CN110943958B - State supervision method, device, server and storage medium - Google Patents

Abstract

The embodiment of the invention discloses a state supervision method, a state supervision device, a server and a storage medium, wherein the method comprises the following steps: if the intelligent terminal works in a supervision control mode, determining a supervision control rule configured for the supervision control mode, wherein the supervision control rule is determined according to a target option selected on a rule setting interface; according to the data requirement indication of the supervision control rule, selecting a target sensor from the sensors of the intelligent terminal, and acquiring reference sensing data acquired by the target sensor; analyzing the obtained reference sensing data according to the instruction of the supervision control rule, and determining the use state of the intelligent terminal; and monitoring and managing the intelligent terminal according to the determined use state and the control strategy indicated by the monitoring and controlling rule, so that the use of the intelligent terminal can be monitored and controlled, and the unhealthy posture can be improved.

Description

State supervision method, device, server and storage medium

Technical Field

The invention relates to the technical field of computers, in particular to a state supervision method, a state supervision device, a server and a storage medium.

Background

Along with the improvement of intelligent terminal prevalence, people's life is also more and more not leaving electronic product, and if long-term use electronic equipment can lead to using for a long time and cause visual fatigue, long-time use electronic product of bowing can lead to the cervical vertebra crooked, also can lead to cervical spondylopathy, these are all the harm that unhealthy use electronic product caused, can influence user's healthy to a certain extent, cause the injury for user's health.

Disclosure of Invention

The embodiment of the invention provides a state monitoring method, a state monitoring device, a server and a storage medium, which can monitor and control the use of an intelligent terminal and are beneficial to improving unhealthy postures.

In one aspect, an embodiment of the present invention provides a method for monitoring a status, where the method includes:

if the intelligent terminal works in a supervision control mode, determining a supervision control rule configured for the supervision control mode, wherein the supervision control rule is determined according to a target option selected on a rule setting interface;

according to the data requirement indication of the supervision control rule, selecting a target sensor from the sensors of the intelligent terminal, and acquiring reference sensing data acquired by the target sensor;

analyzing the obtained reference sensing data according to the instruction of the supervision control rule, and determining the use state of the intelligent terminal;

and monitoring and processing the intelligent terminal according to the determined use state and the control strategy indicated by the monitoring and control rule.

In another aspect, an embodiment of the present invention provides a status monitoring apparatus, where the apparatus includes:

the intelligent terminal comprises a determining unit, a judging unit and a judging unit, wherein the determining unit is used for determining a supervisory control rule configured for a supervisory control mode if the intelligent terminal works in the supervisory control mode, and the supervisory control rule is determined according to a target option selected on a rule setting interface;

the selection unit is used for selecting a target sensor from the sensors of the intelligent terminal according to the data requirement indication of the supervision control rule and acquiring reference sensing data acquired by the target sensor;

the determining unit is further configured to analyze the acquired reference sensing data according to the instruction of the supervision control rule, and determine a use state of the intelligent terminal;

and the processing unit is used for carrying out supervision processing on the intelligent terminal according to the determined use state and the control strategy indicated by the supervision control rule.

In another aspect, an embodiment of the present invention provides a server, including a processor and a storage device, where the processor and the storage device are connected to each other, where the storage device is used to store computer program instructions, and the processor is configured to execute the program instructions, and perform the following steps:

if the intelligent terminal works in a supervision control mode, determining a supervision control rule configured for the supervision control mode, wherein the supervision control rule is determined according to a target option selected on a rule setting interface;

according to the data requirement indication of the supervision control rule, selecting a target sensor from the sensors of the intelligent terminal, and acquiring reference sensing data acquired by the target sensor;

analyzing the obtained reference sensing data according to the instruction of the supervision control rule, and determining the use state of the intelligent terminal;

and monitoring and processing the intelligent terminal according to the determined use state and the control strategy indicated by the monitoring and control rule.

In yet another aspect, the present invention provides a computer-readable storage medium, which stores a computer program, where the computer program includes program instructions, and the program instructions, when executed by a processor, are used to implement the above-mentioned state monitoring method.

In the embodiment of the invention, when the intelligent terminal works in the supervision control mode, the supervision control mode can be automatically generated based on the target option selected and configured by the current user, on one hand, the sensor data of the terminal can be selected based on the supervision control mode, on the other hand, the intelligent terminal can be supervised and processed after the data are analyzed, the effective supervision of the intelligent terminal can be realized, the automatic and intelligent requirements of the user on the supervision and processing of the intelligent terminal are met, and the improvement on some unhealthy postures of the user when the intelligent terminal is used is facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a diagram illustrating a permission option list according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a condition monitoring system according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart diagram of outputting a warning alert provided by an embodiment of the present invention;

FIG. 4 is a schematic flow chart diagram of a method for monitoring status provided by an embodiment of the present invention;

FIG. 5a is a schematic diagram of a rule set interface provided by an embodiment of the invention;

FIG. 5b is a schematic diagram of a rule set interface according to another embodiment of the present invention;

fig. 6a is a schematic flow chart of a data transmission method provided by an embodiment of the present invention;

FIG. 6b is a schematic flow chart of a data transmission method according to another embodiment of the present invention;

FIG. 6c is a schematic flow chart of a data transmission method according to another embodiment of the present invention;

FIG. 7 is a schematic flow chart diagram of a status supervision method according to another embodiment of the present invention;

fig. 8a is a schematic interface diagram of an intelligent terminal provided in an embodiment of the present invention when the intelligent terminal is not operating in a supervisory control mode;

fig. 8b is a schematic interface diagram of an intelligent terminal operating in a supervisory control mode according to an embodiment of the present invention;

FIG. 9a is a schematic interface diagram of a non-invasive reminder according to an embodiment of the present invention;

FIG. 9b is a schematic interface diagram of a non-invasive reminder according to another embodiment of the present invention;

FIG. 10 is a block diagram schematically illustrating a status monitor apparatus according to an embodiment of the present invention;

fig. 11 is a block diagram schematically illustrating a structure of a server according to an embodiment of the present invention.

Detailed Description

The state supervision method provided by the embodiment of the invention is mainly used for judging and monitoring unhealthy postures of users when the users use intelligent terminals such as intelligent mobile phones, tablet computers, intelligent wearable equipment and the like, and prompts the users to adopt healthier postures in the process of using the intelligent terminals through supervision and processing of the intelligent terminals.

The state monitoring method is applied to the intelligent terminal with the working state in the monitoring control mode, and the intelligent terminal can be installed with a corresponding Application program APP (Application, APP) to enable the intelligent terminal to enter the monitoring control mode. When the supervisory control operating mode of the intelligent terminal is started, in order to accurately implement the supervisory function, the supervisory application corresponding to the supervisory control operating mode may request to acquire the related usage right of the intelligent terminal, for example, at least have the right to acquire the sensing data from each sensor provided on the intelligent terminal.

