CN105791518B - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment, wherein the method is applied to first electronic equipment and comprises the following steps: judging whether the user state meets a preset characteristic or not, and obtaining a first judgment result; when the first judgment result is yes, generating a first control signal; and sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be the working state matched with the preset characteristic based on the first control signal. The method provided by the invention is used for solving the technical problems that whether the user is in the disturbance-free state or not can not be detected and the equipment state of the electronic equipment around the user is controlled according to the detection result, and realizes the technical effect of controlling the equipment state of the electronic equipment around the user according to the detection result of whether the user is in the disturbance-free state or not.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to the field of electronic technologies, and in particular, to an information processing method and an electronic device.

Background

With the development of electronic technology, great convenience is brought to people, so that the relation between people and electronic equipment is more and more compact.

However, the user inevitably wastes resources and has an electron radiation problem in the process of using the electronic device. For example, before a user sleeps, when the user uses an electronic device such as a mobile phone to perform activities such as reading, watching a video, listening to music, and the like, the electronic device such as the mobile phone is not muted or turned off, or other peripheral electronic devices (e.g., electronic devices of other people, or electronic devices such as televisions and tablet computers of the user) are still in a normal working state while the user sleeps, or the peripheral electronic devices are still in a working state while the user is in a meeting, that is, when the user needs to be in an undisturbed state, the other electronic devices are still in a working state, and the user is forced to be in an disturbed state.

In the process of inventing the technical scheme in the embodiment of the present application, the inventor of the present application finds that the above prior art has at least the following technical problems:

the technical problems that whether a user is in a disturbance-free state or not can not be detected and the equipment state of electronic equipment around the user is controlled according to a detection result exist in the prior art.

Further, because the prior art has a technical problem that it is impossible to detect whether the user is in the no-disturb state and control the device state of the electronic device around the user according to the detection result, when the user is in the no-disturb state, the electronic device around the user may still be in a high-power-consumption working state, that is, when the user is in the no-disturb state, the electronic device in the prior art has a technical problem that the electronic device wastes its own power.

Further, since there is a technical problem in the prior art that it is impossible to detect whether the user is in the no-disturb state and control the device state of the electronic device around the user according to the detection result, when the user is in the no-disturb state such as the sleep state, the electronic device around the user may still be in the high-radiation operating state, that is, the electronic device in the prior art is in the no-disturb state when the user is in the high-radiation operating state.

Due to the technical problems, the electronic equipment in the prior art is still in a working state when the user is in an undisturbed state, and can disturb the user or generate high radiation to the user, and therefore the electronic equipment in the prior art has the problem of low user experience.

Disclosure of Invention

The embodiment of the application provides an information processing method and electronic equipment, which are used for solving the technical problems that whether a user is in a disturbance-free state cannot be detected and the equipment states of the electronic equipment around the user are controlled according to a detection result, and achieving the technical effect of controlling the equipment states of the electronic equipment around the user according to the detection result of whether the user is in the disturbance-free state.

One aspect of the present application provides an information processing method applied to a first electronic device, where the method includes:

judging whether the user state meets a preset characteristic or not, and obtaining a first judgment result;

when the first judgment result is yes, generating a first control signal;

and sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be the working state matched with the preset characteristic based on the first control signal.

Optionally, the determining whether the user state meets a predetermined characteristic to obtain a first determination result specifically includes:

obtaining user characteristic information when a user is in the user state;

and judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain the first judgment result.

The obtaining of the user characteristic information when the user is in the user state specifically includes:

obtaining current motion information of the user from a motion sensor worn on a wearable device connected to the first electronic device and worn on the body of the user, or

Obtaining heart rate information of the user from a heart rate sensor on the wearable device.

The obtaining of the user characteristic information when the user is in the user state specifically includes:

and detecting and obtaining the current motion information of the user through a motion sensor arranged in the first electronic equipment.

The determining, based on the user feature information, whether the user state satisfies the predetermined feature to obtain the first determination result specifically includes:

judging whether the current motion information is matched with preset motion information or not, and obtaining a first judgment result; or

And judging whether the current heart rate information is matched with preset heart rate information or not, and obtaining the first judgment result.

The determining, based on the user feature information, whether the user state satisfies the predetermined feature to obtain the first determination result specifically includes:

judging whether the current motion information is matched with preset motion information or not, and obtaining a second judgment result; and

judging whether the current respiration information is matched with preset heart rate information or not, and obtaining a third judgment result;

judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result;

when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic.

