CN106776223B - Method and device for managing use duration of mobile equipment - Google Patents

Abstract

The invention is suitable for the field of mobile terminals, and provides a method and a device for managing the service life of mobile equipment. The method comprises the following steps: the method comprises the steps of obtaining a device state change value in the running process of the mobile device, obtaining a management reminding instruction corresponding to a preset condition when the device state change value meets the preset condition, and executing management operation on the mobile device according to the management reminding instruction. The method can realize the management and control of the time length of the mobile equipment used by the user.

Description

Method and device for managing use duration of mobile equipment

Technical Field

The embodiment of the invention belongs to the field of mobile terminals, and particularly relates to a method and a device for managing the service life of mobile equipment.

Background

With the increasing popularity of smart mobile devices, such as various smart phones, PADs, ebooks, MP3/MP4, and the like, various applications are continuously updated, such as news information, social applications, game applications, and the like, and the small screen tightly sticks countless people, so that the mobile devices such as the smart phones become "hands-free" articles. Due to the increase of the use time of the smart phone, the incidence rate of the myopia of the teenagers is increased, and the incidence rate of the myopia of the teenagers in China is counted by 20% -30% of pupils; 40% -50% of junior middle school students; 50% -60% of senior high school students; 75% of college students; university graduates reach around 76%.

The service life of the mobile device is mainly controlled by parents or self, and the self-control capability of teenagers for some mobile devices APP and large-scale handtours is greatly reduced. The user not only increases the loss of the mobile device and shortens the service life of the mobile device, but also has great harm to the body of the user when continuously using the mobile device for a long time.

Therefore, a new technical solution is needed to solve the above technical problems.

Disclosure of Invention

The embodiment of the invention provides a method and a device for managing the use duration of mobile equipment, and aims to solve the problems that the use duration of the mobile equipment is shortened and the damage to the body is large when a user uses the mobile equipment for a long time.

The embodiment of the invention is realized in such a way that a method for managing the service life of mobile equipment comprises the following steps:

acquiring a device state change value in the running process of the mobile device;

when the equipment state change value meets a preset condition, acquiring a management reminding instruction corresponding to the preset condition;

and executing management operation on the mobile equipment according to the management reminding instruction.

Another object of an embodiment of the present invention is to provide an apparatus for managing a duration of a mobile device, where the apparatus includes:

the device state change value acquisition unit is used for acquiring a device state change value in the running process of the mobile device;

the management reminding instruction obtaining unit is used for obtaining a management reminding instruction corresponding to a preset condition when the equipment state change value meets the preset condition;

and the operation execution unit is used for executing management operation on the mobile equipment according to the management reminding instruction.

In the embodiment of the invention, the equipment state change value in the running process of the mobile equipment is obtained, when the equipment state change value meets the preset condition, the management reminding instruction corresponding to the preset condition is obtained, and the management operation is executed on the mobile equipment according to the management reminding instruction, so that the control on the time length of the user using the mobile equipment is realized, the damage to the body caused by continuously using the mobile equipment for a long time is reduced, and the loss of the mobile equipment is reduced.

Drawings

Fig. 1 is a flowchart of a method for managing a duration of use of a mobile device according to a first embodiment of the present invention;

fig. 2 is a structural diagram of a management apparatus for a duration of use of a mobile device according to a second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

As used in this specification and the appended claims, the term "if" may be interpreted contextually as "when", "upon" or "in response to a determination" or "in response to a detection". Similarly, the phrase "if it is determined" or "if a [ described condition or event ] is detected" may be interpreted contextually to mean "upon determining" or "in response to determining" or "upon detecting [ described condition or event ]" or "in response to detecting [ described condition or event ]".

In the embodiment of the invention, the equipment state change value in the running process of the mobile equipment is obtained, when the equipment state change value meets the preset condition, the management reminding instruction corresponding to the preset condition is obtained, and the management operation is executed on the mobile equipment according to the management reminding instruction.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

The first embodiment is as follows:

fig. 1 shows a flowchart of a method for managing a mobile device lifetime according to a first embodiment of the present invention, which is detailed as follows:

and step S11, acquiring the device state change value in the operation process of the mobile device.