In one embodiment, in order to monitor the intelligent terminal more comprehensively, the permissions that can be further set include: auxiliary function authority, equipment use condition checking authority, floating window authority, system setting authority modification, storage read-write authority, self-starting authority and camera control authority. And after the part or all of the related authorities are opened, triggering the intelligent terminal to work in a supervision control mode. In an embodiment, a user may check related rights in a rights option table as shown in fig. 1, when the intelligent terminal detects a selection operation on the rights, the interface may be automatically switched to an authorization interface corresponding to the selected rights, so that the user can conveniently perform an authorization operation on the corresponding authorization interface, so that the supervising application obtains the corresponding related rights in the rights option table, and after the supervising application obtains the rights included in the rights option table, an authorized identifier may be displayed before the authorized rights, for example, a "√" is used as an authorized identifier, which indicates that the supervising application has obtained the corresponding rights. In one embodiment, the user may perform authorization determination item by item on the rights in the rights option table shown in fig. 1, or may automatically perform authorization processing on all or part of the rights by selecting an auxiliary function or other option button, without requiring the user to perform manual authorization on the intelligent terminal one by one.

The auxiliary function permission can be used for automatically opening all other permissions, and after the auxiliary function permission is opened, the intelligent terminal can automatically open all other required permissions for the supervision application, so that in one embodiment, when the opening operation of the auxiliary function permission included in the permission option list by a user is detected, the auxiliary function permission is triggered to be opened, and meanwhile, the intelligent terminal can correspondingly open other permissions such as a permission for checking the use condition of the equipment, a permission for suspending a window, a permission for modifying the system setting, a permission for reading and writing a memory, a permission for self-starting, a camera control permission and the like.

After detecting that the auxiliary function permission is opened, the intelligent terminal can switch the terminal interface to a permission opening interface corresponding to the permission for viewing the use condition of the device, for example, and automatically simulate the opening operation of a user to open the permission for viewing the use condition of the device in the permission opening interface (different permission opening interfaces are set in different mobile phone models during production). In one embodiment, after the using condition authority of the viewing device is opened, the interface jumps to an authority opening interface corresponding to the authority of the floating window, the opening operation of the user is automatically simulated to open the authority of the floating window in the authority opening interface, and by analogy, the authority opening interface corresponding to the setting authority of the modification system, the authority opening interface corresponding to the read-write memory, the authority opening interface corresponding to the self-starting authority and the authority opening interface corresponding to the control authority of the camera can be sequentially jumped to, and the opening operation of the user is simulated in each authority opening interface, so that the corresponding authority is opened in each authority opening interface until all or part of the authorities are opened.

In one embodiment, the user opening operation simulated in each permission opening interface is realized based on the model of the intelligent terminal, and since permission opening interfaces corresponding to different models are different, the positions for triggering permission opening in the permission opening interfaces are also different, so that the intelligent terminal can store triggering rules of opening permissions corresponding to the permission opening interfaces of different models in advance, and the triggering rules include triggering access to the permission opening interfaces, clicking positions, user operation simulation modes and the like. When the intelligent terminal is automatically switched (jumped) to each authority opening interface, the model information of the intelligent terminal can be obtained, and the corresponding trigger rule can be determined based on the model information, so that the intelligent terminal can enter the corresponding authority opening interface based on the trigger rule, generates simulated user opening operation after the click position is determined, and can open each authority by the simulated user opening operation.

After the intelligent terminal detects that the auxiliary function authority is opened, before the terminal interface is switched to the authority opening interface, a cover interface can be generated based on the current interface, the cover interface is used for shielding a series of interface switching based on a trigger rule and simulating user operation (such as the simulated user opening operation) performed on the terminal interface, and the cover interface can be an animation interface (for example, a read bar interface used for embodying the authority opening), an interface where a current authority option list is located, and the like. That is, after the user opens the auxiliary function right, the above-mentioned series of interface switching performed for opening other rights and the simulated user opening operation are all shielded by the cover interface without presenting the corresponding operation and interface to the user, and the user can only see the contents such as animation appearing in the cover interface.

The permission for checking the use condition of the equipment can allow the supervisory application to check the application program operated by the intelligent terminal in the supervisory control mode so as to judge whether the currently operated application program is an illegal application prohibited to operate in the supervisory control mode. The floating window authority can allow the monitoring application to cover a layer of floating window on an interface displayed by the intelligent terminal when the intelligent terminal works in a monitoring control mode so as to shield part of application programs, and a monitored user cannot process the application programs. The modification system setting authority may allow the supervising application to be automatically adjusted for screen brightness in a supervisory control mode. The read-write memory permissions allow writing of data related to the supervisory application. And the self-starting permission allows the monitoring application to automatically enable the intelligent terminal to work in a monitoring control mode once the monitoring application detects that the intelligent terminal normally works again after detecting that the intelligent terminal is forcibly restarted. The camera control authority allows the supervision application to call the camera so as to calculate the distance between the face and the intelligent terminal screen. It should be noted that, the above-mentioned respective rights are only examples, and in practical use, only a part of the rights or more rights may be included, and the name of the rights may adopt other rights identifiers for uniquely identifying the corresponding rights.

In an embodiment, the state monitoring method is mainly used for a monitored intelligent terminal, for example, an intelligent terminal where a monitored user (such as a child user) is located, and correspondingly, the monitored intelligent terminal is an intelligent terminal where a monitoring user such as a parent user is located, and the intelligent terminal is, for example, an intelligent terminal such as a mobile phone, a tablet computer, and a laptop computer, and the state monitoring method is applicable to a state monitoring system shown in fig. 2, where the state monitoring system includes a monitored terminal 11 where a monitored user such as a child user is located, and a monitoring terminal 12 where a monitoring user is located.

The monitoring terminal 12 and the supervised terminal 11 may respectively install the monitoring applications corresponding to the monitoring control modes mentioned above, and after the monitoring applications are installed, a binding relationship between the monitoring terminal 12 and the supervised terminal 11 may be established, and the monitoring terminal 12 may remotely start the supervised terminal 11, so that the monitoring applications are in a guarding mode, that is, the supervised terminal 11 operates in the monitoring control mode. In one embodiment, the supervising terminal 12 may trigger the supervised terminal 11 to enter the supervising control mode through remote control, and the above authority involved in the supervised terminal 11 in the supervising control mode may also be authorized remotely through the supervising terminal 12, or of course, may also be manually authorized on the supervised terminal 11 by the supervising user.

The supervising terminal 12 may obtain a series of supervising control rules based on the supervising application, which may be, for example: when the distance between the mobile phone and the monitored terminal is not more than 30 cm, the head is lowered by not more than 30 degrees, the mobile phone is continuously used for not more than 30 minutes, the fingers are continuously clicked for not more than 1 hour, and the like, the monitoring user can adjust the monitoring terminal 12 based on part or all of the thresholds corresponding to the monitoring rules to determine the monitoring control rules for the monitored user, and synchronize the monitoring control rules to the monitored terminal 11. Of course, the supervising user may also manually set the above-mentioned supervising control rule on the supervised terminal 11.