The sending the first control signal to at least one second electronic device specifically includes:

broadcasting the first control signal to the at least one second electronic device through a broadcast transceiving module provided in the first electronic device; or

And sending the first control signal to a network access device so as to send the first control signal to the at least one second electronic device through the network access device.

In another aspect, the present application provides an electronic device, comprising:

the first judging unit is used for judging whether the user state meets a preset characteristic or not and obtaining a first judging result;

the first generation unit is used for generating a first control signal when the first judgment result is yes;

and the first sending unit is used for sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be the working state matched with the preset characteristic based on the first control signal.

Optionally, the first determining unit specifically includes:

the first obtaining module is used for obtaining the user characteristic information when the user is in the user state;

and the first judging module is used for judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain a first judging result.

Optionally, the first obtaining module specifically includes:

a first obtaining sub-module for obtaining current motion information of the user from a motion sensor connected to the first electronic device and worn on the wearing device on the body of the user, or

Obtaining heart rate information of the user from a heart rate sensor on the wearable device.

Optionally, the first obtaining module specifically includes:

and the second obtaining submodule is used for detecting and obtaining the current motion information of the user through a motion sensor arranged in the first electronic equipment.

Optionally, the first determining module specifically includes:

the first judgment submodule is used for judging whether the current motion information is matched with preset motion information corresponding to the preset characteristics of the user state or not to obtain a first judgment result; or

And the second judgment submodule is used for judging whether the current heart rate information is matched with preset heart rate information corresponding to the preset characteristics of the user state or not and obtaining the first judgment result.

Optionally, the first determining module specifically includes:

the third judgment submodule is used for judging whether the current respiration information is matched with preset heart rate information corresponding to the preset characteristics of the user state or not to obtain a third judgment result;

judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result;

when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic.

The first sending unit specifically includes:

a first sending module, configured to broadcast the first control signal to the at least one second electronic device through a broadcast transceiver module disposed in the first electronic device; or

The second sending module is configured to send the first control signal to a network access device, so as to send the first control signal to the at least one second electronic device through the network access device.

One or more technical solutions in the embodiments of the present application have at least one or more of the following technical effects:

according to the technical scheme of the embodiment of the application, whether the user state is the disturbance-free state meeting the specific characteristics can be judged, when the user state is in the disturbance-free state, a control signal is generated and sent to each electronic device in the surrounding environment, and further, each electronic device is adjusted from the working state to the disturbance-free working state such as a mute state or a shutdown state, so that the technical effect of controlling the device state of the electronic devices around the user according to the detection result of whether the user is in the disturbance-free state is achieved.

According to the technical scheme of the embodiment of the application, whether the user state is in the disturbance-free state or not can be detected, and the equipment state of the electronic equipment around the user is controlled according to the detection result, so that the technical problem that the electronic equipment in the prior art is in a high-power-consumption working state possibly when the user is in the disturbance-free state, namely the electronic equipment in the prior art wastes electric energy when the user is in the disturbance-free state is solved, and the technical effect of energy conservation is achieved.

According to the technical scheme of the embodiment of the application, whether the user state is the disturbance-free state or not can be detected, and the equipment state of the electronic equipment around the user is controlled according to the detection result, so that the technical problem that the electronic equipment in the prior art is in the disturbance-free state and high radiation exists when the user is in the disturbance-free state is solved, and the technical effect of low radiation is achieved.

According to the technical scheme, whether the user is in the disturbance-free state or not can be detected, and the equipment state of the electronic equipment around the user is controlled according to the detection result, so that the technical effect of high experience is brought to the user.

Drawings

Fig. 1 is a flowchart of an information processing method according to a first embodiment of the present application;

fig. 2 is a flowchart of step S101 in an information processing method provided in a first embodiment of the present application;

fig. 3 is a block diagram of an electronic device according to a second embodiment of the present application.

Detailed Description

The embodiment of the application provides an information processing method and electronic equipment, which are used for solving the technical problems that whether a user is in a disturbance-free state cannot be detected and the equipment states of the electronic equipment around the user are controlled according to a detection result, and achieving the technical effect of controlling the equipment states of the electronic equipment around the user according to the detection result of whether the user is in the disturbance-free state.