The device state change value refers to a state change value generated by the mobile device in an operation process, specifically, heat is generated by the mobile device in a use process, and therefore, the device state change value includes a heat change value of the mobile device. The heat variation value includes an internal heat variation value and a screen heat variation value. The internal heat change value refers to a total heat change value of a main board and a battery inside the mobile device, and the screen heat change value refers to a heat value generated by a screen when a user uses the mobile device to continuously operate an application program.

Optionally, when the user operates the application program in the mobile device, the number of times and the rate of touching the screen of the mobile device may change, and therefore, the device state change value may include a screen touch frequency.

And step S12, when the equipment state change value meets a preset condition, acquiring a management reminding instruction corresponding to the preset condition.

When the device state change value includes a heat change value during operation of the mobile device, the step S12 specifically includes:

and A1, acquiring the internal heat change value during the operation of the mobile device. For example, a heat variation value generated by the sum of the mobile device mainboard and the battery is obtained.

And A2, when the internal heat change value is larger than or equal to a preset internal heat threshold value, acquiring a screen heat change value in the operation process of the mobile device.

Specifically, in the running process of the mobile device, the heat generated by running the background application is relatively small and substantially constant, so that the internal heat change value is a heat change value generated by summing up the main board and the battery, the internal heat change value is generated by actively running the application by a user, for example, running a mobile device application such as a music/video player or a game, and after the mobile device application runs for a certain time, a difference value between a heat value summed up by a current main board and a current battery of the mobile device and a heat value summed up by the main board and the battery before the application starts running is the internal heat change value. In addition, because the heat generated by the current main board and the battery of the mobile device does not increase at a constant speed along with the increase of the operation time length, but increases at a variable speed along with the increase of the operation time length, in order to be able to timely detect the internal heat change value greater than or equal to the preset internal heat threshold value, when the heat generated by the current main board and the battery of the mobile device is less than the set heat value, every time the first preset interval time arrives, the heat value generated by the current main board and the battery of the mobile device is determined once; however, when the heat value generated by the current mainboard and the battery of the mobile device is greater than or equal to the set heat value, the heat value generated by the current mainboard and the battery of the mobile device is determined once every time a second preset interval time (wherein the second preset interval time is less than the first preset interval time) arrives. Of course, after the heat value generated by the current main board and the battery of the mobile device is greater than or equal to the set heat value, the preset interval time for detecting the heat value is gradually reduced, so that the accuracy of detecting the internal heat change value greater than or equal to the preset internal heat threshold value is improved.

The screen heat variation value is generated by a user touching the mobile device to operate an application program. And after the user touches the screen to operate the application program for a certain time, the difference value between the current heat value of the screen of the mobile equipment and the heat value before the user touches the screen to operate the application program is the screen heat change value.

On one hand, the larger the heat change value of the mobile equipment is, the longer the running time of the application program is, and the running time of the application program in the mobile equipment can be obtained according to the internal heat change value; on the other hand, when the user holds the mobile device for a long time to operate the application program, for example, when a game is operated, the screen heat changes due to continuous touch on the screen of the mobile device, and whether the user holds the mobile device to operate the application program can be determined according to the size of the screen heat change value. Because the mobile device has different types of components, the size of the internal heat change value and the change speed are different, the internal heat threshold value can be preset according to each component of the mobile device, for example, the internal heat threshold value is determined according to the types of the mainboard and the battery, and the screen heat threshold value is determined according to the type of the screen.

And A3, when the screen heat variation value is larger than or equal to a preset screen heat threshold value, acquiring a corresponding management reminding instruction. Specifically, when the screen heat variation value is greater than or equal to a preset screen heat threshold value, it is determined that the user is operating the application program by holding the mobile device, and at this time, a corresponding management reminding instruction is obtained.

Optionally, when the device state change value includes an internal heat change value and a screen touch frequency in the operation of the mobile device, the step S12 specifically includes:

and B1, acquiring the internal heat change value during the operation of the mobile device. For example, a heat variation value generated by the sum of the mobile device mainboard and the battery is obtained.

And B2, when the internal heat change value is larger than or equal to a preset internal heat threshold value, acquiring the screen touch frequency of the mobile device in the operation process.

