.

The present invention monitors the amount of change in the position energy of the mobile terminal, and if the change in the position energy exceeds the threshold, increases the damage coefficient indicating the degree of damage of the mobile terminal, and when the damage coefficient reaches the preset risk factor, By generating an event indicating that the mobile terminal is likely to be damaged, there is an advantage of inducing the management of the mobile terminal more thoroughly.

In addition, the present invention has an advantage that it is possible to more accurately predict the damage of the mobile terminal by setting the initial failure coefficient based on the subscription information and the specification information of the mobile terminal.

In addition, the present invention has an advantage of maximizing the effect of the terminal insurance advertising by outputting the terminal insurance advertising, if the damage factor of the mobile terminal reaches the risk factor.

The following drawings attached to this specification are illustrative of the preferred embodiments of the present invention, and together with the specific details for carrying out the invention serve to further understand the technical spirit of the present invention, the present invention described in such drawings It should not be construed as limited to matters.
1 is a diagram illustrating a communication system according to an embodiment of the present invention.
2 is a diagram illustrating a mobile terminal according to an embodiment of the present invention.
3 is a flowchart illustrating a method of setting an initial damage factor of a mobile terminal according to an embodiment of the present invention.
4 is a flowchart illustrating a process of changing a damage factor of a mobile terminal according to an embodiment of the present invention.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a communication system according to an embodiment of the present invention.

Referring to FIG. 1, the mobile terminal 100 communicates with the information providing server 200 through the network 300. The network 300 includes a wired internet network and a mobile communication network.

The information providing server 200 stores and stores the subscription information including the initial opening date of the mobile terminal 100, the current subscriber name, the number of times the subscriber name has been changed, the opening maintenance period, and the like for each mobile terminal 100. The information providing server 200 may provide subscription information of the mobile terminal 100 to the mobile terminal 100 as requested. Optionally, the information providing server 200 may classify and store specification information including the manufacturer, the manufacturing date, the model name, the mass, and the like of each mobile terminal 100 for each mobile terminal. In this case, the information providing server 200 may additionally provide the specification information to the mobile terminal 100.

The mobile terminal 100 is a mobile device which is portable and can communicate with each other and the user terminal and the information providing server 200 by using a communication channel. One embodiment of mobile terminal 100 may include, but is not limited to, a computing device having a portable device such as a mobile phone, a smartphone, and a Wi-Fi or other wireless transceiver such as a tablet computer, or the like.

The mobile terminal 100 is equipped with a damage prediction application for predicting terminal damage, and the damage coefficient of the mobile terminal 100 is managed through the damage prediction application. The damage factor is a number used to predict that the liquid crystal of the mobile terminal 100 is broken, and the higher the probability that the liquid crystal of the mobile terminal 100 is broken. The mobile terminal 100 is equipped with an altitude sensor capable of measuring altitude and an acceleration sensor capable of measuring acceleration.

2 is a diagram illustrating a mobile terminal according to an embodiment of the present invention.

The mobile terminal 100 of FIG. 2 may include a memory, a memory controller, one or more processors (CPUs), peripheral interfaces, input / output (I / O) subsystems, display devices, input devices, and communication circuits.

The memory may include fast random access memory, and may also include one or more magnetic disk storage devices, nonvolatile memory such as flash memory devices, or other nonvolatile semiconductor memory devices. Access to memory by other components such as processors and peripheral interfaces may be controlled by the memory controller. The memory may store various information and program instructions, and the program is executed by the processor. The program (that is, the failure prediction application) includes the information acquisition unit 110, the position energy measurement unit 120, the acceleration measurement unit 130, the damage factor management unit 140, and the event generation unit 150 of FIG. 2 described later. It may include.

The peripheral interface connects an input / output peripheral of the mobile terminal 100 with a processor and a memory. One or more processors execute various instruction sets stored in various software programs and / or memories to perform various functions and process data for the mobile terminal 100. I / O subsystems provide an interface between input and output peripherals, such as display devices and input devices, and peripheral interfaces. The display device may use liquid crystal display (LCD) technology or light emitting polymer display (LPD) technology.

A processor is a processor configured to perform operations associated with a mobile terminal 100 and to perform instructions, for example, using instructions retrieved from a memory to receive and manipulate input and output data between components of the mobile terminal 100. Can be controlled. The communication circuit performs communication via an external port or communication by an RF signal. The communication circuit converts an electrical signal into an RF signal and vice versa and can communicate with the communication network, other mobile gateway devices and communication devices through the RF signal.