In an embodiment, when the supervised terminal 11 is in the supervision control mode at this time, the supervised terminal 11 installed with the supervision application cannot kill the application process corresponding to the supervision application, and cannot uninstall the installed supervision application, that is, the supervised terminal 11 cannot exit the supervision control mode by force, so that the supervised user will use the supervised terminal 11 under the monitoring of the supervision control rule, and receive supervision processing such as a reminder of the supervised terminal 11 when the supervision control rule is violated, and/or receive relevant supervision processing such as a supervision reminder sent by the supervised terminal 11, and through running-in for a period of time, the supervised user can develop a habit of using electronic products healthily. In one embodiment, when the parent releases the daemon mode, the supervised terminal 11 may also generate a usage report, and the supervising terminal 12 where the supervising user is located may view the usage of the supervised terminal 11 by the supervised user according to the usage report.

In another embodiment, when the supervised user does not have an independent supervised terminal 11, the supervising user may set its own smart terminal (e.g. mobile phone) to the guarding mode and set the corresponding supervision control rule for use by the supervised user, and when the supervised user returns the mobile phone to the parent (i.e. the supervising user), the parent may release the guarding mode and view the usage of the mobile phone by the supervised user through the generated usage report.

In one embodiment, the intelligent terminal may implement supervision on the intelligent terminal operating in the supervision control mode by using various sensors, including but not limited to: the intelligent terminal monitoring system comprises a camera, a light sensor, a touch screen sensor, a direction sensor, a timer and the like, wherein various sensors can collect sensing data from related sensors for analysis according to a monitoring control rule corresponding to the intelligent terminal working in a monitoring control mode, so that the using state of the intelligent terminal working in the monitoring control mode is determined, and the intelligent terminal is conveniently subjected to corresponding monitoring processing based on the using state.

In one embodiment, the sensing data collected by the camera is used for detecting the distance between the face or other parts of the supervised user and the intelligent terminal, so as to determine the distance between the supervised user and the intelligent terminal, for example, the distance between the supervised user and the intelligent terminal can be calculated by using a dual camera based on the principle of depth ranging; and a single camera can be called, and the distance between the supervised user and the intelligent terminal is obtained by calculating the face area or the pupil distance of the supervised user in the single camera. In another embodiment, the distance between the supervised user and the intelligent terminal may also be determined by invoking a distance sensor. If the calculated distance between the supervised user and the intelligent terminal is too close, a forced reminding mode (namely the supervision processing on the intelligent terminal) such as vibration reminding or screen locking reminding can be output to keep the distance between the supervised user and the screen within a reasonable use range.

The sensing data collected by the light sensor can be used for determining the intensity of external light, so that dynamic adjustment of screen brightness (namely supervision processing on the intelligent terminal) can be realized according to the intensity of the external light, and the light sensor is also used for automatically filtering light such as blue light, and the eyesight of a supervised user can be protected. The touch screen sensor is used for detecting operation instructions of a user on the intelligent terminal, such as click instructions, sliding instructions and the like, and can be combined with a timer to calculate the click frequency of the user on the intelligent terminal screen. The sensing data that direction sensor gathered can be used to perception intelligent terminal's inclination, inclination refers to the contained angle between intelligent terminal and the horizontal plane, and when the user used intelligent terminal to hang down, this inclination can diminish, and then guess whether the use posture of being supervised the user is healthy through the change of inclination, and wherein, this direction sensor can be sensors such as gyroscope. The sensing data collected by the timer is used for determining the time for the user to continuously use the intelligent terminal, and when the time is too long, the user can be forced to not use the intelligent terminal, for example, the intelligent terminal can be forced to be locked for a certain time (namely, the intelligent terminal is subjected to supervision processing).

The sensed data detected by one or more sensors of the various types of sensors may have a situation of non-compliance with the safety use rule of the preset supervision control rule, and the situation of non-compliance with the preset supervision control rule may be, for example: when the distance is too close, the light is too strong, the angle is too large, the frequency is too high, and/or the time is too long, etc., the supervision process is triggered, for example, as shown in fig. 3, the supervision process may be performed on the intelligent terminal by using different control strategies, including a non-mandatory warning strategy and a mandatory warning strategy. Based on the degree of influence of the condition not conforming to the supervision control rule on the health of the supervised user, different control strategies can be adopted to supervise and process the supervised user respectively. When the influence degree of the condition that the monitored terminal does not conform to the monitoring control rule is smaller, a non-mandatory warning (such as a first control strategy) can be adopted to monitor the monitored terminal, and the non-mandatory warning can be, for example, a pop-up prompt window or the like to inform the monitored terminal that the use state of the monitored terminal should be adjusted; when the monitored user is influenced to a greater extent by the condition that the monitored control rule is not met, or when the non-mandatory warning for the monitored user is invalid, the user can be supervised by adopting a mandatory warning (such as a second control policy), for example, a black screen or the like, which is used for immediately interrupting a program currently run by the monitored terminal so that the monitored user can not use the monitored terminal (such as a mobile phone).

In an embodiment, please refer to a schematic flowchart of a state monitoring method shown in fig. 4, which may be executed by a smart terminal such as a smart phone, a tablet computer, a smart wearable device, etc., which may be, for example, the monitored terminal mentioned above, the smart terminal first determines, in S401, a monitoring control rule configured for the monitoring control mode if the smart terminal is operating in the monitoring control mode, where the monitoring control rule is determined according to target options selected by a user (such as the monitoring user) on a rule setting interface shown in fig. 5a, and the monitoring user may select one or more options as target options on the rule setting interface, where the rule setting interface includes any one option corresponding to a set of monitoring control sub-rules, and the monitoring control rule configured for the monitoring control mode corresponds to all target options selected by the monitoring user When the target option selected by the supervising user is, for example: when the mobile phone is watched with head down for warning, the mobile phone is forcibly stopped for warning for half an hour and blue light is filtered, the supervision control rule in the supervision control mode can be obtained according to the control sub-rule of the mobile phone which is watched with head down, the control sub-rule of the mobile phone which is continuously used for more than half an hour and the control sub-rule of the blue light existing in the environment light.

In one embodiment, after the supervising user binds the corresponding supervising terminal with the supervised terminal corresponding to the supervised user, the supervising user may select one or more options as target options in the corresponding supervising terminal, so that the supervising terminal may determine the supervising control rule configured for the intelligent terminal (i.e., the supervised terminal) operating in the supervising control mode according to the selected target options, and further, may synchronize the supervising control rule to the intelligent terminal. Or, the supervising user may also directly select one or more options as target options in the rule setting interface of the intelligent terminal, and the intelligent terminal may determine the supervising control rule working in the supervising control mode according to the selected target options.