Specifically, on one hand, in the running process of the mobile device, when the total generated heat change value of the main board and the battery is greater than or equal to the preset internal heat threshold value, the running time of the application program in the mobile device can be obtained according to the internal heat change value. On the other hand, when the user holds the mobile device for a long time to operate the application, for example, to operate a game, the number of times of continuously touching the screen for a certain time is increased, and thus, it can be determined whether the user holds the mobile device to operate the application according to the change of the screen touch frequency.

And B3, when the screen touch frequency is greater than or equal to the preset touch frequency, acquiring a corresponding management reminding instruction. Specifically, within a certain time, when the screen touch frequency is greater than or equal to the preset touch frequency, it is determined that the user is operating the application program by holding the mobile device, and at this time, the corresponding management reminding instruction is obtained.

Optionally, in order to obtain an accurate management reminding instruction, the step S12 further includes:

and C1, acquiring user fatigue information corresponding to the equipment state change value according to the mobile equipment state change value and a first corresponding relation table, wherein the first corresponding relation table stores the corresponding relation between the mobile equipment state change value and the user fatigue information. Wherein the user fatigue information comprises: eye fatigue information and hand fatigue information.

And C2, obtaining the mobile equipment loss degree information corresponding to the equipment state change value according to the mobile equipment state change value and a second corresponding relation table, wherein the second corresponding relation table stores the corresponding relation between the mobile equipment state change value and the mobile equipment loss degree information. The mobile device loss degree information includes: battery wear information and memory wear information.

And C3, acquiring a corresponding management reminding instruction according to the fatigue degree information and/or the wearability information.

In particular, a mobile device user continuously operates the mobile device for a long time, and the body may be fatigued. On one hand, when the user stares at the screen of the mobile device for a long time, both eyes can be tired, when the user generally operates the mobile device, the distance between the eyes and the screen is short, myopia or the myopia aggravation degree is easily caused, meanwhile, the user holds the mobile device to operate a game or brush a microblog, the hand of the user keeps a certain posture or action for a long time, both hands are easily fatigued, and in the past, excessive strain of both hands can cause pain, and inconvenience is caused. Therefore, the fatigue information includes influence information that may be generated on the eyes by the user using the mobile device for a long time and influence information that may be generated on the hands by the user using the mobile device for a long time. For example, class i fatigue information: one hour of continuous use may lead to visual fatigue and obstructed hand blood flow; level ii fatigue information: continued use for two hours may lead to dry eye and excessive hand muscle strain; grade iii fatigue information: three hours of continuous use may lead to myopia and tenosynovitis in the hand. On the other hand, when the mobile device continuously runs for a long time and generates too high heat, the mobile device is worn, for example, the capacity of a battery and the capacity of a memory are worn, the higher the continuous heat is, the larger the loss is, the loss degree information is divided into a plurality of levels, such as I-level loss degree information, ii-level loss degree information and iii-level loss degree information, according to the difference of the loss degree possibly generated by the generated heat value to the mobile device, so that according to the corresponding relationship between the mobile device state change value stored in the first corresponding relationship table and the user fatigue degree information, the state change value of the mobile device, such as the internal heat change value and the screen heat change value, or the user fatigue degree information corresponding to the internal heat change value and the screen touch frequency is obtained; and acquiring the loss degree information of the mobile equipment according to the corresponding relation between the state change value of the mobile equipment and the loss degree information of the mobile equipment, which is stored in the second corresponding relation table.

And acquiring a corresponding management reminding instruction according to the fatigue degree information and the loss degree information, so that the management reminding is more practical and humanized. For example, when the I-level fatigue degree information and/or the I-level wearability information are/is acquired, acquiring a reminding instruction; when the II-level fatigue degree information and/or the II-level wearability information are/is acquired, acquiring a reminding instruction and providing options for a user to select; and when the grade-III fatigue degree information and/or the grade-III wearability information are/is acquired, acquiring a prompt to directly terminate the instruction of running the current application program.

Optionally, before the step C1, to obtain accurate fatigue degree information, the method includes:

and C10, simulating a human body according to the actual state of the mobile equipment operated by the user, detecting various data of the simulated human body, and acquiring characteristic data. For example, the number of closures per unit time of the eye and the closure time are acquired, data identifying the flexibility of the hand joints is acquired, and the like.

