CN109947003B - Control method and control equipment - Google Patents

Abstract

The application provides a control method, which comprises the following steps: in response to monitoring a target event, collecting monitoring information of the target event; if the monitoring information meets the control condition, generating a control instruction; and controlling target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped. The control method improves the experience effect of the user, and correspondingly, the application also provides control equipment.

Description

Control method and control equipment

Technical Field

The present application relates to the field of information processing technologies, and in particular, to a control method and apparatus.

Background

At present, people can touch various electronic devices in daily life, and information presented by the electronic devices is also various.

However, in the use process of the electronic device, people have various bad use habits or may receive various information unfavorable for users, so that the experience effect of the users cannot be better ensured.

Disclosure of Invention

In view of this, the present application provides the following technical solutions:

a control method, comprising:

in response to monitoring a target event, collecting monitoring information of the target event;

if the monitoring information meets the control condition, generating a control instruction;

and controlling target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped.

Optionally, the monitoring information includes a time parameter, and generating the control instruction if the monitoring information meets the control condition includes: if the time parameter is greater than a first threshold value, generating a control instruction; or (b)

The monitoring information comprises a frequency parameter, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: if the frequency parameter is larger than a second threshold value, generating a control instruction; or (b)

The monitoring information comprises frequency parameters, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: and if the frequency parameter is greater than a third threshold value, generating a control instruction.

Optionally, the responding to the monitoring of the target event includes: the first device is responsive to monitoring a target event of the first device;

the controlling the target device to enter the target state based on the control instruction comprises the following steps: and controlling the first equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

Optionally, the collecting monitoring information of the target event includes at least one of the following:

the first equipment collects the parameter information of the target event and determines the parameter information as the monitoring information;

or (b)

And determining parameter information which is generated by the second equipment and matches with the target event and is generated by the second equipment generating the target event as the monitoring information.

Optionally, the target event comprises a content output event;

the determining the parameter information of the target event acquired by the first device as monitoring information includes:

and determining the time parameter of the content output event acquired by the first equipment as the monitoring information.

Optionally, the first device is a device that characterizes an association relationship with the second device, and the target event is an event that the first device obtains output content of the second device;

the controlling the first device to enter the target state based on the control instruction comprises the following steps: and controlling the first equipment to enter a state that the output content of the second equipment cannot be obtained based on the control instruction.

Optionally, the first device includes an optical means, the target event is an event that the first device obtains the second device to output image content, and the image content is perceived by a user of the first device through the optical means;

the controlling the first device to enter the target state based on the control instruction comprises the following steps: controlling the optical device to switch from a first state to a second state based on the control instruction, wherein in the first state, the image content is perceived by the user through the optical device; in the second state, the image content is not perceptible to the user through the optical device.

Optionally, the target event is generated by the second device, and the response to monitoring the target event includes: the first device is responsive to monitoring the target event;

the controlling the target device to enter the target state based on the control instruction comprises the following steps:

and controlling the second equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

Optionally, the target event characterization includes an information output event outputting target information, and the monitoring information includes the target information;

the controlling the second device to enter a target state based on the control instruction comprises:

and controlling the second equipment to enter a target output mode to output information based on the control instruction, wherein the target output mode cannot output the target information.

A control apparatus comprising:

the acquisition device is used for responding to the monitoring of the target event and acquiring the monitoring information of the target event;

the processing device is used for generating a control instruction if the monitoring information meets the control condition; and controlling the target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped.

As can be seen from the above technical solution, the present disclosure provides a control method and apparatus, and in response to monitoring a target event, collect monitoring information of the target event, where the monitoring information meets a control condition, and generate a control instruction, where the control instruction may be used to control the target device to enter a target state, that is, enter a state capable of stopping the target event. If the monitoring event is an event which needs to be monitored and affects the experience effect of the user, the generating device or the receiving device of the event is controlled to enter a target state, namely, the target event is stopped, so that the experience effect of the user can be improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only embodiments of the present application, and other drawings may be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of a control method according to an embodiment of the present application;

FIG. 2 is a flow chart of another control method according to an embodiment of the present application;

fig. 3 is a flowchart of a control method for a second device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a control device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The embodiment of the application discloses a control method, referring to fig. 1, comprising the following steps:

s101, responding to the monitored target event, and collecting monitoring information of the target event.

