CN116842494A - Equipment control method and system based on big data - Google Patents

Abstract

The application is applicable to the field of computers, and provides a device control method and a system based on big data, wherein the method comprises the following steps: starting a default working mode of the functional equipment based on big data, wherein the default working mode comprises a first working mode; identifying verification information of a user and acquiring first intention information of the user on the functional equipment according to an identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode; if a user is one of a plurality of appointed users, a first control instruction is generated according to the first intention information, and the functional equipment is regulated and controlled according to the first control instruction, so that the functional equipment enters a second working mode.

Description

Equipment control method and system based on big data

Technical Field

The application belongs to the field of computers, and particularly relates to a device control method and system based on big data.

Background

The device control method is a method for controlling devices through various means, and is a very important ring in modern production and life, and is directly related to production efficiency and user experience.

When a plurality of devices and a multi-user scene are involved in the prior art, the devices are controlled and managed by special persons generally so as to achieve the purpose of parameter adjustment in the following modes, such as adjustment of the working time length of a certain module of the devices; volume adjustment in sound play mode; image quality adjustment in video playback mode, and the like.

Above prior art, generally need the special personnel on duty when adjusting equipment in corresponding scene, the flexibility ratio of regulation and control is relatively poor.

Disclosure of Invention

The embodiment of the application aims to provide a device control method and a device control system based on big data, which aim to solve the problems in the background technology.

In a first aspect, an embodiment of the present application provides a device control method based on big data, where the method includes:

starting a default working mode of the functional equipment based on big data, wherein the default working mode comprises a first working mode;

identifying verification information of a user and acquiring first intention information of the user on the functional equipment according to an identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode;

If a certain user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, and regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode;

if a user is not one of a plurality of specified users, judging whether the user is associated with at least one of the plurality of specified users;

if the first intention information is associated with the second intention information, generating a second control instruction according to the first intention information, and regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third working mode, wherein the third working mode is a sub-mode of the second working mode.

In a possible implementation manner of the first aspect, the default operation mode of the big data based on start function device includes:

counting historical working data of a plurality of functional devices in a normal working state, wherein the historical working data comprises historical working parameters;

matching the historical working data with the current working environment of the functional equipment to obtain a first parameter range;

counting the expected parameter range of the group user to the functional equipment;

an intersection part of the first parameter range and the expected parameter range is calculated, and the intersection part is used as a selection range of the first working parameter of the first working mode.

In another possible implementation manner of the first aspect, the identifying authentication information of a user and obtaining, according to an identification result, first intention information of the user to the functional device includes:

detecting a first distance between a user and a function device;

when the first distance reaches a set distance, acquiring display verification information of a certain user;

when the display verification information passes the verification, indicating the functional equipment to display an identity verification interface;

when the identity information acquired through the identity verification interface accords with the set identity information, displaying a first intention information input interface through the functional equipment and acquiring first intention information.

In a further possible implementation manner of the first aspect, the determining whether the certain user is associated with at least one of a plurality of designated users includes:

judging whether a user is an authorized user of at least one appointed user in a plurality of appointed users or not;

if the user is determined to be the authorized user of at least one of the specified users, the user is determined to be associated with at least one of the specified users;

if it is determined that the certain user is not an authorized user of the specified user, it is determined that the certain user is not associated with the specified user.

In another possible implementation manner, the determining whether the user is an authorized user of at least one of the specified users includes:

acquiring an authorization identifier input by a user, capturing first identification information of the user, and searching a matched first authorization identifier in an authorization identifier list of a designated user according to the authorization identifier;

if so, acquiring a user identification of the appointed user according to the authorized identification list;

and sending the first identification information to the first terminal of the appointed user according to the user identification so as to acquire the authorization information fed back by the first terminal, and judging that a certain user is an authorized user of at least one appointed user in a plurality of appointed users when the authorization information is permission authorization, otherwise, judging that the certain user is not the authorized user of the appointed user.

In another possible implementation manner, the determining whether the user is an authorized user of at least one of the specified users includes:

a wireless connection request is sent outwards to request to connect a second terminal, wherein the second terminal is an authorized terminal of a specific user, and the wireless connection request is associated with a specified feedback time length;

When feedback information of the second terminal is received within a specified feedback time, determining that a certain user is an authorized user of at least one specified user in a plurality of specified users, wherein the feedback information comprises an authentication passing identifier of second identification information of the certain user;

and when the feedback information of the second terminal is not received within the specified feedback time, judging that a certain user is not an authorized user of the designated user.