In one embodiment, a binding relationship between the monitoring terminal corresponding to the monitoring user and the intelligent terminal corresponding to the monitored user can be established through monitoring application, a data transmission mode in which the monitoring terminal synchronizes the monitoring control rule set by the monitoring terminal to the intelligent terminal can be as shown in fig. 6a, after the monitoring terminal sets the monitoring control rule, the monitoring user uploads the monitoring control rule to a background server corresponding to the monitoring application, and the background server issues the monitoring control rule to the intelligent terminal, so that synchronization of the monitoring control rule is realized; as shown in fig. 6b, when data transmission between the monitoring terminal and the background server where the monitoring application is located is blocked (in fig. 6b, the blocked communication connection is indicated by a dotted line), the background server may issue the monitoring control rule received from the monitoring terminal last time to the intelligent terminal; alternatively, as shown in fig. 6c, when the data transmission between the backend server and the supervised terminal is blocked (in fig. 6c, the blocked communication connection is indicated by a dotted line), the backend server cannot issue the supervision control rule to the intelligent terminal, and the intelligent terminal executes the supervision control rule received from the backend server last time until a new supervision control rule is received from the backend server. In other embodiments, the supervising terminal may also directly communicate with the supervised terminal to complete the processes of starting the supervising control mode, synchronizing the supervising control rules, and the like on the supervised terminal.

In another embodiment, as shown in fig. 5b, the supervising user (such as the parent user mentioned above) may select, in the rule setting interface shown in fig. 5b, the limited mobile phone playing time of the supervised user (such as the child user mentioned above) and turn on the posture correction option, select the APP that is allowed to be used by the supervised user, and set a management password and the like for turning on or exiting the supervisory control mode (i.e. the daemon mode) as the target option selected by the supervising user, so as to determine the supervisory control rule configured for the supervised terminal (such as the terminal corresponding to the child user mentioned above), where a specific process of determining the supervisory control rule configured for the supervised terminal according to the target option selected by the supervising user may be referred to the above description, and is not described herein again. After the rule is set in the rule setting interface correspondingly, the supervised terminal can enter a daemon mode (i.e. a supervision control mode of the supervised terminal is started) by clicking a daemon mode starting button of the setting interface and inputting authentication information.

After the intelligent terminal determines the supervisory control rule configured for the supervisory control mode, in S402, according to the data requirement indication of the supervisory control rule, a target sensor is selected from the sensors of the intelligent terminal, and reference sensing data acquired by the target sensor is acquired, and according to the data requirement of the supervisory control rule, one or more target sensors can be determined from the sensors included in the intelligent terminal, and the required reference sensing data is acquired from the target sensor.

In one embodiment, the target options selected by the supervising user at the rule setting interface as shown in FIG. 5a may be, for example: if the mobile phone is looked down, the mobile phone is continuously used for more than half an hour, and the environment light has blue light, then the supervision control rule for supervising the intelligent terminal (namely the supervised terminal) corresponding to the supervision user can be determined according to the supervision control sub-rule corresponding to the mobile phone is looked down, the supervision control sub-rule corresponding to the mobile phone is continuously used for more than half an hour, and the supervision control sub-rule corresponding to the environment light has blue light, wherein the supervision control rule can be formed by one sub-rule or a rule set formed by a plurality of sub-rules.

Further, the data requirements of the regulatory control rules include: the method comprises the following steps that reference sensing data such as an inclination angle of the intelligent terminal when the intelligent terminal is used, reference sensing data such as time when the intelligent terminal is continuously used and reference sensing data such as blue light exist in environment light, and therefore it can be determined that a target sensor corresponding to the reference sensing data is used for acquiring: direction sensor, time-recorder and optical line sensors, and then can follow direction sensor and acquire intelligent terminal's inclination, determine the low head angle when seeing intelligent terminal, acquire continuous use intelligent terminal's time from the time-recorder to thereby obtain the ambient light from optical line sensors and judge whether there is the blue light.

After acquiring the reference sensing data from the target sensor, in S403, the intelligent terminal analyzes the acquired reference sensing data according to the instruction of the supervision and control rule, and determines the use state of the intelligent terminal. In one embodiment, the usage status may be simply defined as a healthy status and an unhealthy status, and may be used to indicate whether the smart terminal is being used according to a normal usage status, and the usage statuses may be determined by scoring or directly expressed by numerical values, for example, 0 represents an unhealthy status and 1 represents a healthy status. In one embodiment, if the reference test data is: the inclination angle when using the cell-phone is 5 degrees, and the time of using the cell-phone in succession is 50 minutes, and ambient light is for there being blue light, then the service condition that this intelligent terminal who analyzes and confirms this reference test data is: and (3) using the mobile phone for more than 30 minutes in the environment light with blue light, and determining that the user is in an unhealthy state at the moment.

After determining the use state of the intelligent terminal, in S404, the intelligent terminal performs monitoring processing on the intelligent terminal according to the determined use state and the control policy indicated by the monitoring control rule. The supervision processing mode or the control strategy corresponding to the supervision processing may include: any one or more of screen locking, screen blacking, prompt message sending and shielding window displaying.

For example, the regulatory control rules include: and if the monitored user is detected to look down at the mobile phone, the mobile phone is placed in a black screen state. Based on the supervision control rule, reference sensing data acquired by a direction sensor on a mobile phone (namely an intelligent terminal) can be acquired, and based on analysis of the reference sensing data, if the inclination angle of the mobile phone determined according to the reference sensing data is an angle lower than a threshold value, the supervised user can be considered to be in an unhealthy state (the state of looking at the mobile phone with head down), the mobile phone is placed in a black screen state according to the indication of the supervision control rule, so that the supervised user cannot see the content displayed by the mobile phone and cannot use the mobile phone. The smaller the inclination angle of the mobile phone is, the more the mobile phone is close to the horizontal placement state, and in the horizontal state of the mobile phone, the user is most likely to look at the mobile phone while looking down, but in the unhealthy state, wherein the supervision control rule is determined according to the supervision control sub-rule corresponding to the mobile phone looking down.

The supervisory control rules further include: and if the monitored user is detected to continuously use the mobile phone for more than half an hour, outputting prompt information. Based on the supervision control rule, reference sensing data collected by a timer in the mobile phone is obtained, and based on the analysis of the reference sensing data, if it is determined that the supervised user continuously uses the mobile phone for more than a preset time (for example, half an hour) according to the reference sensing data, the supervised user can be considered to be in an unhealthy state, and prompt information is output in the mobile phone according to the indication of the supervision control rule, so that the supervised user can stop using the mobile phone according to the prompt of the prompt information. The supervision control rule is determined according to a supervision control sub-rule corresponding to the fact that the mobile phone is continuously used for more than half an hour.

The supervisory control rules further include: and if the distance of the supervised user when using the mobile phone is detected to be too small, locking the screen of the mobile phone. Based on the supervision control rule, reference sensing data acquired by a distance sensor on the mobile phone is acquired, and based on analysis of the reference sensing data, if the distance between the user using the mobile phone and the mobile phone is determined to be less than a threshold value according to the reference sensing data, the supervised user can be considered to be in an unhealthy state, and the mobile phone is placed in a locking state according to the instruction of the supervision control rule, so that the supervised user can not use the mobile phone. In another embodiment, the distance between the user and the mobile phone may also be obtained by calling a camera, and the smaller the distance between the user and the mobile phone, the closer the mobile phone is to the user, the more likely the user is in an unhealthy state, wherein the above-mentioned supervision control rule is determined according to a supervision control sub-rule corresponding to the mobile phone being viewed in a close range.