The target event may be characterized as an event that needs to be monitored, and determining the event as the target event needs to be determined based on explicit event determination information, or may be an event determined according to a monitoring condition. The monitoring information characterization can represent the target event monitoring parameters, which may include time parameters, frequency parameters, status parameters, and the like. For example, the target event may characterize an audio output event, and the corresponding monitoring information may be audio output time, audio output mode, number of audio data, etc. The target event may be monitored based on the generating device of the target event, or may be monitored based on a specific monitoring device, where the specific monitoring device may have an association relationship with the generating device of the target event, or may be an independent monitoring device, and may have a data transmission function when the specific monitoring device is used as the independent monitoring device.

S102, if the monitoring information meets the control condition, generating a control instruction.

The control condition is a generation condition of the control instruction. The characterization content of the corresponding monitoring information is different, and the control conditions are different.

If the monitoring information includes a time parameter, a control instruction is generated when the time parameter is greater than a first threshold value, which may characterize the corresponding time threshold value. The time parameter may be an accumulated time, a unit time, or a parameter accumulated in a set time. If the target event is an audio output event, the corresponding time parameter may be an audio output duration, and when the audio output duration exceeds a preset time threshold, a corresponding control instruction is generated.

If the monitoring information includes a frequency parameter, a control instruction is generated when the frequency parameter is greater than a second threshold, and the second threshold may represent a corresponding frequency threshold. The time parameter may be the cumulative number of times, the number of times per unit time, or the number of times within a set time, or the like. If the target event is an opening event of the electronic device, the corresponding frequency parameter may be the opening frequency of the electronic device in one day, and when the opening frequency of the electronic device in one day exceeds a preset frequency threshold, a corresponding control instruction is generated.

If the monitoring information includes a frequency parameter, a control instruction is generated when the frequency parameter is greater than a third threshold, where the third threshold may represent a corresponding frequency threshold, for example, the target event is a use event of the target device, and the use frequency parameter of the target device may be obtained through monitoring, and when the use frequency parameter is greater than a preset frequency threshold, the control instruction is generated.

If the monitoring information comprises a state parameter, if the target event is a use event of the device, the corresponding monitoring device can monitor the change of the state in the use process of the device, and a control instruction can be generated when the number of state changes reaches a threshold value or when the state changes to the target state.

S103, controlling the target equipment to enter a target state based on the control instruction.

Wherein the target state is a state that characterizes a stop-target event. Stopping the target event may be stopping the target event immediately, stopping the target event for a preset time, or stopping the target event, and failing to restart the target event for a preset time period. The target device may be the device that generated the target event, the device that monitored the target event, or the device that received the target event. And the corresponding prompt information can be generated when the target equipment is controlled to enter the target state so as to prompt the corresponding equipment or the user that the target equipment is to be subjected to state switching so as to achieve the target state.

For example, the target event is an audio output event of a sound box, and when the sound box is monitored to output audio, a corresponding output time parameter in the audio output event is collected. If the output time is greater than the preset time threshold, a control instruction is generated, wherein the control instruction is used for controlling the sound box to be closed, namely, the output of the audio is stopped, or after the sound box is controlled to be closed, the sound box is not allowed to be opened any more in a preset time period. Therefore, the method can limit the audio listening time of the sound box user, and can avoid the sound box from playing for an ultra-long time, thereby protecting the hearing of the user, prolonging the service life of the sound box and enabling the user to achieve good experience effect. For another example, the user receives the audio by wearing the earphone, and when the audio output time reaches the time threshold, the earphone is controlled to enter a mute mode, so that the hearing of the user is protected.

The application discloses a control method, which is used for responding to the monitoring of a target event, collecting the monitoring information of the target event, and generating a control instruction when the monitoring information meets the control condition, wherein the control instruction can be used for controlling target equipment to enter a target state, namely a state capable of stopping the target event. If the monitoring event is an event which needs to be monitored and affects the experience effect of the user, the generating device or the receiving device of the event is controlled to enter a target state, namely, the target event is stopped, so that the experience effect of the user can be improved.