And C11, acquiring fatigue degree information according to the characteristic data. The fatigue information of the user is deduced according to the feature data such as the number of closure times and the closure time of the eyes in unit time and the flexibility data for identifying the joints of the hands, for example, when the number of closure times and the closure time of the eyes in unit time meet a first preset condition, the fatigue information of the user is deduced to be I-level fatigue information, when the second preset condition is met (wherein the number of closure times of the eyes in unit time in the second preset condition is greater than the number of closure times of the eyes in unit time in the first preset condition, and/or the closure time of the eyes in unit time in the second preset condition is greater than the closure time of the eyes in unit time in the first preset condition), the fatigue information of the user is deduced to be II-level fatigue information, and the rest is repeated here.

And C12, establishing a corresponding relation between the fatigue degree information and the mobile equipment state change value, and establishing a first corresponding relation table.

And step S13, executing management operation on the mobile equipment according to the management reminding instruction.

In order to manage the duration of reminding the user of using the mobile device, the step S13 specifically includes:

d1, reminding the current device state of the mobile device. The reminding mode comprises ring reminding, vibration reminding and information reminding or the combination of the ring reminding, the vibration reminding and the information reminding. For example, the user may be alerted to use the mobile device for more than a predetermined amount of time by an alert tone. The reminding information can be sent, the reminding information comprises the duration of using the mobile device by the user, possible harm to the body and loss of the mobile device, and the reminding times can be preset by the user.

Optionally, the binding number of the current mobile device is acquired, and the reminding information is sent to the pre-bound number. The teenager user may continue to operate the mobile device for a long time after closing the reminder due to weak self-control force, so that the mobile device may send the reminder information to a pre-bound number of a parent, and inform the parent of the current use condition of the mobile device.

And/or the presence of a gas in the gas,

d2, terminating the application program currently running in the mobile device.

Optionally, a reminder option is provided for selection by the user. The reminding options include continuing the current operation, presetting time, ending the operation after ten minutes, immediately ending the current operation and the like. And after the user selects to continue the current operation, if the mobile device state change value meets a second preset condition, prompting that the running of the application program is to be forcibly terminated, for example, prompting that the running of the application program is to be forcibly terminated when the mobile device internal heat change value is greater than or equal to a second preset internal heat threshold value.

In the first embodiment of the present invention, a device state change value, such as an internal heat change value and a screen heat change value, or an internal heat change value and a screen touch frequency, in an operation process of a mobile device is obtained, when the device state change value meets a preset condition, a management reminding instruction corresponding to the preset condition is obtained, and according to the management reminding instruction, a current device state of the mobile device is reminded and/or a currently running application program in the mobile device is terminated, so that a duration of using the mobile device by a user is controlled, damage to a body due to continuous long-time use of the mobile device is reduced, and meanwhile, loss of the mobile device is reduced.

It should be understood that, in the embodiment of the present invention, the sequence numbers of the above-mentioned processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiment of the present invention.

Example two:

fig. 2 is a block diagram illustrating an apparatus for managing a duration of use of a mobile device according to a second embodiment of the present invention, where the mobile device may include a smart phone, a tablet computer, or a personal digital assistant PDA. For convenience of explanation, only portions related to the embodiments of the present invention are shown.

The device for managing the service time of the mobile equipment comprises: an equipment state change value obtaining unit 21, a management reminding instruction obtaining unit 22 and an operation executing unit 23, wherein:

the device state change value obtaining unit 21 is configured to obtain a device state change value in an operation process of the mobile device.

The device state change value refers to a state change value generated by the mobile device in an operation process, specifically, heat is generated by the mobile device in a use process, and therefore, the device state change value includes a heat change value of the mobile device. The heat variation value includes an internal heat variation value and a screen heat variation value. The internal heat change value refers to a total heat change value of a main board and a battery inside the mobile device, and the screen heat change value refers to a heat value generated by a screen when a user uses the mobile device to continuously operate an application program. Optionally, when the user operates the application program in the mobile device, the number of times and the rate of touching the screen of the mobile device may change, and therefore, the device state change value may include a screen touch frequency.

And a management reminding instruction obtaining unit 22, configured to obtain, when the device state change value meets a preset condition, a management reminding instruction corresponding to the preset condition.