Referring to FIG. 2, the mobile terminal 100 includes an information obtaining unit 110, a position energy measuring unit 120, an acceleration measuring unit 130, a damage factor managing unit 140, and an event generating unit 150. do. Such components may be implemented in software, stored in memory and executed by a processor, or may be implemented in a combination of software and hardware.

The information acquisition unit 110 performs a function of acquiring specification information and subscription information of the mobile terminal 100. That is, the information acquisition unit 110 obtains specification information including the date of manufacture of the mobile terminal 100 and the mass of the mobile terminal 100 from the internal storage area of the mobile terminal 100 or the information providing server 200. The information obtaining unit 110 obtains the spec information from the mobile terminal 100 when the spec information of the mobile terminal 100 is stored in the mobile terminal 100. Meanwhile, when the specification information of the mobile terminal 100 is not stored in the storage area of the mobile terminal 100, the information obtaining unit 110 transmits identification information of the mobile terminal 100 to the information providing server 200. Then, the specification information of the mobile terminal 100 is received from the information providing server 200. In addition, the information acquisition unit 110 provides the identification information of the mobile terminal 100, the subscription information of the mobile terminal 100 corresponding to the identification information of the mobile terminal 100 from the information providing server 200 Receive.

The position energy measuring unit 120 monitors the amount of change in the position energy of the mobile terminal 100. The position energy measuring unit 120 checks the mass of the mobile terminal 100 in the specification information, and also substitutes the altitude (that is, the height) measured through the altitude sensor to the following Equation 1, thereby moving the mobile terminal 100. The potential energy of is measured and the change of potential energy is continuously measured for each measurement cycle based on the difference between the measured potential energy and the potential energy measured in the immediately preceding measurement cycle.

Where Ep is the potential energy, m is the mass of the mobile terminal, and h is the value measured by the altitude sensor.

The acceleration measuring unit 130 monitors the acceleration change amount of the mobile terminal 100. The acceleration measuring unit 130 checks the current acceleration using an acceleration sensor, and continuously measures the amount of acceleration change for each measurement period based on the difference between the acceleration and the acceleration measured in the immediately preceding measurement period.

The failure coefficient managing unit 140 sets an initial failure coefficient of the mobile terminal 100 and increases a failure coefficient based on a change amount of position energy or acceleration change of the mobile terminal 100. The failure coefficient management unit 140 may check the manufacturing date of the mobile terminal 100 in the specification information of the mobile terminal 100, and set the initial failure coefficient relatively high in proportion to the old manufacturing date. In other words, the failure coefficient management unit 140 may determine that the liquid crystal damage is more likely as the manufacturing date of the mobile terminal 100 becomes longer, thereby setting the initial failure coefficient higher. The amount of increase in the failure coefficient that increases with the production date is set in advance. In addition, the damage factor management unit 140 may check the number of times the subscriber name is changed in the subscription information of the mobile terminal 100 and increase the initial damage factor in proportion to the number of times of the subscriber name change. In addition, the damage factor management unit 140 may confirm the opening maintenance period in the subscription information of the mobile terminal 100 and increase the initial failure coefficient in proportion to the opening maintenance period. That is, the damage factor management unit 140 may determine that the liquid crystal breakage is more likely as the number of change of the mobile terminal 100 increases, and may increase the initial breakdown coefficient. It is judged that this is high, and the initial failure coefficient can be increased. Similarly, an increase amount in which the damage coefficient is increased according to the number of change of names and an increase amount in which the damage coefficient is increased according to the opening and closing period are set in advance and stored in the mobile terminal 100.

When the amount of change of potential energy measured by the position energy measuring unit 120 exceeds the first threshold value set in advance, the failure coefficient management unit 140 determines that the mobile terminal 100 has fallen down from a high place and is damaged. The coefficient can be increased by a preset value. At this time, the failure coefficient management unit 140 may determine the increase value of the failure coefficient in proportion to the magnitude of the potential energy change. On the other hand, the failure coefficient management unit 140 checks whether the acceleration change amount measured by the acceleration measuring unit 130 exceeds the second threshold value if the amount of change in the position energy does not exceed the first threshold value, and then moves. It is determined that the terminal 100 is thrown in the horizontal direction and increases the damage factor by a preset value. At this time, the failure coefficient management unit 140 may determine an increase value of the failure coefficient in proportion to the magnitude of the acceleration change amount.