In another possible implementation manner, generating the second control instruction according to the first intention information includes:

the method comprises the steps of sending first intention information to a second terminal, and obtaining information to be verified returned by the second terminal, wherein the information to be verified comprises second intention information and positioning information of the second terminal, and the second intention information is used for representing the supplement and correction of the first intention information;

and when the positioning information accords with a preset positioning range according to the information to be verified, converting the second intention information into a second control instruction.

In a second aspect, with reference to the first aspect, an embodiment of the present application provides a default operation mode, and a method associated with the default operation mode for switching the operation mode is further related to the method, where the method includes:

Acquiring preference parameters of a main user on the functional equipment, and taking the preference parameters as second working parameters of a fourth working mode;

judging whether the deviation between the preference parameter and the intersection part is larger than a set threshold value or not;

if yes, acquiring the reduced number change information of the group users in the functional area;

determining the change amount of the first working parameter to the preference parameter according to the people reduction change information;

and changing the first working parameter according to the change amount so that the working parameter of the functional equipment changes from the first working parameter to the preference parameter along with the reduction of group users.

As an extension of the second aspect, the method further includes:

detecting a change in the number of real-time persons in the functional area when the deviation of the preference parameter and the intersection part is not greater than a set threshold;

when the number of real-time people in the functional area reaches the preset number of people, the first working mode is switched to the fourth working mode.

In a third aspect, an embodiment of the present application proposes a device control system based on big data, the system including:

the starting module is used for starting a default working mode of the functional equipment based on big data, wherein the default working mode comprises a first working mode;

The intention information acquisition module is used for identifying verification information of a certain user and acquiring first intention information of the certain user on the functional equipment according to the identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode;

the judging and regulating module is used for: if a user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode, and if the user is not one of the plurality of appointed users, judging whether the user is associated with at least one of the plurality of appointed users;

and the association regulation and control module is used for generating a second control instruction according to the first intention information when associating, regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third working mode, wherein the third working mode is a sub-mode of the second working mode.

According to the equipment control method and system based on big data, verification information of a user is identified, and first intention information of the user to the functional equipment is obtained according to the identification result; if a certain user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, and regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode; if a user is not one of a plurality of specified users, judging whether the user is associated with at least one of the plurality of specified users; if the first intention information is associated with the second operating mode, generating a second control instruction according to the first intention information, and regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third operating mode, wherein the third operating mode is a sub-mode of the second operating mode; even if the multifunctional equipment exists, the user can be prevented from randomly regulating and controlling the multifunctional equipment, a plurality of working modes of the functional equipment can be effectively controlled under the multi-user condition through the setting and the identification of the appointed user and the non-appointed user, the working modes cannot interfere with each other, no special person is required to watch, the flexibility of regulation and control is high, and the use experience of multiple users is improved.

Drawings

Fig. 1 is a main flow chart of a device control method based on big data.

Fig. 2 is a flowchart of a default operation mode of the function device is turned on based on big data in the device control method based on big data.

Fig. 3 is a flowchart for identifying authentication information of a user and acquiring first intention information of the user to a function device according to the identification result in a device control method based on big data.

Fig. 4 is a flowchart of a method for controlling a device based on big data to determine whether the certain user is associated with at least one of a plurality of designated users.

Fig. 5 is a flowchart of generating a second control instruction according to the first intention information in a device control method based on big data.

Fig. 6 is a flowchart for switching operation modes in a device control method based on big data.

Fig. 7 is a main structural diagram of a device control system based on big data.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

The equipment control method and system based on big data provided by the invention solve the technical problems in the background technology.

As shown in fig. 1, a main flow chart of a device control method based on big data according to an embodiment of the present invention includes:

step S10: starting a default working mode of the functional equipment based on big data, wherein the default working mode comprises a first working mode;

the default working mode comprises a first working mode under the condition of group users so as to adapt to the actual demands of the group users, and the working mode of the functional equipment realizes the adjustment of the following parameters: for example, volume (in dB) adjustment in the audio playback mode (of the video playback device), such as adjustment of the operating time of a certain module of the (arbitrary) device, and further such as adjustment of image quality (in resolution, P) in the video playback mode (of the video playback device), etc. (mainly based on broadband considerations);

step S11: identifying verification information of a user and acquiring first intention information of the user on the functional equipment according to an identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode;