When the device state change value includes a heat change value during operation of the mobile device, the management reminding instruction obtaining unit 22 specifically includes:

the first internal heat change value acquisition module is used for acquiring the internal heat change value of the mobile equipment in the operation process. For example, a heat variation value generated by the sum of the mobile device mainboard and the battery is obtained.

And the screen heat change value acquisition module is used for acquiring the screen heat change value in the operation process of the mobile equipment when the internal heat change value is greater than or equal to a preset internal heat threshold value.

Specifically, in the running process of the mobile device, the heat generated by running the background application is relatively small and substantially constant, so that the internal heat change value is a heat change value generated by summing up the main board and the battery, the internal heat change value is generated by actively running the application by a user, for example, running a mobile device application such as a music/video player or a game, and after the mobile device application runs for a certain time, a difference value between a heat value summed up by a current main board and a current battery of the mobile device and a heat value summed up by the main board and the battery before the application starts running is the internal heat change value. In addition, because the heat generated by the current main board and the battery of the mobile device does not increase at a constant speed along with the increase of the operation time length, but increases at a variable speed along with the increase of the operation time length, in order to be able to timely detect the internal heat change value greater than or equal to the preset internal heat threshold value, when the heat generated by the current main board and the battery of the mobile device is less than the set heat value, every time the first preset interval time arrives, the heat value generated by the current main board and the battery of the mobile device is determined once; however, when the heat value generated by the current mainboard and the battery of the mobile device is greater than or equal to the set heat value, the heat value generated by the current mainboard and the battery of the mobile device is determined once every time a second preset interval time (wherein the second preset interval time is less than the first preset interval time) arrives. Of course, after the heat value generated by the current main board and the battery of the mobile device is greater than or equal to the set heat value, the preset interval time for detecting the heat value is gradually reduced, so that the accuracy of detecting the internal heat change value greater than or equal to the preset internal heat threshold value is improved.

The screen heat variation value is generated by a user touching the mobile device to operate an application program. And after the user touches the screen to operate the application program for a certain time, the difference value between the current heat value of the screen of the mobile equipment and the heat value before the user touches the screen to operate the application program is the screen heat change value.

On one hand, the larger the heat change value of the mobile equipment is, the longer the running time of the application program is, and the running time of the application program in the mobile equipment can be obtained according to the internal heat change value; on the other hand, when the user holds the mobile device for a long time to operate the application program, for example, when a game is operated, the screen heat changes due to continuous touch on the screen of the mobile device, and whether the user holds the mobile device to operate the application program can be determined according to the size of the screen heat change value. Because the mobile device has different types of components, the size of the internal heat change value and the change speed are different, the internal heat threshold value can be preset according to each component of the mobile device, for example, the internal heat threshold value is determined according to the types of the mainboard and the battery, and the screen heat threshold value is determined according to the type of the screen.

And the first management reminding instruction acquisition module is used for acquiring a corresponding management reminding instruction when the screen heat variation value is greater than or equal to a preset screen heat threshold value.

Specifically, when the screen heat variation value is greater than or equal to a preset screen heat threshold value, it is determined that the user is operating the application program by holding the mobile device, and at this time, a corresponding management reminding instruction is obtained.

Optionally, when the device state change value includes an internal heat change value and a screen touch frequency in the operation of the mobile device, the management reminding instruction obtaining unit 22 specifically includes:

and the second internal heat change value acquisition module is used for acquiring the internal heat change value of the mobile equipment in the operation process. For example, a heat variation value generated by the sum of the mobile device mainboard and the battery is obtained.

And the screen touch frequency acquisition module is used for acquiring the screen touch frequency of the mobile equipment in the operation process when the internal heat variation value is greater than or equal to a preset internal heat threshold value.

Specifically, on one hand, in the running process of the mobile device, when the total generated heat change value of the main board and the battery is greater than or equal to the preset internal heat threshold value, the running time of the application program in the mobile device can be obtained according to the internal heat change value. On the other hand, when the user holds the mobile device for a long time to operate the application, for example, to operate a game, the number of times of continuously touching the screen for a certain time is increased, and thus, it can be determined whether the user holds the mobile device to operate the application according to the change of the screen touch frequency.