In another embodiment of the present application, another control method is provided, referring to fig. 2, the control method includes:

s201, responding to the monitoring of a target event of first equipment through the first equipment, and collecting monitoring information of the target event;

s202, if the monitoring information meets the control condition, generating a control instruction by using first equipment;

s203, controlling the first equipment to enter a target state based on the control instruction.

In this embodiment the target event is for the first device, comprising: the target event is generated by the first device or the target event is monitored by the first device. The control instructions are generated by the first device, but the monitoring information may be obtained directly by the first device or indirectly by the first device. Correspondingly, the first device is controlled to enter a target state so that the target event can be stopped.

For example, the first device is a smart tv, and the target event is a content output event. When the intelligent television monitors that the intelligent television has a content output event (such as video output), the output timing device of the intelligent television can be utilized to collect the time parameters of the content output, such as the video playing time of the intelligent television, and when the monitored time parameters reach a preset time threshold, the intelligent television can control the intelligent television to be closed so that the intelligent television does not have the content output. Therefore, the method can control the time length of the intelligent television for content output, can be suitable for controlling the time of watching the television by the child in the parent mode, and can achieve the purpose of reducing the energy consumption of the intelligent television by limiting the time length of watching the television by the user, so that the user experience effect of watching the intelligent television by the user is improved.

As another example, the first device is a smart lighter and the target event is a light event. The ignition times of the intelligent lighter can be monitored by utilizing the heat triggering device or the switch triggering device and the like of the intelligent lighter, when the ignition times in the preset time period reach the time threshold, a control instruction can be generated and acts on the switch triggering device of the intelligent lighter, so that the intelligent lighter cannot be ignited again or cannot be ignited again in a certain time period, the fuel waste of the intelligent lighter caused by the ignition of the frequently-used intelligent lighter is avoided, and meanwhile, the danger caused by the frequent ignition can be reduced, so that the experience effect of a user is ensured.

It should be noted that, in the above method, the monitoring information of the target event is collected, including at least one of the following:

s2011, parameter information of a target event acquired by first equipment is determined to be monitoring information;

or alternatively

And S2012, determining parameter information which is generated by the second equipment and matches with the target event and is generated by the second equipment generating the target event as monitoring information.

In step S2011, it may be understood that the monitoring information is directly collected by the first device, and the first device generates the monitoring information corresponding to the target event. In another embodiment of the present application, the target event comprises: a content output event; the method for determining the parameter information of the target event acquired by the first equipment as the monitoring information comprises the following steps:

and determining the time parameter of the content output time acquired by the first equipment as monitoring information.

If the first device in the above scenario example is an intelligent television and the target event is a content output time, the intelligent television starts to count the output time when acquiring the content output event, and the time parameter obtained by the statistics is used as monitoring information.

In another embodiment of the present application, the first device characterizes a device having an association relationship with the second device, and the target event is a time when the first device obtains the output content of the second device; correspondingly, based on the control instruction, controlling the first device to enter a target state, including:

and controlling the first equipment to enter a state that the output content of the second equipment cannot be obtained based on the control instruction.

In this embodiment, if the generating device of the target event is the second device, when the parameter information of the target event acquired by the first device is determined to be the monitoring information, the corresponding parameter information acquisition should be performed by using the monitoring index of the first device, or certain calculation needs to be performed on the acquired parameter information to determine the monitoring information.

For example, the first device is smart glasses worn by the user, the second device is a television, the corresponding first device is a receiving end, and the second device is an output end, i.e. the association relationship between the first device and the second device is an input-output relationship representing the two. The target event is an event that the intelligent glasses acquire the output content of the television.

In order to avoid excessive use of eyes of a user, the user can monitor the content output time of the television through the intelligent glasses, and specific monitoring information can be the time that the intelligent glasses can receive the television content through the image acquisition device of the intelligent glasses, so that the time that the user leaves a distance range for receiving the television output content can be prevented from being counted as the monitoring information, the monitoring information can reflect the time that the user actually watches the television more, and the monitoring information is more accurate.

When the time parameter corresponding to the received television content reaches the time threshold, the intelligent glasses can generate a control instruction and control the control instruction to reach a target state, namely a state in which the television output content cannot be obtained. For example, the transparency of the glasses may be changed, so that the state of the television output content cannot be obtained, or a corresponding alert sound may be sent out, for example, "please turn off the television", and the volume of the alert sound may be increased to affect the obtaining of the television content until the television is turned off. Therefore, the user cannot watch the television through the intelligent glasses, and can know that the content output of the television reaches the time threshold value, and rest is performed.