Some user may be at least one of a general user, a designated user, and a plurality of associated designated users, for the general user, the adjustment of the function device needs to be limited, the designated user has the adjustment authority, and the designated user includes a main user and a user designated by the main user; associating at least one of the plurality of designated users includes a user authorized by the designated user; judging identity information of a user when the first intention information is acquired, and executing subsequent steps only when the judgment result shows that the user is at least one of a designated user or a plurality of associated designated users; namely judging whether the certain user is one of a plurality of designated users or not;

step S12: if a certain user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, and regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode;

a user is one of a plurality of appointed users, and the appointed user is a main user or the user appointed by the main user, and of course, the main user can also directly regulate and control through remote control when regulating and controlling; when a certain user is one of a plurality of appointed users, the regulation and control information such as specific parameters or parameter ranges in the second working mode can be continuously supplemented, and ideal image quality definition adjustment in the video playing mode is realized; for example, the adjustment of the working time of a certain module of the equipment is realized;

Step S13: if a user is not one of a plurality of specified users, judging whether the user is associated with at least one of the plurality of specified users;

when a certain user is not one of a plurality of specified users, considering that the number of the function devices in the function area may be a plurality of, and on the basis of limiting the number of the specified users, the specified users may not conveniently perform the management of directly participating in the function devices, thereby judging whether the certain user is associated with at least one of the plurality of specified users; whether a user is associated with at least one of a number of designated users includes: determining that a user is an authorized user of at least one of a plurality of designated users;

step S14: if the first intention information is associated with the second intention information, generating a second control instruction according to the first intention information, and regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third working mode, wherein the third working mode is a sub-mode of the second working mode.

When the function device is associated, a user can participate in the management of the function device even if the user is not a designated user, specifically, the second control instruction can be the supplement and correction of the first intention information, and the function device enters the third working mode according to the control instruction similar to the function device entering the second working mode, and the third working mode is a sub-mode of the second working mode, so that the third working mode does not have great conflict with the regulation and control mode of the designated user, and the method comprises the steps of allowing parameter modification or specific parameter selection to be carried out on the second working mode in a small range, such as fine adjustment of ideal image quality definition in a video playing mode; such as a specific selection of the operating time of a certain module of the device, etc.

When the method is applied, the default working mode of the functional equipment is started based on big data, and the default working mode comprises a first working mode; identifying verification information of a user and acquiring first intention information of the user on the functional equipment according to an identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode; if a certain user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, and regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode; if a user is not one of a plurality of specified users, judging whether the user is associated with at least one of the plurality of specified users; if the first intention information is associated with the second operating mode, generating a second control instruction according to the first intention information, and regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third operating mode, wherein the third operating mode is a sub-mode of the second operating mode; even if the multifunctional equipment exists, the user can be prevented from randomly regulating and controlling the multifunctional equipment, a plurality of working modes of the functional equipment can be effectively controlled under the multi-user condition through the setting and the identification of the appointed user and the non-appointed user, the working modes cannot interfere with each other, no special person is required to watch, the flexibility of regulation and control is high, and the use experience of multiple users is improved.

As shown in fig. 2, as a preferred embodiment of the present invention, the default operation modes of the big data based on-function device include:

step S101: counting historical working data of a plurality of functional devices in a normal working state, wherein the historical working data comprises historical working parameters;

historical working data in a normal working state, namely, the historical working data with fault parameters does not exist; the historical operating parameters generally correspond to at least one of temperature, humidity, and season;

step S102: matching the historical working data with the current working environment of the functional equipment to obtain a first parameter range;

when at least one condition of temperature, humidity and season in the current environment is matched with the historical working data, selecting a corresponding historical working parameter as a first parameter range to adjust the working time of a certain module of the functional equipment, adjust parameters such as sound volume and the like;

step S103: counting the expected parameter range of the group user to the functional equipment;

the group user refers to the situation that multiple users possibly exist in the functional area, and the expected parameters of the multiple users on the functional equipment possibly have certain difference, so that an expected parameter range is obtained; typically giving a first parameter range for group user selection;

Step S104: an intersection part of the first parameter range and the expected parameter range is calculated, and the intersection part is used as a selection range of the first working parameter of the first working mode.

The intersection part is used for meeting the normal working parameters, wherein the working parameters are the working parameters of the functional equipment for normal and stable working, and meet the expectations of group users.