When the damage factor is changed, the event generator 150 checks whether the damage factor reaches a preset risk factor. The event generator 150 may output an event indicating a warning phrase or an event outputting an insurance advertisement when the damage factor reaches the risk factor on the screen.

3 is a flowchart illustrating a method of setting an initial damage factor of a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 3, when the damage prediction application is installed in the mobile terminal 100, the information acquisition unit 110 may transmit the spec information of the mobile terminal 100 to the internal storage area or the information providing server 200 of the mobile terminal 100. Obtained from (S301). When the spec information of the mobile terminal 100 is stored in the mobile terminal 100, the information obtaining unit 110 obtains the spec information from the mobile terminal 100, while the specification information of the mobile terminal 100 is obtained. Is not stored in the storage area of the mobile terminal 100, the identification information of the mobile terminal 100 is transmitted to the information providing server 200, the specification information of the mobile terminal 100 is transmitted to the information providing server 200. Acquire from Subsequently, the information acquisition unit 110 provides identification information of the mobile terminal 100, and receives subscription information of the mobile terminal 100 corresponding to the identification information of the mobile terminal 100 from the information providing server 200. It receives (S303).

When the information acquisition unit 110 obtains the specification information and the subscription information of the mobile terminal 100, the damage factor management unit 140 is the manufacturing date of the mobile terminal 100 included in the specification information, included in the subscription information An initial failure coefficient is set using at least one of the number of change of names and the opening and holding period (S305). The damage factor management unit 140 may check the manufacturing date of the mobile terminal 100 in the specification information, and increase the initial failure coefficient in proportion to the old manufacturing date. In addition, the damage factor management unit 140 may check the number of times the subscriber name is changed in the subscription information of the mobile terminal 100 and increase the initial damage factor in proportion to the number of times of the subscriber name change. In addition, the damage factor management unit 140 may confirm the opening maintenance period in the subscription information of the mobile terminal 100 and increase the initial failure coefficient in proportion to the opening maintenance period.

4 is a flowchart illustrating a process of changing a damage factor of a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 4, the position energy measuring unit 120 and the acceleration measuring unit 130 monitor whether a preset measurement period arrives (S401), and when the measurement period arrives, the position energy measuring unit 120 After measuring the altitude (that is, the height) of the mobile terminal 100 using the altitude sensor, and after confirming the mass of the mobile terminal 100 in the specification information, the current mobile terminal by substituting the mass and altitude into Equation 1 The potential energy of 100 is measured. In addition, the position energy measuring unit 120 checks the change amount of the position energy based on the difference between the measured position energy and the position energy measured in the immediately preceding measurement period (S403).

In addition, the acceleration measuring unit 130 checks the current acceleration using the acceleration sensor, and checks the amount of acceleration change based on the difference between the acceleration and the acceleration measured in the immediately preceding measurement period (S405).

Next, the damage factor management unit 140 determines whether the amount of change in the position energy measured by the position energy measuring unit 120 exceeds the first threshold value set in advance (S407). The failure coefficient management unit 140 determines that the mobile terminal 100 has fallen down from a high place when the amount of change in position energy exceeds the first threshold value set as a result of the determination, and sets a damage coefficient in advance. It can increase by (S413). At this time, the failure coefficient management unit 140 may determine the increase value of the failure coefficient in proportion to the magnitude of the potential energy change.

On the other hand, if the amount of change in potential energy does not exceed the first threshold value, the failure coefficient managing unit 140 determines whether the measured acceleration change amount exceeds the second threshold value (S409). The damage factor manager 140 determines that the mobile terminal 100 is thrown in the horizontal direction when the acceleration change amount exceeds the second threshold as a result of the determination, and increases the damage factor by a predetermined value (S413). At this time, the failure coefficient management unit 140 may determine an increase value of the failure coefficient in proportion to the magnitude of the acceleration change amount.

When the damage factor is changed, the event generator 150 checks whether the damage factor reaches a preset risk factor. When the damage factor reaches the risk factor, the event generator 150 may output a warning message indicating that the liquid crystal of the mobile terminal 100 is more likely to be damaged. Alternatively, when the damage factor reaches the risk factor, the event generator 150 may output an insurance advertisement for inducing damage insurance of the mobile terminal 100 on the screen.

On the other hand, if the change amount of the potential energy is less than the first threshold value, and the acceleration change amount is less than the second threshold value, it is determined that no impact is generated in the mobile terminal 100, and the failure coefficient management unit 140 determines the current. The damage factor is maintained without increasing (S411).