On the basis of the above embodiment, in another embodiment of the present application, the first device includes an optical device, the target event is that the first device obtains the output image content event of the second device, and the image content is perceivable by a user of the first device through the optical device.

Based on the control instruction, controlling the first device to enter a target state, including:

s301, controlling the optical device to switch from the first state to the second state based on the control instruction.

Wherein in a first state, the image content is perceived by a user through the optical device; in the second state, the image content is not perceived by the user through the optical device.

For example, the first device is a 3D glasses, the second device is a display device, the target event may be a video output event, and the user of the first device is a viewer of the video output by the display device. To enable the viewed video to present a 3D effect, the user may view the output video through 3D glasses. Therefore, it is necessary to include an optical device in the 3D glasses, through which the video needs to be formed to form 3D imaging to achieve the 3D effect of the video. When the time that the user uses the 3D glasses to watch the video is monitored to be longer, the control device of the 3D glasses can generate a control instruction, the control instruction is acted on the optical device, so that the state of the optical device is switched, namely, the state is switched from the first state to the second state, and as the first state is the state that the image content of the video is perceived by the user through the optical device, the optical device can perform the normal working state of 3D imaging in the first state, and in the second state, the 3D imaging can be destroyed by controlling related components in the optical device or the user can not watch the video, for example, the polarizing component in the optical device can be controlled to adopt the preset polarization direction so as to achieve the effect that the 3D imaging can not be realized. The light transmittance of the optical device can also be controlled so that the light transmittance thereof is reduced, thereby realizing that the lenses of the 3D glasses are blackened or in a blurred state. Eventually, the video content output by the display device cannot be perceived by a user through the optical device. Therefore, the optical device can be controlled to enable the user to have proper rest to achieve the best viewing experience effect.

In step S2012, the target event is generated by the second device, so that parameter information generated by the second device and matched with the target event is determined as monitoring information, that is, it can be understood that the second device is used to collect the monitoring information, and still the user is used to watch the television by wearing the smart glasses, where the target event is a content output event generated by the television, that is, the first device is the smart glasses, and the second device is the television, and timing is started when the television corresponds to the content output, and the time parameter obtained by the television is used as the monitoring information. And generating a control instruction according to the monitoring information to control the intelligent glasses to reach a target state, such as a lens blurring state.

In another embodiment of the present application, referring to fig. 3, the control method further includes:

s401, responding to a monitoring target event by using a first device, and collecting monitoring information of the target event, wherein the target event is generated by a second device;

s402, if the monitoring information meets the control condition, generating a control instruction by using first equipment;

s403, controlling the second equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped.

The target event is generated by the second device, the first device may be used as a monitoring device to monitor the target event, and when the monitored information of the monitored target event meets the control condition, the first device may generate a control instruction, where the control instruction is used to control the second device, so that the second device reaches a state capable of stopping the target event, such as making the second device no longer generate the target event.

For example, the first device is an information analysis device, the second device is an information output device, and the target event is an information output event. In order to avoid the user from receiving bad information, the user can receive the information output by the information output and output device through the information analysis device, the information analysis device collects the output information, if target information matched with preset monitoring information is obtained, and the length of the target information exceeds a length threshold value, a control instruction is generated, the information output device is controlled to not output the information, or the information is output according to a preset mode, wherein the target information is not output in the preset mode.

On the basis of the above embodiment, the target event characterization includes an information output event that outputs target information, and the monitoring information includes the target information;

based on the control instruction, controlling the second device to enter a target state, including:

s4031, based on the control instruction, controlling the second equipment to enter a target output mode for information output, wherein the target output mode cannot output the target information.

It should be noted that, because the second device is controlled to output information according to the preset target output mode, the output information does not include the target information. At this time, although the second device also has an information output event, the information output event is not already the same event as the information output event in the start state, because the information to be output is different, it is also achieved that the information output event including the target information can be stopped.