If the supervision control rule includes a plurality of sub-rules at the same time, for example, includes the above three sub-rules or includes a combination of other sub-rules, when the supervision processing is performed according to the supervision control rule, data of different sensors may be acquired respectively, and analysis and different supervision processing are performed based on different sub-rules, and each sub-rule may include a different control policy to complete the supervision processing. When the supervision control rule includes a plurality of sub-rules, and different supervision processes are required, since the supervision processes may generate conflicts, for example, the control strategy corresponding to one sub-rule needs to control the intelligent terminal to blank the screen, the control strategy of the other sub-rule needs to control the intelligent terminal to display the shielding window, at this time, the intelligent terminal cannot simultaneously complete the corresponding supervision and treatment, in the embodiment of the present application, the priority of a specific supervision processing mode or control strategy can be set, when the supervision processing is performed according to the control strategies corresponding to different sub-rules, the executed control strategies are determined according to the priorities, and the supervision processing on the intelligent terminal is completed, for example, the priority of the black screen is higher than the priority of the display shielding window, therefore, when the process of the black screen process and the process of displaying the mask window need to be performed, only the black screen process is performed.

In one embodiment, the intelligent terminal can be supervised according to the influence degree of the use state (including a healthy state and an unhealthy state) on the health of the supervised user, according to different control strategies, the control strategy may be a first control strategy (non-mandatory warning strategy) and a second control strategy (mandatory warning strategy) as described above, and after the intelligent terminal is supervised for a period of time according to the control strategy corresponding to the use state, the update state of the user (namely the supervised user, such as the child user) can be determined again, when the update state of the user is different from the previous use state, the control strategy is switched, namely, the control strategy corresponding to the use state is switched to the control strategy corresponding to the update state, so that the users in different states are correspondingly supervised and processed by various control strategies.

In the embodiment of the invention, when the intelligent terminal works in the supervision control mode, the supervision control mode can be automatically generated based on the target option selected and configured by the current user, on one hand, the sensor data of the terminal can be selected based on the supervision control mode, on the other hand, the intelligent terminal can be supervised and processed after the data are analyzed, the effective supervision of the intelligent terminal can be realized, the automatic and intelligent requirements of the user on the supervision and processing of the intelligent terminal are met, and the improvement on some unhealthy postures of the user when the intelligent terminal is used is facilitated.

Please refer to fig. 7, which is a schematic flowchart of a state monitoring method according to another embodiment of the present invention, where the state monitoring method may also be executed by an intelligent terminal such as a smart phone, a tablet computer, and an intelligent wearable device, and the intelligent terminal may also be the monitored terminal mentioned above, in S701, the intelligent terminal first detects whether the authority included in the authority option table has an unauthorized authority when detecting that the intelligent terminal receives a trigger instruction for the monitoring control mode, and if so, executes step S702, jumps to an authority setting interface corresponding to the unauthorized authority, and reminds the user to open the unauthorized authority; if not, executing step S703, and triggering the intelligent terminal to work in the supervision control mode.

In one embodiment, the rights option table may be as shown in fig. 1, and the rights in the rights option table include, but are not limited to: any one or more of auxiliary function authority, equipment use condition checking authority, floating window authority, system setting authority, read-write memory authority, self-starting authority and camera control authority. The specific functions of the permissions included in the permission option table can be referred to the above description, and are not described herein again. When all the authorities in the authority option list need to be in an authorized (or opened) state or part of the authorities in the authorized state, the intelligent terminal can work in a supervision control mode, and if the authorities which are not granted exist, prompt information can be output and the intelligent terminal automatically jumps to an authority setting interface corresponding to the authorities which are not granted so as to remind the user of opening the unauthorized authorities.

When the necessary authorities in the authority option list are detected to be in an open (namely authorized) state, the intelligent terminal can respond to a trigger instruction to enable the intelligent terminal to work in a supervision control mode, if the intelligent terminal in the supervision control mode opens the authority of the floating window, the intelligent terminal generates a floating window, the floating window is used for covering a user interface displayed on a terminal screen, so that illegal applications installed in the terminal but forbidden to run can be shielded, application icons corresponding to the illegal applications are not displayed on the user interface after being covered by the floating window, or the floating window can shield user operations on the illegal applications, therefore, when the intelligent terminal working in the supervision control mode is used by a supervised user, the forbidden illegal applications cannot be started. In one embodiment, if the user interface of the intelligent terminal when not in the supervisory control mode is as shown in fig. 8a, the user interface of the intelligent terminal covered with the floating window in the supervisory control mode can be as shown in fig. 8b, the icons (such as the shop application icon, the setting icon, and the voice icon) of the illegal applications that are visible to be shielded by the floating window will no longer be presented on the user interface, and the icon of the return normal mode (i.e., exiting the supervisory control mode) as shown in fig. 8b can be output in the user interface in the supervisory control mode, and the supervisory control mode can be exited after clicking the return normal mode icon and inputting the correct authentication information. The illegal application may be, for example, an application icon corresponding to the online game, or the like.

When the intelligent terminal works in a supervision control mode, the intelligent terminal determines a supervision control rule configured for the supervision control mode in S704, wherein the supervision control rule is determined according to a target option selected on a rule setting interface; in step S705, the intelligent terminal selects a target sensor from the sensors of the intelligent terminal according to the data requirement indication of the supervisory control rule, and acquires reference sensing data acquired by the target sensor; further in S706, according to the instruction of the supervision and control rule, analyzing the obtained reference sensing data, and determining the use state of the intelligent terminal; therefore, in S707, the intelligent terminal is supervised according to the determined use state and the control policy indicated by the supervision control rule.

In an embodiment, the detailed implementation of steps S704 to S706 can refer to the description of steps S401 to S403 in fig. 4, and is not described herein again. In step S707, when monitoring the intelligent terminal, if it is determined that the usage state does not affect the health of the user greatly according to the usage state of the intelligent terminal, the intelligent terminal may first adopt a first control policy to monitor the intelligent terminal, where the first control policy may be, for example, a non-forced (i.e., non-invasive) processing manner, and when monitoring the intelligent terminal in the non-invasive processing manner, a reminding window (i.e., a first control policy) may be generated, and a reminding message may be output in the reminding window to remind the user of a positive posture, where the reminding message may be a text message, an animation message, a text-to-animation form as shown in fig. 9a, or a dynamic message similar to a small rocket form as shown in fig. 9 b.

After monitoring and processing an intelligent terminal for a period of time in a non-invasive processing mode, acquiring updated sensing data from a target sensor in sensors of the intelligent terminal, wherein the updated sensing data is measured after the use state of the intelligent terminal is changed, further, analyzing the acquired updated sensing data according to the indication of a monitoring and controlling rule, determining the update state of the intelligent terminal, further judging whether the update state meets a controlling condition corresponding to a second control strategy, and if so, monitoring and processing the intelligent terminal according to the second control strategy, wherein the monitoring and processing modes corresponding to the first control strategy and the second control strategy are different. If the control condition of the second control strategy is not met, the monitored user is in a healthy state at present, and the above-mentioned invasive or non-invasive monitoring processing on the intelligent terminal is not needed.