And the second management reminding instruction acquisition module is used for acquiring a corresponding management reminding instruction when the screen touch frequency is greater than or equal to the preset touch frequency. Specifically, within a certain time, when the screen touch frequency is greater than or equal to the preset touch frequency, it is determined that the user is operating the application program by holding the mobile device, and at this time, the corresponding management reminding instruction is obtained.

Optionally, in order to obtain an accurate management reminding instruction, the management reminding instruction obtaining unit 22 further includes:

and the user fatigue information acquisition module is used for acquiring user fatigue information corresponding to the equipment state change value according to the mobile equipment state change value and a first corresponding relation table, and the first corresponding relation table stores the corresponding relation between the mobile equipment state change value and the user fatigue information. Wherein the user fatigue information comprises: eye fatigue information and hand fatigue information.

And the mobile equipment loss degree information acquisition module is used for acquiring the mobile equipment loss degree information corresponding to the equipment state change value according to the mobile equipment state change value and a second corresponding relation table, and the second corresponding relation table stores the corresponding relation between the mobile equipment state change value and the mobile equipment loss degree information. The mobile device loss degree information includes: battery wear information and memory wear information.

And the third management reminding instruction acquisition module is used for acquiring a corresponding management reminding instruction according to the fatigue degree information and/or the wearability degree information.

In particular, a mobile device user continuously operates the mobile device for a long time, and the body may be fatigued. On one hand, when the user stares at the screen of the mobile device for a long time, both eyes can be tired, when the user generally operates the mobile device, the distance between the eyes and the screen is short, myopia or the myopia aggravation degree is easily caused, meanwhile, the user holds the mobile device to operate a game or brush a microblog, the hand of the user keeps a certain posture or action for a long time, both hands are easily fatigued, and in the past, excessive strain of both hands can cause pain, and inconvenience is caused. Therefore, the fatigue information includes influence information that may be generated on the eyes by the user using the mobile device for a long time and influence information that may be generated on the hands by the user using the mobile device for a long time. For example, class i fatigue information: one hour of continuous use may lead to visual fatigue and obstructed hand blood flow; level ii fatigue information: continued use for two hours may lead to dry eye and excessive hand muscle strain; grade iii fatigue information: three hours of continuous use may lead to myopia and tenosynovitis in the hand. On the other hand, when the mobile device continuously runs for a long time and generates too high heat, the mobile device is worn, for example, the capacity of a battery and the capacity of a memory are worn, the higher the continuous heat is, the larger the loss is, the loss degree information is divided into a plurality of levels, such as I-level loss degree information, ii-level loss degree information and iii-level loss degree information, according to the difference of the loss degree possibly generated by the generated heat value to the mobile device, so that according to the corresponding relationship between the mobile device state change value stored in the first corresponding relationship table and the user fatigue degree information, the state change value of the mobile device, such as the internal heat change value and the screen heat change value, or the user fatigue degree information corresponding to the internal heat change value and the screen touch frequency is obtained; and acquiring the loss degree information of the mobile equipment according to the corresponding relation between the state change value of the mobile equipment and the loss degree information of the mobile equipment, which is stored in the second corresponding relation table.

And acquiring a corresponding management reminding instruction according to the fatigue degree information and the loss degree information, so that the management reminding is more practical and humanized. For example, when the I-level fatigue degree information and/or the I-level wearability information are/is acquired, acquiring a reminding instruction; when the II-level fatigue degree information and/or the II-level wearability information are/is acquired, acquiring a reminding instruction and providing options for a user to select; and when the grade-III fatigue degree information and/or the grade-III wearability information are/is acquired, acquiring a prompt to directly terminate the instruction of running the current application program.

Optionally, in order to obtain accurate fatigue degree information, the management reminding instruction obtaining unit 22 further includes:

and the characteristic data acquisition module is used for simulating a human body according to the actual state of the mobile equipment operated by the user, detecting various data of the simulated human body and acquiring characteristic data. For example, the number of closures per unit time of the eye and the closure time are acquired, data identifying the flexibility of the hand joints is acquired, and the like.