In order to solve the technical problems and achieve the technical effects, the general idea of the technical scheme in the embodiment of the application is as follows:

an information processing method is applied to a first electronic device, and comprises the following steps: judging whether the user state meets a preset characteristic or not, and obtaining a first judgment result; when the first judgment result is yes, generating a first control signal; and sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be the working state matched with the preset characteristic based on the first control signal.

According to the technical scheme of the embodiment of the application, whether the user state is the disturbance-free state meeting the specific characteristics can be judged, when the user state is in the disturbance-free state, a control signal is generated and sent to each electronic device in the surrounding environment, and further, each electronic device is adjusted from the working state to the disturbance-free working state such as a mute state or a shutdown state, so that the technical effect of controlling the device state of the electronic devices around the user according to the detection result of whether the user is in the disturbance-free state is achieved.

In order to better understand the technical solutions, the technical solutions of the present invention are described in detail below with reference to the drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present invention are detailed descriptions of the technical solutions of the present invention, and are not limitations of the technical solutions of the present invention, and the technical features in the embodiments and examples of the present invention may be combined with each other without conflict.

In this embodiment, specifically, the first electronic device and the second electronic device may be a mobile phone, a tablet computer, or the like, which is not necessarily exemplified herein.

The following explains a specific implementation of the technical solution in the embodiment of the present application by taking the first electronic device as a mobile phone as an example. The mobile phone provided by the embodiment of the application has a broadcast transceiving mechanism, is in an open state, and can also have the function of the internet of things, and the like, that is to say, information exchange and communication can be performed between the first electronic device and each electronic device.

Example one

Referring to fig. 1, an information processing method provided in an embodiment of the present application is applied to a first electronic device, and the method includes:

s101: judging whether the user state meets a preset characteristic or not, and obtaining a first judgment result;

s102: when the first judgment result is yes, generating a first control signal;

s103: and sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be the working state matched with the preset characteristic based on the first control signal.

In this embodiment of the application, when the first electronic device is a mobile phone, the at least one second electronic device is an MP3, a television, and the like, for example, the specific implementation processes of steps S101 to S103 are as follows:

specifically, in the embodiment of the present application, the predetermined characteristic may be a characteristic parameter indicating that a user using the mobile phone is in a sleep state, or may be a characteristic parameter indicating that the user using the mobile phone is in a non-disturbing state such as a working state, which is not necessarily exemplified herein. Firstly, detecting and obtaining characteristic parameters of a user, then comparing the detected characteristic parameters of the user with preset characteristic parameters set by the user in advance, and determining whether the user is in a sleep state or in a working non-disturbance state and other states of avoiding disturbance of peripheral electronic equipment according to a comparison result. Such as: when a broadcast transceiving mechanism in the mobile phone detects that the user is in the non-disturbance state at the moment, a first control signal is generated and sent to each second electronic device in the surrounding environment, and the current working state of each second electronic device is controlled through the first control signal, so that disturbance of the surrounding electronic devices to the user is reduced to the minimum.

In the embodiment of the present application, please refer to fig. 2, wherein step S101 specifically includes the following steps:

s201: obtaining user characteristic information when a user is in the user state;

s202: and judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain the first judgment result.

In the embodiment of the present application, there are two implementation manners for obtaining the user feature information when the user is in the user state in step S201, but the method is not limited to the following two manners.

Implementation mode one

Obtaining current motion information of the user from a motion sensor worn on a wearable device connected with the first electronic device and worn on the body of the user, or obtaining heart rate information of the user from a heart rate sensor on the wearable device.

The specific implementation process is as follows:

in the embodiment of the present application, the speed sensor may be an acceleration sensor, a gyroscope sensor, or the like, and the heart rate sensor may be an optoelectronic sensor, a piezoelectric sensor, or the like, and of course, a person skilled in the art may set different sensors to measure the heart rate according to needs. Any electronic device is connected with the internet through a broadcast transceiving mechanism or through various sensing technologies in the internet of things, and any object or process needing monitoring, connection and interaction is collected in real time, that is, the object or process can be collected through a short-distance wireless communication technology, such as: bluetooth, wifi, zigbee, etc., and may also be Internet of things. How to obtain the user characteristic information when the user is in the user state will be explained below by taking the wearable device as an example. Before the wearable device is used for detecting and obtaining the state of the user, the exercise parameter information and/or the heart rate parameter information in the sleep state corresponding to the user needs to be preset in the wearable device, and the corresponding parameter information can be also set in the mobile phone. Then come real-time detection to obtain user's current motion parameter information and/heart rate parameter information through motion sensor or the heart rate sensor of setting in wearing formula equipment inside, wherein, can monitor user's action through motion sensor, and then confirm that the user is in quiescent condition or motion state, in addition, can also compare with the information parameter information when the user sleeps through the current heart rate parameter information of user that heart rate sensor surveyed, under general condition, the heart rate size when the user is in waking state such as motion will be greater than the heart rate numerical value under its sleep state.