It can be understood that by calculating the intersection part of the first parameter range and the expected parameter range, the calculation result is used as the selection range in the first working mode, so that two aspects of group users and stable normal working can be considered.

As shown in fig. 3, as a preferred embodiment of the present invention, the identifying authentication information of a certain user and obtaining first intention information of the certain user to the function device according to the identification result includes:

step S111: detecting a first distance between a user and a function device;

identifying the distance between a user and the functional device by an inductive sensor on the functional device; or the image information in front of the functional equipment is identified, so that the landmark position of a certain user in front of the functional equipment is judged, and whether the certain user reaches a set distance is judged;

Step S112: when the first distance reaches a set distance, acquiring display verification information of a certain user;

when the first distance reaches a set distance (a set threshold value), acquiring display verification information displayed or input by a certain user through the functional equipment, wherein the display verification information represents that the identity verification interface is awakened after verification is passed; the display verification information comprises at least one of gesture information, posture information and the like, such as making a five-finger open gesture, standing up gesture and the like; the method can avoid displaying the identity authentication interface each time, thereby achieving the purpose of preliminary screening;

step S113: when the display verification information passes the verification, indicating the functional equipment to display an identity verification interface;

when the display verification information is consistent with the preset verification information, if the gesture information, the posture information and the like are consistent with the set gesture and the set gesture, the display verification information is judged to pass verification, and an identity verification interface is displayed through functional equipment (awakening);

step S114: when the identity information acquired through the identity verification interface accords with the set identity information, displaying a first intention information input interface through the functional equipment and acquiring first intention information.

After the identity verification interface is displayed, prompting to verify the identity information, wherein the identity information comprises account password information or electronic card information of a specified user, and the verification shows that the identity information is matched with the set identity information (accords with the account password set by the specified user or the electronic card passes through) and then a certain user is the specified user or the authorized user thereof; at this time, first intention information is acquired. For example: the selection or input content is as follows: a first operating parameter of the first operating mode is modified.

The steps ensure a reasonable source of the first intention information input, and for an unreasonable source, the user cannot input the first intention information at all. In this embodiment, only a simpler identity determination is actually required, and detailed authorization determination is performed later on for detailed information of a certain user.

As shown in fig. 4, in combination with the above embodiment, optionally, the determining whether the certain user is associated with at least one of a plurality of designated users includes:

step S121: judging whether a user is an authorized user of at least one appointed user in a plurality of appointed users or not;

namely, judging whether a user is at least one authorized user of the appointed user;

Step S122: if the user is determined to be the authorized user of at least one of the specified users, the user is determined to be associated with at least one of the specified users;

preferably, the determining whether the user is an authorized user of at least one designated user of the plurality of designated users includes:

the steps are as follows: acquiring an authorization identifier input by a user, capturing first identification information of the user, and searching a matched first authorization identifier in an authorization identifier list of a designated user according to the authorization identifier;

the acquisition of the authorization identification and the like are generally completed on the functional equipment, and the authorization identification comprises a verification password or a verification character set by a designated user; the verification password is generally a literal password, and the verification characters are numbers and/or the composition of symbols; for example, "today' S functional devices run well", "S123", etc., the verification password has a certain timeliness; that is, the authorization identification list is updated, the designated user notifies a certain user of the first authorization identifications, respectively, and stores the first authorization identifications in the authorization identification list (of the function device); the function device may verify the input authorization identification to determine whether the input authorization identification is consistent with the first authorization identification; the authorization identifiers in the authorization identifier list are all different; the first identification information comprises face information and is used for a designated user to make judgment;

The steps are as follows: if so, acquiring a user identification of the appointed user according to the authorized identification list; a corresponding relation exists between a first authorization identifier and a user identifier in the authorization identifier list; when the first identification information is not found, the first identification information which is already captured needs to be cleared; when the input authorization identifier is consistent with the first authorization identifier, that is, the first authorization identifier is found;

the steps are as follows: according to the user identification, the first identification information is sent to a first terminal of the appointed user so as to acquire authorization information fed back by the first terminal, when the authorization information is permission authorization, the user is judged to be the authorized user of at least one appointed user in a plurality of appointed users, otherwise, the user is judged not to be the authorized user of the appointed user;

according to the user identification, first identification information is sent to a first terminal bound with the user identification, and a binding relationship exists between the equipment identification of the first user terminal and the user identification; after receiving the first identification information, the first terminal sends a confirmation prompt, and the appointed user can carry out confirmation operation on the first identification information to generate authorization information for permitting authorization or refusing authorization information for disapproval authorization, wherein the former is a condition for judging that a certain user is an authorized user of at least one appointed user in a plurality of appointed users.