For example, the target event is an information output event for outputting a horror picture, the monitoring information is a horror picture, the first device is an information analysis device, and the second device is an information output device. When the student browses the webpage, the computer serves as information output equipment, the student can wear intelligent glasses or a collusion comprising the information analysis equipment, and when the situation that horror pictures appear in the webpage browsed by the student and the number of horror pictures exceeds two is identified, the information analysis equipment generates a control instruction and sends the control instruction to the computer, and the control computer cannot output the horror pictures, namely the horror pictures are not included in the current display page of the computer. The computer can also be directly controlled to be turned off or the display interface can be switched.

In an embodiment of the present application, there is also provided a control apparatus, referring to fig. 4, including:

an acquisition device 10 for acquiring monitoring information of a target event in response to monitoring the target event;

processing means 20 for generating a control instruction if the monitoring information satisfies a control condition; and controlling the target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped.

The control equipment provided by the application can realize the control of other equipment or control equipment, improve the experience effect of a user on other equipment, can be applied to a plurality of fields, such as intelligent accompanying fields, intelligent home fields and the like, and can also help the user to improve bad use habits of electronic equipment or avoid receiving bad information and the like. The control apparatus of the present application will be described below with specific application examples.

In the field of smart home, it is generally desirable for each smart appliance to achieve the best use effect, so as to enhance the user experience. For example, the heat dissipation of each intelligent electric appliance needs to be monitored, at this time, each intelligent electric appliance can be connected in a networking manner, a monitoring device is arranged in the network to serve as control equipment of all intelligent electric appliances, a corresponding target event is a heat dissipation event, when the monitoring device monitors the heat dissipation event of each intelligent electric appliance, a heat collection device of the monitoring device collects heat dissipation capacity in unit time corresponding to the heat dissipation event, if the heat dissipation capacity in unit time exceeds a heat dissipation threshold value, a processing device of the monitoring device generates a control instruction, the control instruction controls the intelligent electric appliance exceeding the heat dissipation threshold value to be turned off, or prompt information is generated before the intelligent electric appliance is turned off to prompt that the heat dissipation of the intelligent electric appliance is higher, and then the intelligent electric appliance is turned off.

For another example, when the control device is an intelligent glasses with a volume acquisition device and a processing device, the target event is an audio playing event, and the volume acquisition device acquires a volume parameter of the volume playing event in response to monitoring the audio playing event; if the volume parameter exceeds the volume threshold value within the duration period, the processing device of the intelligent glasses generates a control instruction, such as a volume reducing instruction, and applies the instruction to a sound box of a generating device of the audio playing event, so that the sound box reduces the volume, and the audio playing event in the initial state is stopped, and the audio playing event at the moment is audio playing with reduced volume.

For example, in order to improve the safety of taking frequent medicines for the elderly, an intelligent medicine box is utilized, a time acquisition device and a processing device are arranged at the opening position of the intelligent medicine box, a target event is an event of opening the medicine box, a time parameter is acquired after the medicine box is started in response to the detection of the opening of the medicine box, a control instruction is generated in a time period when the time parameter is smaller than a time threshold value, the control instruction controls the medicine box to be closed, the medicine box is not opened again until the detection of the time parameter is larger than the time threshold value, and the medicine box cannot be opened even if the user wants to open the medicine box in a conventional opening mode during the time period according to the control instruction.

Because the screen blue light of the electronic equipment has a certain harm to eyes of users of the electronic equipment, the users can wear the intelligent glasses or wear the equipment to monitor the screen blue light, the sensing device on the intelligent eyes can be used as the collecting device, when the quantity of the screen blue light received by the intelligent glasses or the wearing equipment is collected to reach a certain quantity, the users can be represented to watch the electronic equipment for a certain period of time, the processing device in the intelligent glasses can generate a control instruction to control the intelligent glasses to blur or send reminding information to remind the users to pay attention to protect the eyes, and the electronic equipment can be directly controlled to be closed.

On the basis of the embodiment of the control device, the monitoring information collected in the collecting device may include a time parameter, and the basis of the corresponding processing device when generating the control instruction includes: if the time parameter is greater than a first threshold value, generating a control instruction; or (b)

The monitoring information comprises a frequency parameter, and the basis of the corresponding processing device when generating the control instruction comprises: if the frequency parameter is larger than a second threshold value, generating a control instruction; or (b)

The monitoring information comprises frequency parameters, and the basis of the corresponding processing device when generating the control instruction comprises: and if the frequency parameter is greater than a third threshold value, generating a control instruction.