Second embodiment

And detecting and obtaining the current motion information of the user through a motion sensor arranged in the first electronic equipment. In the embodiment of the application, the specific implementation process is as follows:

the gyroscope sensor, the micro accelerometer and other inertial sensors in the mobile phone can be used for detecting and obtaining the relative position, direction, angle and horizontal change of the corresponding user of each electronic device in the space. In addition, a plurality of cameras are adopted to track the specific body position marks of the user in combination with the camera-based optical tracking system, and other tracking systems are certainly possible, for example, easily obtained parts such as arms and legs are used as mark points, then the position change of the mark points is subjected to motion capture, so that the acceleration and speed data of human joints of the user are obtained, and further the current user state of the user is determined according to the comparison between the collected data and preset characteristic data which are preset and represent that the user is in a specific state. Such as: the user adopts optical tracking system to determine user's activity time, activity distance etc. during sleep to wearing formula equipment is wearing formula wrist-watch as an example, and the user stays wearing formula wrist-watch on the wrist, will detect when the user is in the active state and obtain user's motion states such as activity time, activity distance. For another example: in the meeting process, the current motion state of each user is determined through the optical tracking system, all people can be in a sitting state, only some tiny limb actions occur, and in addition, the electronic devices are kept in a communication state, so that the situation that the user is not disturbed at the moment can be known, a control command is sent to other electronic devices through any electronic device, and then the electronic devices are controlled to be in a non-disturbed working state such as dormancy, silence or shutdown. Therefore, the radiation of each electronic device is reduced, and the electric energy of the electronic device is saved better.

In the embodiment of the present application, there are two specific determination processes in step S202, but the determination processes are not limited to the following two determination manners:

first judging mode

Judging whether the current motion information is matched with preset motion information or not, and obtaining a first judgment result; or judging whether the current heart rate information is matched with preset heart rate information or not, and obtaining the first judgment result.

In a specific implementation process, the current state of the user can be compared with a preset disturbance-free state through a motion sensor in the wearable device, or a heart rate sensor, or a motion sensor in the mobile phone. The current state of the user may be determined by any of these. Preferably, in order to ensure the accuracy of the measurement data, a variety of sensors are used to synthesize the measurements to determine the current state of the user.

Second judging mode

Judging whether the current motion information is matched with preset motion information or not, and obtaining a second judgment result; judging whether the current respiration information is matched with preset heart rate information or not, and obtaining a third judgment result; judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result; when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic. The micro-motion of the user is detected through the motion sensor, and whether the user is in the disturbance-free state or the non-disturbance-free state is comprehensively judged by combining the heart rate value measured by the heart rate sensor.

In the embodiment of the present application, when the current state of the user is detected and obtained as the disturbance-free state, step S103 is executed, and the following two ways are specifically implemented, but not limited to the following two ways:

implementation mode one

Broadcasting the first control signal to the at least one second electronic device through a broadcast transceiving module provided in the first electronic device;

that is to say, the detected signal of the user in the disturbance-free state can be broadcasted to each electronic device in the surrounding environment through the broadcast transceiving mechanism inside the mobile phone, and the working state of each electronic device is further adjusted, so that an excellent disturbance-free environment is provided for the user. The method can also be used for detecting and obtaining a signal that the user is in the disturbance-free state through intelligent equipment such as an intelligent bracelet, an intelligent mattress and the like which are in communication connection with the mobile phone and sending the signal to the mobile phone, and then sending the generated control signal to each electronic equipment through the mobile phone, so that each electronic equipment is controlled to be in the disturbance-free state such as dormancy, silence, shutdown and the like.

Implementation mode two

And sending the first control signal to a network access device so as to send the first control signal to the at least one second electronic device through the network access device.