In one embodiment, the updating state satisfying the control condition corresponding to the second control strategy includes: the updated state is an unhealthy state with a large influence on the health of the user, for example, a screen of the intelligent terminal is clicked frequently for a long time.

In another embodiment, when the influence degree of the use state on the health of the user is large, a forced (i.e., invasive) first control policy may be first adopted to supervise the intelligent terminal, and when a forced supervision processing mode is adopted, a shielding window may be generated and displayed on a user interface displayed on a terminal screen in a covering manner, so as to shield an operation instruction sent out on the terminal screen. In other embodiments, the forced supervision processing mode may also be, for example, a screen blank, a screen lock, and/or directly ending a currently running application program. When the intelligent terminal is supervised and processed in the forced supervision and processing mode for a period of time, the updated sensing data can be obtained again after the use state of the intelligent terminal is changed, the updated sensing data is analyzed to obtain the updated state of the intelligent terminal, and if the influence degree of the updated state on the health of the user is small, the invasive first control strategy is switched to the non-invasive second control strategy, or the supervision and processing is cancelled, so that the intelligent terminal can continuously and normally work under the supervision and control strategy.

In one embodiment, when the intelligent terminal works in a supervision control mode, whether the intelligent terminal is in a configuration stopping interface for controlling to stop the supervision control mode or not is judged, and if yes, the configuration stopping interface is forcibly exited. When the stop configuration interface is a configuration interface used for ending the process corresponding to the supervisory control mode, directly quitting the configuration interface; when the stop configuration interface is an uninstalling interface for uninstalling the supervision application corresponding to the supervision control mode, the uninstalling interface can be directly exited.

In one embodiment, before the intelligent terminal works in the supervision control mode, the intelligent terminal receives authentication information set for the supervision control mode, wherein the authentication information comprises at least one of password information and biological information, and the biological information can be fingerprint information, face information and the like. The intelligent terminal entering the supervisory control mode stores the authentication information, and when the intelligent terminal detects an exit operation for the supervisory control mode, the authentication information pre-stored by the terminal can be acquired, in one embodiment, the exit operation exiting the supervisory control mode can be triggered by a user clicking an icon returning to a normal mode in a user interface shown in fig. 8b, or triggered by a preset exit time, and when the exit time meets the preset exit time, the exit operation exiting the supervisory control mode is automatically triggered. Further, upon triggering an exit from the supervisory control mode, verification information for exiting the supervisory control mode may be received; further, the verification information may be verified based on the authentication information, and the process of verifying the verification information based on the authentication information is a process of matching the verification information with the authentication information and determining whether the verification information and the authentication information are consistent, and when the verification is passed (i.e., the verification information and the authentication information are consistent), the supervisory control mode may be legally exited. Alternatively, when the verification fails (i.e., the verification information and the authentication information are not consistent), the supervisory control mode cannot be stopped.

In one embodiment, when the intelligent terminal operates in the supervisory control mode, whether the supervisory control mode is illegally exited or not is continuously monitored, the illegal exit refers to forcibly exiting the supervisory control mode under the condition that the verification information and the authentication information are inconsistent, the illegal exit can be, for example, forced shutdown, restart and other processing, and when the supervisory control mode of the intelligent terminal is detected to be illegally exited and the intelligent terminal is in a normal working state again, the supervisory control mode can be automatically started, so that the intelligent terminal continues to work in the supervisory control mode.

In another embodiment, when the intelligent terminal operates in the supervision control mode and a supervised user runs an application program in the intelligent terminal, whether an application icon corresponding to an application started by the supervised user is recorded in a blacklist is determined. The blacklist records one or more application identifications corresponding to the applications that are prohibited from being started when the intelligent terminal operates in the supervision control mode, and the application identification can be, for example, the name of the application or other identifications used for uniquely marking the application. When the application identifier corresponding to the application triggered and started by the supervised user is recorded in the blacklist, the triggered and started application is closed, so that the supervised user can be ensured to use the intelligent terminal under the constraint of the supervision control rule, and the user is ensured to keep a healthy use state of the intelligent terminal.

After the intelligent terminal is subjected to a period of supervision processing, a supervising user can legally exit from the supervision control mode of the intelligent terminal as required, and in step S708, if the intelligent terminal legally exits from the supervision control mode, a use report is generated, wherein the use report records use data of the intelligent terminal in the process of working in the supervision control mode. The usage data includes time data and place data of the supervised user using the intelligent terminal, and other related data used for describing the use of the intelligent terminal by the user, such as the number of newly downloaded applications, the access times and the access time of each application, and the like. In one embodiment, the supervising user may view the usage report on the intelligent terminal, may obtain the usage report from the intelligent terminal through the supervising terminal, or the supervising terminal may trigger the intelligent terminal to generate and return the usage report.

In the embodiment of the invention, when the intelligent terminal is detected to have no unauthorized authority option, the intelligent terminal is triggered to work in a supervision control mode, supervisory control modes may thus be automatically generated based on the target options of the current user-selected configuration, after the intelligent terminal is subjected to a period of supervision processing by adopting the control strategy indicated by the supervision control rule corresponding to the target option, the sensing data detected by the sensor in the intelligent terminal can be acquired again to determine the update state of the intelligent terminal, thereby switching the control strategy for monitoring and processing the intelligent terminal by combining the update state and the use state as well as the monitoring and control rule, the intelligent terminal monitoring system meets the requirement of intelligent switching of the user on intelligent terminal monitoring while realizing effective monitoring of the intelligent terminal, and better meets the use requirement of the user. After the intelligent terminal is subjected to supervision processing for a period of time, the intelligent terminal can exit from the supervision control mode and generate a use report, the use report records the use data of the intelligent terminal working in the supervision control mode, so that supervision control rules during next-stage state supervision can be formulated for the supervised user according to the use report data, and the supervised user can develop good use habits of the intelligent terminal.

Based on the description of the above method embodiments, in an embodiment, an embodiment of the present invention further provides a block diagram schematically illustrating a structure of a status monitoring apparatus shown in fig. 10. As shown in fig. 10, the status monitoring apparatus in the embodiment of the present invention includes: the state monitoring device comprises a determining unit 101, a selecting unit 102 and a processing unit 103, and in the embodiment of the present invention, the state monitoring device may be disposed in some servers or some dedicated monitoring devices that need to perform state monitoring.

In one embodiment, the determining unit 101 is configured to determine, if the intelligent terminal operates in a supervisory control mode, a supervisory control rule configured for the supervisory control mode, where the supervisory control rule is determined according to a target option selected on a rule setting interface; the selecting unit 102 is configured to select a target sensor from the sensors of the intelligent terminal according to the data requirement indication of the supervisory control rule, and acquire reference sensing data acquired by the target sensor; the determining unit 101 is further configured to analyze the obtained reference sensing data according to the instruction of the supervision control rule, and determine a use state of the intelligent terminal; and the processing unit 103 is configured to perform supervision processing on the intelligent terminal according to the determined use state and the control policy indicated by the supervision control rule.