The embodiment can ensure that the appointed user is subjected to timely authorization association, and ensures the confirmation and the sending selectivity of the first identification information due to the user identification, thereby ensuring the effective identification source of the first identification information and improving the authorized probability of the first identification information.

The application further provides another extended embodiment;

the determining whether a user is an authorized user of at least one designated user of the plurality of designated users includes:

the steps are as follows: a wireless connection request is sent outwards to request to connect a second terminal, wherein the second terminal is an authorized terminal of a specific user, and the wireless connection request is associated with a specified feedback time length;

the server or the functional equipment sends a wireless connection request outwards, and because the second terminal is closer, wireless connection of the two terminals can be completed based on preset pairing conditions (such as pairing of equipment identifiers of the functional equipment and identifiers of the second terminal);

for example, zigbee connection, zigbee is effectively a short-range, low-power wireless communication technology. The maximum transmission rate is 250Kbps, and the system generally works in a 2.4G frequency band, so that the requirements of large capacity and high safety can be met;

And for example, the Bluetooth connection does not need network support, and has the advantages of low power consumption and rapid connection.

The steps are as follows: when feedback information of the second terminal is received within a specified feedback time, determining that a certain user is an authorized user of at least one specified user in a plurality of specified users, wherein the feedback information comprises an authentication passing identifier of second identification information of the certain user;

after the wireless connection is finished, based on a program preset in the second terminal, the second terminal finishes the authorization verification of the user where the second terminal is located, the authorization verification specifically comprises locating a first position of the second terminal, and sending an authorization verification prompt when the number of people in a position area where the first position is located is identified to be 1 so as to acquire second identification information input by a certain user, the second identification information comprises at least one of face information, fingerprint information, pulse information and the like, the second terminal compares the second identification information with built-in preset verification information, and when the two pieces of information meet a set condition, the second terminal judges that a certain user is an authorized user of a designated user and generates an authentication passing identifier, and the set condition comprises the satisfaction of a second similar threshold or a phase difference threshold; after the verification is finished, the second terminal feeds back feedback information which is qualified in verification to the server or the functional equipment, or does not capture feedback information of the second identification information; the feedback information needs to be in a specified feedback time length, namely, the timing is started from the sending of the wireless connection request;

The steps are as follows: and when the feedback information of the second terminal is not received within the specified feedback time, judging that a certain user is not an authorized user of the designated user.

The step corresponds to the last step, and when feedback information of the second terminal is not received within a specified feedback time length, the authorization verification is failed; under another condition, authorization verification cannot be completed, indicating that it is determined that a certain user is not an authorized user of the specified user, at which time it is determined that a certain user is not associated with the specified user.

Step S123: if it is determined that the certain user is not an authorized user of the specified user, it is determined that the certain user is not associated with the specified user.

From the above, the user identifier and the method for verification based on the first terminal are set, so that the effective identification source of the first identification information is ensured; the method for verifying based on the second terminal ensures that a user performs effective authorization verification on the site of the functional area, so that the authorization of a specified user to the user is converted into effective execution of control instructions, the method can be used under the condition that the specified user is inconvenient, and the two methods have the advantages and can be selectively implemented. The implementation conditions may be determined as: and determining whether the specified user sets a do not disturb condition in advance at the first terminal, if so, selecting a second implementation, and otherwise, selecting the first implementation.

Under a first implementation condition, generating a second control instruction according to the first intent information includes: when the authorization information is permission authorization, generating a second control instruction directly according to the first intention information.

Under a second implementation condition, as shown in fig. 5, as a preferred embodiment of the present invention, generating the second control instruction according to the first intention information includes:

step S151: the method comprises the steps of sending first intention information to a second terminal, and obtaining information to be verified returned by the second terminal, wherein the information to be verified comprises second intention information and positioning information of the second terminal, and the second intention information is used for representing the supplement and correction of the first intention information;

generally, the first intention information is sent to the second terminal through the functional device, and it should be noted that the second terminal is also authorized by the main user, and a user may carry the second terminal to complete the determination of the second intention information and convert the second intention information into the second control instruction in an auxiliary manner;

after the second terminal receives the first intention information, the second terminal directly acquires the modification or confirmation operation of a user on the first intention information at the moment because the identity information of the holder (the user) is verified, so as to generate second intention information, acquires own positioning information, packages the second intention information and the positioning information and then sends the packaged second intention information and the positioning information to the functional equipment;

Step S152: and when the positioning information accords with a preset positioning range according to the information to be verified, converting the second intention information into a second control instruction. Referring to the conversion process of the first intention information, there is no difficulty in converting the second intention information into the second control instruction.