That is to say, the motion parameter information of the user obtained through the motion sensor inside the mobile phone further determines whether the user is in the disturbance-free state, when the user is in the disturbance-free state, the processing unit inside the mobile phone sends the generated control signal to the router, and then sends the control signal to each electronic device through the router, so as to control each electronic device to be in the disturbance-free state such as dormancy, mute, shutdown, and the like.

Of course, in the embodiment of the present application, the current feature information of the user obtained through detection may also be compared with the feature information, which is preset in the electronic device and represents that the user is in a non-disturbance-free state, so as to determine whether the user is in a disturbance-free state. In the embodiment of the application, when it is detected that the user changes from the non-disturbance-free state to the non-disturbance-free state, the non-disturbance-free states of the electronic devices, such as previous sleep, mute, and power-off, may be adjusted to the wake-up state by sending the second control signal. In addition, when part of the electronic equipment in the user state is in the disturbance-free working state, the first control instruction can not be responded, and when part of the electronic equipment in the user state is in the disturbance-free working state, the second control instruction can not be responded, so that the intellectualization of the electronic equipment is realized, and better user experience is brought to the user according to the requirements of the user on the actual scene around the user at any time and any place.

Example two

Based on the same inventive concept as one information processing method in the first embodiment of the present application, as shown in fig. 3, an electronic device provided in the first embodiment of the present application includes:

the first judging unit 30 is used for judging whether the user state meets a preset characteristic or not and obtaining a first judgment result;

a first generating unit 31, configured to generate a first control signal when the first determination result is yes;

a first sending unit 32, configured to send the first control signal to at least one second electronic device, so that the at least one second electronic device controls a current operating state to be an operating state matching the predetermined characteristic based on the first control signal.

In the embodiment of the present application, the first determining unit 30 specifically includes:

the first obtaining module is used for obtaining the user characteristic information when the user is in the user state;

and the first judging module is used for judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain a first judging result.

In this embodiment of the present application, the first obtaining module specifically includes:

the first obtaining sub-module obtains current motion information of the user from a motion sensor which is connected with the first electronic device and worn on wearing equipment worn on the body of the user, or obtains heart rate information of the user from a heart rate sensor on the wearing equipment.

The first obtaining module specifically includes:

and the second obtaining submodule is used for detecting and obtaining the current motion information of the user through a motion sensor arranged in the first electronic equipment.

In the embodiment of the present application, the first determining module has two determining manners, but is not limited to these two manners.

First mode

The first judging module specifically comprises:

the first judgment submodule is used for judging whether the current motion information is matched with preset motion information corresponding to the preset characteristics of the user state or not to obtain a first judgment result; or

And the second judgment submodule is used for judging whether the current heart rate information is matched with preset heart rate information corresponding to the preset characteristics of the user state or not and obtaining the first judgment result.

Second mode

The first judging module specifically comprises:

the third judgment submodule is used for judging whether the current respiration information is matched with preset heart rate information corresponding to the preset characteristics of the user state or not to obtain a third judgment result;

judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result;

when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic.

In the embodiment of the present application, the first transmission unit 32 has two transmission forms, but is not limited to these two forms.

First mode

The first transmitting unit 32 includes a first transmitting module for broadcasting the first control signal to the at least one second electronic device through a broadcast transceiving module provided in the first electronic device;

second mode

The first sending unit 32 includes a second sending module, configured to send the first control signal to a network access device, so as to send the first control signal to the at least one second electronic device through the network access device.

Through one or more technical solutions in the embodiments of the present application, one or more of the following technical effects can be achieved:

according to the technical scheme of the embodiment of the application, whether the user state is the disturbance-free state meeting the specific characteristics can be judged, when the user state is in the disturbance-free state, a control signal is generated and sent to each electronic device in the surrounding environment, and further, each electronic device is adjusted from the working state to the disturbance-free working state such as a mute state or a shutdown state, so that the technical effect of controlling the device state of the electronic devices around the user according to the detection result of whether the user is in the disturbance-free state is achieved.

According to the technical scheme of the embodiment of the application, whether the user state is in the disturbance-free state or not can be detected, and the equipment state of the electronic equipment around the user is controlled according to the detection result, so that the technical problem that the electronic equipment in the prior art is in a high-power-consumption working state possibly when the user is in the disturbance-free state, namely the electronic equipment in the prior art wastes electric energy when the user is in the disturbance-free state is solved, and the technical effect of energy conservation is achieved.