In one embodiment, the status supervision apparatus further comprises: the intelligent terminal comprises a detection unit 104, a skip unit 105, a trigger unit 106, and the detection unit 104 is configured to detect whether an unauthorized right exists in a right included in a right option table when it is detected that the intelligent terminal receives a trigger instruction for the supervisory control mode; a skipping unit 105, configured to skip to an authority setting interface corresponding to the unauthorized authority if the detecting unit 104 detects that the authority included in the authority option table has the unauthorized authority; a triggering unit 106, configured to trigger the intelligent terminal to operate in the supervision control mode if the detecting unit 104 detects that the right included in the right option table does not have an unauthorized right.

In one embodiment, the processing unit 103 is configured to, when performing supervision processing on the intelligent terminal, adopt a first control policy to perform supervision processing on the intelligent terminal, and acquire updated sensing data from the target sensor; analyzing the obtained updated sensing data according to the instruction of the supervision control rule, and determining the updating state of the intelligent terminal; judging whether the updating state meets a control condition corresponding to a second control strategy, if so, monitoring and managing the intelligent terminal according to the second control strategy; and the first control strategy and the second control strategy have different corresponding supervision treatment.

In an embodiment, the processing unit 103 is configured to generate a shielding window when performing supervision processing on the intelligent terminal, and display the shielding window on a user interface displayed on a terminal screen in an overlaid manner; the shielding window is used for shielding the operation instruction sent out on the terminal screen.

In one embodiment, the status supervision apparatus further comprises: a judging unit 107 and an exiting unit 108. A determining unit 107, configured to determine whether the monitoring device is in a stop configuration interface for controlling to stop the supervisory control mode, where the stop configuration interface includes: a configuration interface for ending the process corresponding to the supervisory control mode, or an uninstall interface for uninstalling the application corresponding to the supervisory control mode; an exit unit 108, configured to, if the determining unit 107 determines that the intelligent terminal is in a configuration stopping interface for controlling to stop the monitoring control mode, forcibly exit the configuration stopping interface.

In one embodiment, the status supervision apparatus further comprises: an acquisition unit 109 and a receiving unit 110. An obtaining unit 109 configured to obtain authentication information set for the supervisory control mode when an exit operation for the supervisory control mode is detected, the authentication information including at least one of password information and biological information; a receiving unit 110, configured to receive verification information for exiting the supervision control mode; the quitting unit 108 is further configured to verify the verification information based on the authentication information, and legally quit the supervisory control mode when the verification passes.

In one embodiment, the status supervision apparatus further comprises: a generating unit 111, configured to generate a usage report if the intelligent terminal legally exits the supervision control mode; wherein, the usage report is used for recording the usage data of the intelligent terminal in the process of working in the supervision control mode.

In one embodiment, the status supervision apparatus further comprises: the starting unit 112, the detecting unit 104, is further configured to detect whether the supervisory control mode is illegally exited; the starting unit 112 is configured to, if the detection unit 104 detects that the supervisory control mode is illegally exited, automatically start the supervisory control mode when the intelligent terminal is in a working state, so that the intelligent terminal works in the supervisory control mode.

In an embodiment, the determining unit 107 is further configured to determine whether an application identifier corresponding to an application triggered to be started is recorded in a blacklist, where the blacklist records application identifiers corresponding to one or more applications prohibited to be started when the intelligent terminal operates in a supervision control mode; the processing unit 103 is further configured to perform closing processing on the application triggered to be started if the determining unit 107 determines that the application identifier corresponding to the application triggered to be started is recorded in a blacklist.

In the embodiment of the invention, when the intelligent terminal works in the supervision control mode, the supervision control mode can be automatically generated based on the target option selected and configured by the current user, on one hand, the selection unit 102 can select the sensor data of the terminal based on the supervision control mode, on the other hand, the processing unit 103 can perform supervision processing on the intelligent terminal after analyzing the data, so that the intelligent terminal can be effectively supervised, the automatic and intelligent requirements of the user on the supervision processing of the intelligent terminal are met, and the unhealthy postures of the user when the intelligent terminal is used are favorably improved.

Fig. 11 is a schematic block diagram of a server according to an embodiment of the present invention. The server in this embodiment as shown in the figure may include: power supplies, housings, various required interfaces, etc., such as network interfaces, user interfaces, etc. The server further comprises: one or more processors 201 and a storage device 202. The processor 201 is coupled to the storage device 202, and in one embodiment, the processor 201 and the storage device 202 may be coupled via a bus 203.

The server may include a user interface, the user interface may include an interface module formed by some physical keys or touch keys, and the like, and may be capable of receiving the operation of the user, and the user interface may further include some structures, such as a display screen, and the like, capable of prompting the user for information, such as the operating state of the server.

The storage device 202 may include a volatile memory (volatile memory), such as a random-access memory (RAM); the storage device 202 may also include a non-volatile memory (non-volatile memory), such as a flash memory (flash memory), a solid-state drive (SSD), etc.; the storage device 202 may also comprise a combination of memories of the kind described above.

The processor 201 may be a Central Processing Unit (CPU). The processor 201 may further include a hardware chip. The hardware chip may be an application-specific integrated circuit (ASIC), a Programmable Logic Device (PLD), or the like. The PLD may be a field-programmable gate array (FPGA), a General Array Logic (GAL), or the like. The processor 201 may also be a combination of the above structures.

In an embodiment of the present invention, the memory 202 is configured to store a computer program, the computer program comprising program instructions, and the processor 201 is configured to execute the program instructions stored in the memory 202 to implement the corresponding method steps in the above-described embodiments.

In one embodiment, the processor 201 is configured to invoke the program instructions for determining a supervisory control rule configured for the supervisory control mode if the smart terminal is operating in the supervisory control mode, the supervisory control rule being determined according to the target option selected on the rule setting interface; according to the data requirement indication of the supervision control rule, selecting a target sensor from the sensors of the intelligent terminal, and acquiring reference sensing data acquired by the target sensor; analyzing the obtained reference sensing data according to the instruction of the supervision control rule, and determining the use state of the intelligent terminal; and monitoring and processing the intelligent terminal according to the determined use state and the control strategy indicated by the monitoring and control rule.

In one embodiment, the processor 201 is further configured to detect whether there is an unauthorized right in the right included in the right option table when it is detected that the smart terminal receives a trigger instruction for the supervisory control mode; if so, jumping to a permission setting interface corresponding to the unauthorized permission; if not, triggering the intelligent terminal to work in the supervision control mode.