Based on the above embodiment, the responding to the monitoring of the target event includes: the first device is responsive to monitoring a target event of the first device;

the processing device is specifically used for:

and controlling the first equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

On the basis of the above embodiment, the collecting device collects the monitoring information of the target event, including at least one of the following:

the first equipment collects the parameter information of the target event and determines the parameter information as the monitoring information;

or (b)

And determining parameter information which is generated by the second equipment and matches with the target event and is generated by the second equipment generating the target event as the monitoring information.

On the basis of the above-described embodiment, among others,

the target event includes a content output event;

the step executed in the acquisition device determines the parameter information of the target event acquired by the first device as monitoring information, and specifically includes:

and determining the time parameter of the content output event acquired by the first equipment as the monitoring information.

On the basis of the embodiment, the first device is a device representing an association relationship with the second device, and the target event is an event that the first device obtains output content of the second device;

the processing device is also used for: and controlling the first equipment to enter a state that the output content of the second equipment cannot be obtained based on the control instruction.

On the basis of the above-described embodiment, among others,

the first device comprises an optical means, the target event is an event that the first device obtains the image content output by the second device, and the image content can be perceived by a user of the first device through the optical means;

the processing device is also used for: controlling the optical device to switch from a first state to a second state based on the control instruction, wherein in the first state, the image content is perceived by the user through the optical device; in the second state, the image content is not perceptible to the user through the optical device.

On the basis of the above embodiment, the target event is generated by the second device, and the response to monitoring the target event includes: the first device is responsive to monitoring the target event;

the processing device is also used for:

and controlling the second equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

On the basis of the above embodiment, the target event characterization includes an information output event that outputs target information, and the monitoring information is the target information;

the processing device is specifically used for:

and controlling the second equipment to enter a target output mode to output information based on the control instruction, wherein the target output mode cannot output the target information.

There is also provided in an embodiment of the present application a storage medium having stored thereon a program which, when executed by a processor, implements the control method.

The embodiment of the application also provides an electronic device, which comprises a processor, a memory and a program stored on the memory and executable on the processor, wherein the following steps are realized when the processor executes the program:

in response to monitoring a target event, collecting monitoring information of the target event;

if the monitoring information meets the control condition, generating a control instruction;

and controlling target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped.

Further, the method comprises the steps of,

the monitoring information comprises a time parameter, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: if the time parameter is greater than a first threshold value, generating a control instruction; or (b)

The monitoring information comprises a frequency parameter, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: if the frequency parameter is larger than a second threshold value, generating a control instruction; or (b)

The monitoring information comprises frequency parameters, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: and if the frequency parameter is greater than a third threshold value, generating a control instruction.

Further, the method comprises the steps of,

the responding to the monitoring of the target event includes: the first device is responsive to monitoring a target event of the first device;

the controlling the target device to enter the target state based on the control instruction comprises the following steps: and controlling the first equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

Further, the collecting the monitoring information of the target event includes at least one of the following:

the first equipment collects the parameter information of the target event and determines the parameter information as the monitoring information;

or (b)

And determining parameter information which is generated by the second equipment and matches with the target event and is generated by the second equipment generating the target event as the monitoring information.

Further, the method comprises the steps of,

the target event includes a content output event;

the determining the parameter information of the target event acquired by the first device as monitoring information includes:

and determining the time parameter of the content output event acquired by the first equipment as the monitoring information.

Further, the first device is a device which characterizes the association relation with the second device, and the target event is an event that the first device obtains the output content of the second device;

the controlling the first device to enter the target state based on the control instruction comprises the following steps: and controlling the first equipment to enter a state that the output content of the second equipment cannot be obtained based on the control instruction.

Further, the method comprises the steps of,

the first device comprises an optical means, the target event is an event that the first device obtains the image content output by the second device, and the image content can be perceived by a user of the first device through the optical means;

the controlling the first device to enter the target state based on the control instruction comprises the following steps: controlling the optical device to switch from a first state to a second state based on the control instruction, wherein in the first state, the image content is perceived by the user through the optical device; in the second state, the image content is not perceptible to the user through the optical device.