According to the technical scheme of the embodiment of the application, whether the user state is the disturbance-free state or not can be detected, and the equipment state of the electronic equipment around the user is controlled according to the detection result, so that the technical problem that the electronic equipment in the prior art is in the disturbance-free state and high radiation exists when the user is in the disturbance-free state is solved, and the technical effect of low radiation is achieved.

According to the technical scheme, whether the user is in the disturbance-free state or not can be detected, and the equipment state of the electronic equipment around the user is controlled according to the detection result, so that the technical effect of high experience is brought to the user.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Specifically, the computer program instructions corresponding to the information processing method in the embodiment of the present application may be stored on a storage medium such as an optical disc, a hard disc, a usb disk, or the like, and when the computer program instructions corresponding to the information processing method in the storage medium are read or executed by an electronic device, the method includes the following steps:

judging whether the user state meets a preset characteristic or not, and obtaining a first judgment result;

when the first judgment result is yes, generating a first control signal;

and sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be the working state matched with the preset characteristic based on the first control signal.

Optionally, the step stored in the storage medium, where the step of determining whether the user state satisfies a predetermined characteristic to obtain a first determination result, when executed, includes:

obtaining user characteristic information when a user is in the user state;

and judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain the first judgment result.

Optionally, the step stored in the storage medium, where the user characteristic information of the user in the user state is obtained, when executed, the corresponding computer program instruction specifically includes:

obtaining current motion information of the user from a motion sensor worn on a wearable device connected to the first electronic device and worn on the body of the user, or

Obtaining heart rate information of the user from a heart rate sensor on the wearable device.

Optionally, the step stored in the storage medium, where the user characteristic information of the user in the user state is obtained, when executed, the corresponding computer program instruction specifically includes:

and detecting and obtaining the current motion information of the user through a motion sensor arranged in the first electronic equipment.

Optionally, the computer program instructions stored in the storage medium, where the determining, based on the user characteristic information, whether the user status satisfies the predetermined characteristic, to obtain the first determination result, when executed, specifically include:

judging whether the current motion information is matched with preset motion information or not, and obtaining a first judgment result; or

And judging whether the current heart rate information is matched with preset heart rate information or not, and obtaining the first judgment result.

Optionally, the computer program instructions stored in the storage medium, where the determining, based on the user characteristic information, whether the user status satisfies the predetermined characteristic, to obtain the first determination result, when executed, specifically include:

judging whether the current motion information is matched with preset motion information or not, and obtaining a second judgment result; and

judging whether the current respiration information is matched with preset heart rate information or not, and obtaining a third judgment result;

judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result;

when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic.

Optionally, the step stored in the storage medium, where the first control signal is sent to at least one second electronic device, when executed, the corresponding computer program instructions specifically include:

broadcasting the first control signal to the at least one second electronic device through a broadcast transceiving module provided in the first electronic device; or

And sending the first control signal to a network access device so as to send the first control signal to the at least one second electronic device through the network access device.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. An information processing method is applied to first electronic equipment, wherein the first electronic equipment is a mobile phone, and the method comprises the following steps:

judging whether the user state meets a preset characteristic or not, and obtaining a first judgment result;

when the first judgment result is yes, generating a first control signal;

sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be a working state matched with the preset characteristic based on the first control signal;

the sending the first control signal to at least one second electronic device specifically includes:

broadcasting the first control signal to the at least one second electronic device through a broadcast transceiving module provided in the first electronic device; or

Sending the first control signal to a network access device so as to send the first control signal to the at least one second electronic device through the network access device;

the judging whether the user state meets a predetermined characteristic or not to obtain a first judgment result specifically includes:

obtaining user characteristic information of a user in the user state, specifically comprising: obtaining current motion information of the user from a motion sensor worn on a wearable device connected with the first electronic device and worn on the body of the user, or obtaining heart rate information of the user from a heart rate sensor on the wearable device; or, the current motion information of the user is obtained through detection of a motion sensor arranged in the first electronic equipment;

judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain a first judgment result;

the preset features are in a disturbance-free state, and the working state matched with the preset features is in a disturbance-free working state;

if the user state is detected to be changed from the disturbance-free state to the non-disturbance-free state, sending a second control signal to each second electronic device, so that each second electronic device is controlled to be adjusted from the previous non-disturbance state to the disturbance-free state based on the second control signal, wherein if part of the second electronic devices in the disturbance-free state of the user state are in the disturbance-free working state, the part of the second electronic devices do not respond to the first control instruction, and the disturbance-free working state is maintained, and if part of the second electronic devices in the disturbance-free state of the user state are in the non-disturbance-free working state, the part of the second electronic devices do not respond to the second control instruction, and the non-disturbance-free working state is maintained.