In one embodiment, the processor 201, when being configured to perform supervision processing on the smart terminal, is configured to perform supervision processing on the smart terminal by adopting a first control strategy, and acquire updated sensing data from the target sensor; analyzing the obtained updated sensing data according to the instruction of the supervision control rule, and determining the updating state of the intelligent terminal; judging whether the updating state meets a control condition corresponding to a second control strategy, if so, monitoring and managing the intelligent terminal according to the second control strategy; and the first control strategy and the second control strategy have different corresponding supervision treatment.

In one embodiment, the processor 201, when configured to perform supervision processing on the intelligent terminal, is further configured to generate a shielding window, and overlay and display the shielding window on a user interface displayed on a terminal screen; the shielding window is used for shielding the operation instruction sent out on the terminal screen.

In one embodiment, the processor 201 is further configured to determine whether a stop configuration interface for controlling the stop of the supervisory control mode is present, the stop configuration interface including: a configuration interface for ending the process corresponding to the supervisory control mode, or an uninstall interface for uninstalling the application corresponding to the supervisory control mode; and if so, forcibly exiting the configuration stopping interface.

In one embodiment, the processor 201 is further configured to: when an exit operation for the supervisory control mode is detected, acquiring authentication information set for the supervisory control mode, wherein the authentication information comprises at least one of password information and biological information; receiving authentication information for exiting the supervisory control mode; and verifying the verification information based on the authentication information, and legally exiting the supervision control mode when the verification is passed.

In one embodiment, the processor 201 is further configured to: if the intelligent terminal legally exits the supervision control mode, generating a use report; wherein, the usage report is used for recording the usage data of the intelligent terminal in the process of working in the supervision control mode.

In one embodiment, the processor 201 is further configured to: detecting whether the supervisory control mode is illegally exited; if yes, when the intelligent terminal is in a working state, the supervision control mode is automatically started, and the intelligent terminal works in the supervision control mode.

In one embodiment, the processor 201 is further configured to: judging whether an application identifier corresponding to an application triggered to be started is recorded in a blacklist, wherein the blacklist records one or more application identifiers corresponding to applications prohibited to be started when the intelligent terminal works in a supervision control mode;

if yes, closing the application triggered to be opened.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

While the invention has been described with reference to a number of embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (12)

1. A state supervision method is applied to an intelligent terminal, the intelligent terminal is provided with a plurality of sensors, and the method comprises the following steps:

if the intelligent terminal works in a supervision control mode, determining a supervision control rule configured for the supervision control mode, wherein the supervision control rule is determined according to a target option selected on a rule setting interface; one target option corresponds to a supervision control sub-rule, wherein the supervision control rule comprises one supervision control sub-rule or a rule set formed by a plurality of supervision control sub-rules;

according to the data requirement indication of the supervision control rule, selecting a target sensor from the sensors of the intelligent terminal, and acquiring reference sensing data acquired by the target sensor;

analyzing the obtained reference sensing data according to the instruction of the supervision control rule, and determining the use state of the intelligent terminal;

monitoring and managing the intelligent terminal according to the determined use state and a control strategy indicated by the monitoring and controlling rule; and when the supervision control rule comprises a plurality of supervision control sub-rules and different supervision processing is required according to different supervision control sub-rules, carrying out supervision processing on the intelligent terminal according to the priority order of the supervision control sub-rules.

2. The method of claim 1, further comprising:

when detecting that the intelligent terminal receives a trigger instruction aiming at the supervision control mode, detecting whether the authority included in the authority option list has unauthorized authority or not;

if so, jumping to a permission setting interface corresponding to the unauthorized permission;

if not, triggering the intelligent terminal to work in the supervision control mode.

3. The method according to claim 1, wherein the supervising processing of the intelligent terminal comprises:

adopting a first control strategy to monitor and process the intelligent terminal, and acquiring updated sensing data from the target sensor;

analyzing the obtained updated sensing data according to the instruction of the supervision control rule, and determining the updating state of the intelligent terminal;

judging whether the updating state meets a control condition corresponding to a second control strategy, if so, monitoring and managing the intelligent terminal according to the second control strategy;

and the first control strategy and the second control strategy have different corresponding supervision treatment.

4. The method according to any one of claims 1-3, wherein the supervising processing of the intelligent terminal comprises:

generating a shielding window, and displaying the shielding window on a user interface displayed on a terminal screen in an overlaying manner;

the shielding window is used for shielding the operation instruction sent out on the terminal screen.

5. The method according to any one of claims 1-3, further comprising:

determining whether a stop configuration interface for controlling stopping of the supervisory control mode is present, the stop configuration interface comprising: a configuration interface for ending the process corresponding to the supervisory control mode, or an uninstall interface for uninstalling the application corresponding to the supervisory control mode;

and if so, forcibly exiting the configuration stopping interface.

6. The method of claim 1, further comprising:

when an exit operation for the supervisory control mode is detected, acquiring authentication information set for the supervisory control mode, wherein the authentication information comprises at least one of password information and biological information;

receiving authentication information for exiting the supervisory control mode;

and verifying the verification information based on the authentication information, and legally exiting the supervision control mode when the verification is passed.

7. The method of claim 1 or 6, further comprising:

if the intelligent terminal legally exits the supervision control mode, generating a use report;

wherein, the usage report is used for recording the usage data of the intelligent terminal in the process of working in the supervision control mode.

8. The method of claim 1 or 6, further comprising:

detecting whether the supervisory control mode is illegally exited;

if yes, when the intelligent terminal is in a working state, the supervision control mode is automatically started, and the intelligent terminal works in the supervision control mode.

9. The method of claim 1, further comprising:

judging whether an application identifier corresponding to an application triggered to be started is recorded in a blacklist, wherein the blacklist records one or more application identifiers corresponding to applications prohibited to be started when the intelligent terminal works in a supervision control mode;

if yes, closing the application triggered to be opened.

10. A condition supervision apparatus, comprising:

the intelligent terminal comprises a determining unit, a judging unit and a judging unit, wherein the determining unit is used for determining a supervisory control rule configured for a supervisory control mode if the intelligent terminal works in the supervisory control mode, and the supervisory control rule is determined according to a target option selected on a rule setting interface; one target option corresponds to a supervision control sub-rule, wherein the supervision control rule comprises one supervision control sub-rule or a rule set formed by a plurality of supervision control sub-rules;

the selection unit is used for selecting a target sensor from the sensors of the intelligent terminal according to the data requirement indication of the supervision control rule and acquiring reference sensing data acquired by the target sensor;

the determining unit is further configured to analyze the acquired reference sensing data according to the instruction of the supervision control rule, and determine a use state of the intelligent terminal;

the processing unit is used for carrying out supervision processing on the intelligent terminal according to the determined use state and the control strategy indicated by the supervision control rule; and when the supervision control rule comprises a plurality of supervision control sub-rules and different supervision processing is required according to different supervision control sub-rules, carrying out supervision processing on the intelligent terminal according to the priority order of the supervision control sub-rules.

11. A server comprising a processor and a storage device, the storage device being configured to store computer program instructions, the processor being configured to execute the program instructions to implement the method of any one of claims 1-9.

12. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program comprising program instructions that, when executed by a processor, cause the processor to carry out the method according to any one of claims 1-9.

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