And the second user fatigue degree information acquisition module is used for acquiring fatigue degree information according to the characteristic data. And deducing fatigue degree information of the user according to the eye signals, the hand motility and the like. The fatigue information of the user is deduced according to the closing times and closing time of the eyes in unit time, the data for identifying the flexibility of the hand joints and other characteristic data, for example, when the closing times and closing time of the eyes in unit time meet a first preset condition, the fatigue information of the user is deduced to be I-level fatigue information, when the second preset condition is met (wherein the closing times of the eyes in unit time in the second preset condition are greater than the closing times of the eyes in unit time in the first preset condition, and/or the closing time of the eyes in unit time in the second preset condition is greater than the closing time of the eyes in unit time in the first preset condition), the fatigue information of the user is deduced to be II-level fatigue information, and the rest is repeated.

And the first corresponding relation table establishing module is used for establishing a corresponding relation between the fatigue degree information and the state change value of the mobile equipment and establishing a first corresponding relation table.

And an operation execution unit 23, configured to execute a management operation on the mobile device according to the management reminding instruction.

In order to manage the duration of reminding the user of using the mobile device, the operation executing unit 23 specifically includes:

and the equipment state reminding module is used for reminding the current equipment state of the mobile equipment. The reminding mode comprises ring reminding, vibration reminding and information reminding or the combination of the ring reminding, the vibration reminding and the information reminding. For example, the user may be alerted to use the mobile device for more than a predetermined amount of time by an alert tone. The reminding information can be sent, the reminding information comprises the duration of using the mobile device by the user, possible harm to the body and loss of the mobile device, and the reminding times can be preset by the user.

Optionally, the binding number of the current mobile device is acquired, and the reminding information is sent to the pre-bound number. The teenager user may continue to operate the mobile device for a long time after closing the reminder due to weak self-control force, so that the mobile device may send the reminder information to a pre-bound number of a parent, and inform the parent of the current use condition of the mobile device.

And/or the presence of a gas in the gas,

and the application program termination module is used for terminating the application program currently running in the mobile equipment.

Optionally, a reminder option is provided for selection by the user. The reminding options include continuing the current operation, presetting time, ending the operation after ten minutes, immediately ending the current operation and the like. And after the user selects to continue the current operation, if the mobile device state change value meets a second preset condition, prompting that the running of the application program is to be forcibly terminated, for example, prompting that the running of the application program is to be forcibly terminated when the mobile device internal heat change value is greater than or equal to a second preset internal heat threshold value.

In the second embodiment of the present invention, a device state change value, such as an internal heat change value and a screen heat change value, or an internal heat change value and a screen touch frequency, in an operation process of a mobile device is obtained, when the device state change value meets a preset condition, a management reminding instruction corresponding to the preset condition is obtained, and according to the management reminding instruction, a current device state of the mobile device is reminded and/or a currently running application program in the mobile device is terminated, so that a duration of using the mobile device by a user is controlled, damage to a body due to continuous long-time use of the mobile device is reduced, and meanwhile, loss of the mobile device is reduced.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A method for managing usage duration of a mobile device, the method comprising:

acquiring a device state change value in the running process of the mobile device;

when the equipment state change value meets a preset condition, acquiring a management reminding instruction corresponding to the preset condition; specifically, according to the mobile device state change value and a first correspondence table, user fatigue information corresponding to the device state change value is obtained, the first correspondence table stores a correspondence between the mobile device state change value and the user fatigue information, the user fatigue information includes eye fatigue information and hand fatigue information, and the establishing of the first correspondence table includes: simulating a human body according to the actual state of the mobile equipment operated by the user, detecting the data of the simulated human body, and acquiring characteristic data; acquiring fatigue degree information according to the characteristic data; establishing a corresponding relation between the fatigue degree information and a mobile equipment state change value, and establishing a first corresponding relation table;

acquiring mobile equipment loss degree information corresponding to the equipment state change value according to the mobile equipment state change value and a second corresponding relation table, wherein the second corresponding relation table stores the corresponding relation between the mobile equipment state change value and the mobile equipment loss degree information, and the mobile equipment loss degree information comprises battery loss information and memory loss information; acquiring a corresponding management reminding instruction according to the user fatigue degree information and/or the mobile equipment loss degree information;

and executing management operation on the mobile equipment according to the management reminding instruction.