2. The method according to claim 1, wherein the determining whether the user status satisfies the predetermined characteristic based on the user characteristic information to obtain the first determination result specifically includes:

judging whether the current motion information is matched with preset motion information or not, and obtaining a first judgment result; or

And judging whether the current heart rate information is matched with preset heart rate information or not, and obtaining the first judgment result.

3. The method according to claim 1, wherein the determining whether the user status satisfies the predetermined characteristic based on the user characteristic information to obtain the first determination result specifically includes:

judging whether the current motion information is matched with preset motion information or not, and obtaining a second judgment result; and

judging whether the current respiration information is matched with preset heart rate information or not, and obtaining a third judgment result;

judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result;

when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic.

4. An electronic device, the electronic device being a first electronic device, the first electronic device being a mobile phone, the electronic device comprising:

the first judging unit is used for judging whether the user state meets a preset characteristic or not and obtaining a first judging result;

the first generation unit is used for generating a first control signal when the first judgment result is yes;

the first sending unit is used for sending the first control signal to at least one second electronic device, so that the at least one second electronic device controls the current working state to be a working state matched with the preset characteristic based on the first control signal;

the first sending unit specifically includes:

a first sending module, configured to broadcast the first control signal to the at least one second electronic device through a broadcast transceiver module disposed in the first electronic device; or

The second sending module is used for sending the first control signal to a network access device so as to send the first control signal to the at least one second electronic device through the network access device;

the first judging unit specifically includes:

the first obtaining module is used for obtaining the user characteristic information when the user is in the user state;

the first judgment module is used for judging whether the user state meets the preset characteristics or not based on the user characteristic information to obtain a first judgment result;

the first obtaining module specifically includes:

a first obtaining sub-module for obtaining current motion information of the user from a motion sensor connected to the first electronic device and worn on the wearing device on the body of the user, or

Obtaining heart rate information of the user from a heart rate sensor on the wearable device;

or, the first obtaining module specifically includes:

the second obtaining submodule is used for detecting and obtaining current motion information of the user through a motion sensor arranged in the first electronic equipment;

the preset features are in a disturbance-free state, and the working state matched with the preset features is in a disturbance-free working state;

if the electronic equipment detects that the user state is changed from the disturbance-free state to the non-disturbance-free state, second control signals are sent to the second electronic equipment, so that the second electronic equipment is adjusted to be in the wake-up state from the previous non-disturbance state based on the control of the second control signals, wherein if part of the second electronic equipment in the disturbance-free state is in the disturbance-free working state, the part of the second electronic equipment does not respond to the first control instruction and maintains the disturbance-free working state, and if part of the second electronic equipment in the non-disturbance working state is in the non-disturbance-free working state, the part of the second electronic equipment does not respond to the second control instruction and maintains the non-disturbance-free working state.

5. The electronic device of claim 4, wherein the first determining module specifically comprises:

the first judgment submodule is used for judging whether the current motion information is matched with preset motion information corresponding to the preset characteristics of the user state or not to obtain a first judgment result; or

And the second judgment submodule is used for judging whether the current heart rate information is matched with preset heart rate information corresponding to the preset characteristics of the user state or not and obtaining the first judgment result.

6. The electronic device of claim 4, wherein the first determining module specifically comprises:

the first judgment submodule is used for judging whether the current motion information is matched with preset motion information or not to obtain a second judgment result;

the third judgment submodule is used for judging whether the current respiration information is matched with preset heart rate information corresponding to the preset characteristics of the user state or not to obtain a third judgment result;

judging whether the user state meets the preset characteristics or not based on the second judgment result and the third judgment result to obtain the first judgment result;

when the second judgment result and the third judgment result are both yes, the first judgment result is yes, and the user state is indicated to meet the preset characteristic.

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