As the method according to FIG. 4 represents one cycle, the position energy measuring unit 120, the acceleration measuring unit 130, and the failure coefficient managing unit 140 repeat the method according to FIG. 4 at a predetermined periodic interval.

As described above, the mobile terminal 100 installed with the damage prediction application according to the present invention monitors the amount of change in the position energy, and if the change in the position energy exceeds the threshold value, increases the damage coefficient indicating the degree of damage of the mobile terminal, and breaks it. When the coefficient reaches a preset risk factor, an event is generated to inform the user that the mobile terminal is more likely to be damaged. In addition, the mobile terminal 100 more accurately predicts the damage of the mobile terminal by setting an initial failure coefficient based on the subscription information and the specification information.

While this specification contains many features, such features should not be construed as limiting the scope of the invention or the claims. Also, the features described in the individual embodiments herein can be implemented in combination in a single embodiment. Conversely, various features described in a single embodiment herein can be implemented individually in various embodiments or in combination as appropriate.

Although the operations are described in a particular order in the drawings, they should not be understood as being performed in a particular order as shown, or in a sequence of successive orders, or all described actions being performed to obtain a desired result. . Multitasking and parallel processing may be advantageous in certain circumstances. In addition, it should be understood that the division of various system components in the above-described embodiments does not require such division in all embodiments. The program components and systems described above may generally be packaged in a single software product or multiple software products.

The method of the present invention as described above may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

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.

100: mobile terminal 110: information acquisition unit
120: position energy measurement unit 130: acceleration measurement unit
140: damage factor management unit 150: event generating unit
200: information providing server 300: network

Claims (10)

As a method of predicting the possibility of damage of the mobile terminal by the damage prediction application installed in the mobile terminal,
Measuring an altitude of the mobile terminal using an altitude sensor mounted on the mobile terminal;
Measuring the position energy of the mobile terminal using the measured altitude and the mass of the mobile terminal, and calculating a change in the position energy of the mobile terminal based on the difference between the measured position energy and the previously measured position energy. ;
Increasing the failure coefficient of the mobile terminal if the calculated change in potential energy exceeds a first threshold value; And
And generating an event when the damage factor reaches a preset risk factor. The method of claim 1,
Checking the acceleration change amount of the mobile terminal by using the acceleration sensor of the mobile terminal when the calculated change in potential energy is less than or equal to a first threshold value; And
If the acceleration change amount exceeds the second threshold value, increasing the damage coefficient of the mobile terminal; terminal damage prediction method further comprising. The method of claim 2,
Increasing the failure coefficient,
And determining an increase value of the damage coefficient in proportion to the magnitude of the potential energy change or the magnitude of the acceleration change. The method of claim 1,
Prior to the step of measuring the altitude,
Obtaining subscription information of the mobile terminal; And
And setting an initial damage factor based on one or more of the number of change of the subscriber's name included in the subscription information and the opening maintenance period. The method of claim 4, wherein
The setting of the initial damage factor,
And after acquiring the specification information of the mobile terminal, confirming the manufacturing date of the mobile terminal in the spec information, and setting the initial damage coefficient based on the manufacturing date. The method of claim 1,
Generating the event,
And when the damage factor reaches a preset risk factor, outputting a terminal insurance advertisement as the event on the screen of the mobile terminal. One or more processors;
Memory; And
A communication device comprising one or more programs stored in the memory and configured to be executed by the one or more processors,
The program,
A position energy measuring unit measuring an amount of change in position energy generated by the communication device using the altitude of the communication device and the mass of the communication device;
A damage factor management unit for determining whether or not the measured change in potential energy exceeds a first threshold value and increases a failure coefficient of the communication device; And
And an event generator for generating an event when the damage factor reaches a preset risk factor. The method of claim 7, wherein
The program,
And an acceleration measuring unit measuring an acceleration change amount of the communication device by using an acceleration sensor embedded in the communication device.
The damage coefficient management unit,
And when the amount of change in the potential energy is equal to or less than the first threshold value, when the measured amount of acceleration change exceeds or exceeds the second threshold value, the failure coefficient is increased. The method of claim 7, wherein
The program,
And an information obtaining unit obtaining the subscription information of the communication device.
The damage coefficient management unit,
And the damage factor is initially set based on at least one of the number of change of the subscriber name and the opening maintenance period in the subscription information. The method of claim 7, wherein
The event generator,
And when the damage factor reaches a preset risk factor, outputting a terminal insurance advertisement as the event on the screen.

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