The positioning information needs to satisfy a preset positioning range, where the preset positioning range is a range which is not far from the functional device and is located in the functional area, for example, a specified area with a specified distance from the functional device; thus, a certain user is characterized to determine that the position capable of regulating and controlling the working parameters of the functional equipment is entered, and further confirmation or modification of the first intention information can be completed.

Due to the facilities of steps such as authorization and verification of the second terminal, interaction related to second intention information can be completed nearby, convenience in changing working parameters of the functional equipment by the appointed user under the condition of non-main users is improved, effectiveness of generating a control instruction based on the intention information can be determined, and random change of the working parameters of the functional equipment under the condition of multiple users is avoided.

As shown in fig. 6, as another expanded application point of the present application, an embodiment of the present application provides a method for switching operation modes, where the default operation mode further includes a fourth operation mode, and in combination with the fourth operation mode, the method includes:

Step S20: acquiring preference parameters of a main user on the functional equipment, and taking the preference parameters as second working parameters of a fourth working mode;

the preference parameter of the main user is determined by combining the preference of the main user to the functional equipment, and the preference parameter can be a parameter range or at least one specific parameter; for example, the preference parameter is a volume range (in dB) in the sound play mode, and for example, the preference parameter is a definition (in resolution, P) of the image in the video play mode; for example, the working time of a certain module of the equipment is adjusted (the unit is seconds, s) and the like;

step S21: judging whether the deviation between the preference parameter and the intersection part is larger than a set threshold value or not;

considering the influence of factors such as the dip or the sudden rise of relevant parameters, which possibly affect the experience of a user, the parameter changing capability (such as the power boosting capability) of the functional device and the like on the service life of the functional device, the size between the deviation and the set threshold value is considered;

step S22: if yes, acquiring the reduced number change information of the group users in the functional area;

specifically, the reduced number of people change can be judged by identifying the reduced number of people of the group users in the functional area in real time, so that reduced number of people change information is obtained;

Step S23: determining the change amount of the first working parameter to the preference parameter according to the people reduction change information;

when the number of people in the first period decreases to a certain level, the amount of change in the increase or decrease of the preference parameter can be determined from the level and parameter determination table;

for example, the number of people is detected every 5 minutes, and when the number of people is reduced by 5 people, the preference parameter is reduced by 0.5 units; when the number of people is reduced by 10, the preference parameter is reduced by 0.8 units; for the change rates of the number of persons and preference parameters, for example, the base number of persons where the master user is located is set to a, the number of persons of the total user is set to B, and the deviation is greater than the set threshold and a is reached, so that the average change rate is determined as:in practice it is not necessarily required to change the preference parameter strictly in terms of the average rate of change; the working parameter is changed from the first working parameter to the preference parameter as long as the preference parameter is changed around the average change rate; in connection with the foregoing examples, one simple algorithm is: the change amount of the equal steps corresponds to the change amount of the first working parameters of the equal steps;

step S24: changing the first working parameter according to the change amount so that the working parameter of the functional equipment changes from the first working parameter to the preference parameter along with the reduction of the group users;

The value of the first working parameter after being changed is the sum value (positive and negative of the change amount) of the parameter value before being changed, and according to the method, the first working parameter is continuously changed, so that the working parameter of the functional equipment is changed from the first working parameter to the preference parameter, and finally the first working parameter can be enabled to trend towards the preference parameter.

Step S25: detecting a change in the number of real-time persons in the functional area when the deviation of the preference parameter and the intersection part is not greater than a set threshold;

of course, the deviation of the intersection portion may not be greater than the set threshold value in consideration of the actual situation variation; in this case, the number of real-time people in the functional area is directly considered;

similar to step S22, the people number identification can be realized by real-time target identification in the monitored image in the functional area, for example, based on the two-stage detection algorithm in deep learning, which is not difficult;

step S26: when the number of real-time people in the functional area reaches the preset number of people, the first working mode is switched to the fourth working mode.