Further, the method comprises the steps of,

the target event is generated by the second device, and the response to monitoring the target event includes: the first device is responsive to monitoring the target event;

the controlling the target device to enter the target state based on the control instruction comprises the following steps:

and controlling the second equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

Further, the method comprises the steps of,

the target event characterization comprises an information output event for outputting target information, and the monitoring information is the target information;

the controlling the second device to enter a target state based on the control instruction comprises:

and controlling the second equipment to enter a target output mode to output information based on the control instruction, wherein the target output mode cannot output the target information.

In this specification, each embodiment is mainly described in the specification as a difference from other embodiments, and the same similar parts between the embodiments are referred to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A control method, comprising:

in response to monitoring a target event, collecting monitoring information of the target event;

if the monitoring information meets the control condition, generating a control instruction;

controlling target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped;

wherein the collecting the monitoring information of the target event includes at least one of the following:

the first equipment collects the parameter information of the target event and determines the parameter information as the monitoring information;

or (b)

Determining parameter information which is generated by second equipment and matches with the target event and is generated by the second equipment and generates the target event as the monitoring information;

the first device is a device which characterizes an association relation with the second device, the target event is an event that the first device obtains image content output by the second device, the image content can be perceived by a user of the first device through the first device, and the first device comprises intelligent glasses worn by the user;

the responding to the monitoring of the target event includes: the first device responds to the monitoring of a target event of the first device, wherein the target event is the time when the first device obtains the output content of the second device;

the controlling the target device to enter the target state based on the control instruction comprises the following steps: controlling the first device to switch from a first state to a second state based on the control instruction, wherein in the first state, the image content is perceived by the user through the first device; in the second state, the image content is not perceptible to the user through the first device.

2. The method of claim 1, wherein,

the monitoring information comprises a time parameter, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: if the time parameter is greater than a first threshold value, generating a control instruction; or (b)

The monitoring information comprises a frequency parameter, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: if the frequency parameter is larger than a second threshold value, generating a control instruction; or (b)

The monitoring information comprises frequency parameters, and the generating a control instruction if the monitoring information meets a control condition comprises the following steps: and if the frequency parameter is greater than a third threshold value, generating a control instruction.

3. The method of claim 1, wherein,

the target event includes a content output event;

the determining the parameter information of the target event acquired by the first device as monitoring information includes:

and determining the time parameter of the content output event acquired by the first equipment as the monitoring information.

4. The method of claim 1, wherein,

the target event is generated by the second device, and the response to monitoring the target event includes: the first device is responsive to monitoring the target event;

the controlling the target device to enter the target state based on the control instruction comprises the following steps:

and controlling the second equipment to enter a target state based on the control instruction, wherein the control instruction is generated by the first equipment.

5. The method of claim 4, wherein,

the target event characterization comprises an information output event for outputting target information, and the monitoring information comprises the target information;

the controlling the second device to enter a target state based on the control instruction comprises:

and controlling the second equipment to enter a target output mode to output information based on the control instruction, wherein the target output mode cannot output the target information.

6. A control apparatus comprising:

the acquisition device is used for responding to the monitoring of the target event and acquiring the monitoring information of the target event;

the processing device is used for generating a control instruction if the monitoring information meets the control condition; controlling target equipment to enter a target state based on the control instruction, wherein the target state is a state which represents that the target event can be stopped;

wherein the acquisition device is used for executing at least one of the following:

the first equipment collects the parameter information of the target event and determines the parameter information as the monitoring information;

or (b)

Determining parameter information which is generated by second equipment and matches with the target event and is generated by the second equipment and generates the target event as the monitoring information;

the first device is a device representing an association relation with the second device, the first device comprises glasses with optical means, the target event is an event that the first device obtains image content output by the second device, and the image content can be perceived by a user of the first device through the optical means;

the responding to the monitoring of the target event includes: the first device is responsive to monitoring a target event of the first device;

the controlling the target device to enter the target state based on the control instruction comprises the following steps: controlling the optical device to switch from a first state to a second state based on the control instruction, wherein in the first state, the image content is perceived by the user through the optical device; in the second state, the image content is not perceptible to the user through the optical device.