2. The method according to claim 1, wherein when the device state change value includes a heat change value during operation of the mobile device, and when the device state change value satisfies a preset condition, acquiring a management prompt instruction corresponding to the preset condition, specifically including:

acquiring an internal heat change value in the running process of the mobile equipment;

when the internal heat change value is larger than or equal to a preset internal heat threshold value, acquiring a screen heat change value in the operation process of the mobile equipment;

and when the screen heat change value is greater than or equal to a preset screen heat threshold value, acquiring a corresponding management reminding instruction.

3. The method according to claim 1, wherein when the device state change value includes a heat change value and a screen touch frequency in a mobile device operation process, and when the device state change value satisfies a preset condition, acquiring a management reminding instruction corresponding to the preset condition specifically includes:

acquiring an internal heat change value in the running process of the mobile equipment;

when the internal heat change value is larger than or equal to a preset internal heat threshold value, acquiring the screen touch frequency of the mobile equipment in the operation process;

and when the screen touch frequency is greater than or equal to the preset touch frequency, acquiring a corresponding management reminding instruction.

4. The method according to any one of claims 1 to 3, wherein the performing, according to the management reminder instruction, a management operation on the mobile device specifically includes:

alerting the mobile device of the current device status and/or terminating the application currently running in the mobile device.

5. An apparatus for managing usage duration of a mobile device, the apparatus comprising:

the device state change value acquisition unit is used for acquiring a device state change value in the running process of the mobile device;

the management reminding instruction obtaining unit is used for obtaining a management reminding instruction corresponding to a preset condition when the equipment state change value meets the preset condition; the management reminding instruction obtaining unit specifically comprises:

the user fatigue information acquisition module is used for acquiring user fatigue information corresponding to the equipment state change value according to the mobile equipment state change value and a first corresponding relation table, wherein the first corresponding relation table stores the corresponding relation between the mobile equipment state change value and the user fatigue information, and the user fatigue information comprises eye fatigue information and hand fatigue information;

the characteristic data acquisition module is used for simulating a human body according to the actual state of the mobile equipment operated by the user, detecting the data of the simulated human body and acquiring characteristic data;

the second user fatigue degree information acquisition module is used for acquiring fatigue degree information according to the characteristic data;

the first corresponding relation table establishing module is used for establishing a corresponding relation between the fatigue degree information and the state change value of the mobile equipment and establishing a first corresponding relation table;

a mobile device loss information obtaining module, configured to obtain mobile device loss information corresponding to the device state change value according to the mobile device state change value and a second correspondence table, where the second correspondence table stores a correspondence between the mobile device state change value and the mobile device loss information, and the mobile device loss information includes battery loss information and memory loss information;

the third management reminding instruction acquisition module is used for acquiring a corresponding management reminding instruction according to the user fatigue degree information and/or the mobile equipment loss degree information;

and the operation execution unit is used for executing management operation on the mobile equipment according to the management reminding instruction.

6. The apparatus according to claim 5, wherein when the device state change value includes a heat change value during operation of the mobile device, the management reminder instruction obtaining unit specifically includes:

the first internal heat change value acquisition module is used for acquiring an internal heat change value in the running process of the mobile equipment;

the screen heat change value acquisition module is used for acquiring a screen heat change value in the operation process of the mobile equipment when the internal heat change value is greater than or equal to a preset internal heat threshold value;

and the first management reminding instruction acquisition module is used for acquiring a corresponding management reminding instruction when the screen heat variation value is greater than or equal to a preset screen heat threshold value.

7. The apparatus according to claim 5, wherein when the device state change value includes a heat change value and a screen touch frequency in operation of the mobile device, the management reminder instruction obtaining unit specifically includes:

the second internal heat change value acquisition module is used for acquiring an internal heat change value in the running process of the mobile equipment;

the screen touch frequency acquisition module is used for acquiring the screen touch frequency in the running process of the mobile equipment when the internal heat change value is greater than or equal to a preset internal heat threshold value;

and the second management reminding instruction acquisition module is used for acquiring a corresponding management reminding instruction when the screen touch frequency is greater than or equal to the preset touch frequency.

8. The apparatus according to any one of claims 5 to 7, wherein the operation execution unit specifically includes:

and the operation management module is used for reminding the current equipment state of the mobile equipment and/or terminating the current running application program in the mobile equipment.

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