The step is actually to adjust the first working parameter to the preference parameter directly when the number of people in real time reaches the base number of people where the main user is located, and the amplitude of the sudden drop or the sudden rise of the parameter in the adjustment is smaller, which belongs to the normal adjusting range.

It can be understood that the above-mentioned consideration is that the number of people is reduced, and the method for optimizing and adjusting the default operation mode to the fourth operation mode can improve the user experience and the service life of the protection function device, and another corresponding situation is that the number of people is increased, and in this case, when the number of people is gradually increased, the method can be executed according to the reverse steps of the above-mentioned steps, which is not difficult.

As another preferred embodiment of the present invention, as shown in fig. 7, in another aspect, a big data based device control system includes:

an opening module 100, configured to open a default operation mode of the functional device based on the big data, where the default operation mode includes a first operation mode;

the intention information obtaining module 200 is configured to identify verification information of a user and obtain first intention information of the user for the functional device according to the identification result, where the first intention information is used to characterize modification of a first working parameter of a first working mode;

the judgment and control module 300 is configured to: if a user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode, and if the user is not one of the plurality of appointed users, judging whether the user is associated with at least one of the plurality of appointed users;

And the association regulation module 400 is configured to generate a second control instruction according to the first intention information when associating, and regulate the functional device according to the second control instruction, so that the functional device enters a third working mode, where the third working mode is a sub-mode of the second working mode.

It should be noted that, with reference to the description of the specific implementation of the device control method based on big data in the foregoing embodiment, the present system corresponds to the implementation method of the method completely, and will not be described herein.

The embodiment of the invention provides a device control method based on big data, and provides a device control system based on big data, wherein the default working mode comprises a first working mode by starting the default working mode of the functional device based on the big data; identifying verification information of a user and acquiring first intention information of the user on the functional equipment according to an identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode; if a certain user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, and regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode; if a user is not one of a plurality of specified users, judging whether the user is associated with at least one of the plurality of specified users; if the first intention information is associated with the second operating mode, generating a second control instruction according to the first intention information, and regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third operating mode, wherein the third operating mode is a sub-mode of the second operating mode; even if the multifunctional equipment exists, the user can be prevented from randomly regulating and controlling the multifunctional equipment, a plurality of working modes of the functional equipment can be effectively controlled under the multi-user condition through the setting and the identification of the appointed user and the non-appointed user, the working modes cannot interfere with each other, no special person is required to watch, the flexibility of regulation and control is high, and the use experience of multiple users is improved.

In order to be able to load the method and system described above to function properly, the system may include more or less components than those described above, or may combine some components, or different components, in addition to the various modules described above, for example, may include input and output devices, network access devices, buses, processors, memories, and the like.

The processor may be a central processing unit (Central Processing Unit, CPU), other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the above system, and various interfaces and lines are used to connect the various parts.

The memory may be used to store a computer and a system program and/or module, and the processor may perform the various functions described above by running or executing the computer program and/or module stored in the memory and invoking data stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function (such as an information acquisition template presentation function, a product information distribution function, etc.), and the like. The storage data area may store data created according to the use of the berth status display system (e.g., product information acquisition templates corresponding to different product types, product information required to be released by different product providers, etc.), and so on. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart Media Card (SMC), secure Digital (SD) Card, flash Card (Flash Card), at least one disk storage device, flash memory device, or other volatile solid-state storage device.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in various embodiments may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. A device control method based on big data, the method comprising:

starting a default working mode of the functional equipment based on big data, wherein the default working mode comprises a first working mode;

identifying verification information of a user and acquiring first intention information of the user on the functional equipment according to an identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode;

if a certain user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, and regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode;

if a user is not one of a plurality of specified users, judging whether the user is associated with at least one of the plurality of specified users;

if the first intention information is associated with the second intention information, generating a second control instruction according to the first intention information, and regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third working mode, wherein the third working mode is a sub-mode of the second working mode.

2. The big data based device control method of claim 1, wherein the default operation mode of the big data based on-function device comprises:

counting historical working data of a plurality of functional devices in a normal working state, wherein the historical working data comprises historical working parameters;

matching the historical working data with the current working environment of the functional equipment to obtain a first parameter range;

counting the expected parameter range of the group user to the functional equipment;

an intersection part of the first parameter range and the expected parameter range is calculated, and the intersection part is used as a selection range of the first working parameter of the first working mode.

3. The big data based device control method of claim 2, wherein the default operation mode further comprises a fourth operation mode, the method further comprising:

acquiring preference parameters of a main user on the functional equipment, and taking the preference parameters as second working parameters of a fourth working mode;

judging whether the deviation between the preference parameter and the intersection part is larger than a set threshold value or not;

if yes, acquiring the reduced number change information of the group users in the functional area;

determining the change amount of the first working parameter to the preference parameter according to the people reduction change information;

And changing the first working parameter according to the change amount so that the working parameter of the functional equipment changes from the first working parameter to the preference parameter along with the reduction of group users.

4. The big data based device control method of claim 3, wherein the method further comprises:

detecting a change in the number of real-time persons in the functional area when the deviation of the preference parameter and the intersection part is not greater than a set threshold;

when the number of real-time people in the functional area reaches the preset number of people, the first working mode is switched to the fourth working mode.

5. The big data based device control method of claim 1, wherein the identifying authentication information of a certain user and obtaining first intention information of the certain user to the function device according to the identification result includes:

detecting a first distance between a user and a function device;

when the first distance reaches a set distance, acquiring display verification information of a certain user;

when the display verification information passes the verification, indicating the functional equipment to display an identity verification interface;

when the identity information acquired through the identity verification interface accords with the set identity information, displaying a first intention information input interface through the functional equipment and acquiring first intention information.

6. The big data based device control method of claim 1, wherein said determining whether the certain user is associated with at least one of a plurality of designated users comprises:

judging whether a user is an authorized user of at least one appointed user in a plurality of appointed users or not;

if the user is determined to be the authorized user of at least one of the specified users, the user is determined to be associated with at least one of the specified users;

if it is determined that the certain user is not an authorized user of the specified user, it is determined that the certain user is not associated with the specified user.

7. The big data based device control method of claim 6, wherein said determining whether a user is an authorized user of at least one of a plurality of designated users comprises:

acquiring an authorization identifier input by a user, capturing first identification information of the user, and searching a matched first authorization identifier in an authorization identifier list of a designated user according to the authorization identifier;

if so, acquiring a user identification of the appointed user according to the authorized identification list;

and sending the first identification information to the first terminal of the appointed user according to the user identification so as to acquire the authorization information fed back by the first terminal, and judging that a certain user is an authorized user of at least one appointed user in a plurality of appointed users when the authorization information is permission authorization, otherwise, judging that the certain user is not the authorized user of the appointed user.

8. The big data based device control method of claim 6 or 7, wherein the determining whether a user is an authorized user of at least one of the plurality of specified users comprises:

a wireless connection request is sent outwards to request to connect a second terminal, wherein the second terminal is an authorized terminal of a specific user, and the wireless connection request is associated with a specified feedback time length;

when feedback information of the second terminal is received within a specified feedback time, determining that a certain user is an authorized user of at least one specified user in a plurality of specified users, wherein the feedback information comprises an authentication passing identifier of second identification information of the certain user;

and when the feedback information of the second terminal is not received within the specified feedback time, judging that a certain user is not an authorized user of the designated user.

9. The big data based device control method of claim 8, wherein generating a second control instruction according to the first intention information includes:

the method comprises the steps of sending first intention information to a second terminal, and obtaining information to be verified returned by the second terminal, wherein the information to be verified comprises second intention information and positioning information of the second terminal, and the second intention information is used for representing the supplement and correction of the first intention information;

And when the positioning information accords with a preset positioning range according to the information to be verified, converting the second intention information into a second control instruction.

10. A big data based device control system, the system comprising:

the starting module is used for starting a default working mode of the functional equipment based on big data, wherein the default working mode comprises a first working mode;

the intention information acquisition module is used for identifying verification information of a certain user and acquiring first intention information of the certain user on the functional equipment according to the identification result, wherein the first intention information is used for representing modification of a first working parameter of a first working mode;

the judging and regulating module is used for: if a user is one of a plurality of appointed users, generating a first control instruction according to the first intention information, regulating and controlling the functional equipment according to the first control instruction so as to enable the functional equipment to enter a second working mode, and if the user is not one of the plurality of appointed users, judging whether the user is associated with at least one of the plurality of appointed users;

and the association regulation and control module is used for generating a second control instruction according to the first intention information when associating, regulating and controlling the functional equipment according to the second control instruction so as to enable the functional equipment to enter a third working mode, wherein the third working mode is a sub-mode of the second working mode.