CN111443564A - Electronic equipment and data processing method - Google Patents

Abstract

The embodiment of the application discloses electronic equipment and a data processing method, wherein target equipment comprising a water mist generation assembly and a projection assembly acquires data to be displayed; processing the data to be displayed based on the data to be displayed to obtain processed data; and controlling a projection assembly to project the processed data on a water mist curtain generated by the water mist generation assembly. The electronic equipment and the data processing method can process data to be displayed, and then the processed data are projected to a water mist curtain generated by the water mist generation assembly through the projection assembly for visual display, so that a more fresh display form is provided, the user experience is favorably improved, and the requirement of a user on information display diversity is met.

Description

Electronic equipment and data processing method

Technical Field

The present application relates to the field of electronic devices, and more particularly, to an electronic device and a data processing method.

Background

With the continuous development of electronic information technology, various types of data are generated at any time in daily life, and the data can be transmitted to users in a form of electronic screen display or a form of voice playing. However, the above-mentioned form of inputting information to the user is too monotonous to enable the user to more realistically understand the transmitted information.

Disclosure of Invention

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

the application provides an electronic device, including:

the water mist generation assembly is used for generating a water mist curtain in a first range above the electronic equipment;

the projection assembly is used for projecting data onto the water mist curtain for display;

and the processor is used for processing the acquired data to be displayed and sending the processed data obtained through processing to the projection assembly so as to project the processed data to the water mist curtain for display.

Optionally, the water mist curtain comprises a projection assembly, the projection assembly has a first distance from a central axis of the water mist curtain, and a projection direction line of the projection assembly forms a first included angle with a first plane where the central axis of the water mist curtain is located, so that the projection assembly can perform plane projection on the first plane.

Optionally, the at least two projection assemblies are arranged at a set distance from the central axis of the water mist curtain, and a second distance is arranged between the at least two projection assemblies, so that the at least two projection assemblies can perform stereoscopic projection in the first range.

Optionally, the electronic device further includes:

and the perception simulation device is used for simulating the weather parameters in the second range so that the weather parameters can be output in a form capable of being perceived.

Optionally, the sensing simulation device comprises any one or more of a temperature simulation component, a wind speed simulation component, a pressure simulation component and a humidity simulation component.

Optionally, be equipped with a plurality of water smoke circulation holes on the water smoke emergence subassembly, the area of the hole of the mid portion in a plurality of water smoke circulation holes is greater than the area of the hole of peripheral part to make the water smoke volume that the mid portion flows out bigger, promote the generation the stability of water smoke curtain.

Optionally, the electronic device further includes:

a position detection component for detecting a first position of the operating body within the first range;

the processor is further configured to: and responding to a trigger operation corresponding to the first position based on the first position.

Optionally, the processor performs processing on the data to be displayed, including performing imaging processing on the data to be displayed, to obtain image display data;

the imaging processing of the data to be displayed includes: performing real-time imaging processing on the basis of real-time data to be displayed to obtain dynamic image display data;

wherein in the case where the image presentation data includes at least two or two types, different data or different types of data have different colors.

The application also provides a data processing method, which comprises the following steps:

acquiring data to be displayed, wherein the data to be displayed is used for displaying on target equipment, and the target equipment comprises a water mist generation assembly and a projection assembly;

processing the data to be displayed based on the data to be displayed to obtain processed data;

and controlling the projection assembly to project the processed data on a water mist curtain generated by the water mist generation assembly.

Optionally, the data to be displayed is a weather parameter, and the method further includes:

and simulating the weather parameters through a perception simulation device so that the weather parameters are output in a form capable of being perceived.

According to the technical scheme, compared with the prior art, the embodiment of the application discloses the electronic equipment and the data processing method, wherein target equipment comprising a water mist generation assembly and a projection assembly acquires data to be displayed; processing the data to be displayed based on the data to be displayed to obtain processed data; and controlling a projection assembly to project the processed data on a water mist curtain generated by the water mist generation assembly. The electronic equipment and the data processing method can process data to be displayed, then the processed data are projected to a water mist curtain generated by the water mist generation assembly through the projection assembly to be visually displayed, a more fresh display form is provided, the improvement of user experience is facilitated, and the requirement of a user on information display diversity is met.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a front view of an entity structure of an electronic device disclosed in an embodiment of the present application;

fig. 2 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application;

FIG. 3 is a schematic diagram of electronic device flat panel display data disclosed in an embodiment of the present application;

fig. 4 is a front view of a physical structure of another electronic device disclosed in the embodiments of the present application;

FIG. 5 is a schematic structural diagram of a hole structure disclosed in an embodiment of the present application;

FIG. 6 is a schematic structural diagram of another hole structure disclosed in the embodiments of the present application;

FIG. 7 is a schematic structural diagram of another hole structure disclosed in the embodiments of the present application;

FIG. 8 is a schematic diagram of different data displayed in different colors according to an embodiment of the present disclosure;

fig. 9 is a flowchart of a data processing method disclosed in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 is a front view of a physical structure of an electronic device disclosed in an embodiment of the present application (only major structural components are shown in the diagram), fig. 2 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application, and in conjunction with fig. 1 and fig. 2, an electronic device 10 may include:

a water mist generating assembly 11 for generating a water mist curtain in a first range above the electronic equipment;

the projection component 12 is used for projecting data onto the water mist curtain for display;

and the processor 13 is configured to process the acquired data to be displayed and send the processed data obtained through the processing to the projection component 12, so that the projection component can project the processed data to the water mist curtain for display.

The water mist generation assembly 11 and the projection assembly 12 are respectively connected with the processor 13, so that the processor can control the working states of the water mist generation assembly 11 and the projection assembly 12 according to data display requirements. Subassembly 11 and projection subassembly 12 can set up in the inside of electronic equipment shell in the realization to the electronic equipment shell can play certain guard action to subassembly 11 and projection subassembly 12 are taken place to water smoke, and promote electronic equipment's whole aesthetic property.

As shown in fig. 2, the water mist generating module 11 may be disposed at a middle position of the electronic equipment to form a water mist curtain at a position right above the electronic equipment. It should be noted that, although the water mist generating assembly 11 is directly shown in a visible manner in fig. 2, in practical applications, the water mist generating assembly 11 may also be disposed inside a housing of an electronic device, and there may be a hole structure above the water mist generating assembly, where the hole structure may guide the water mist generated by the water mist generating assembly 11 to flow out to the top of the electronic device to a certain extent, so as to form a water mist curtain capable of meeting use requirements.

The projection assembly 12 may include one projection assembly, two projection assemblies, or more projection assemblies (shown as one projection assembly in fig. 2), and the application of different numbers of projection assemblies may enable the data projected on the water mist curtain to exhibit different projection effects, such as projecting plane display data on the water mist curtain through one projection assembly, or projecting stereo display data on the water mist curtain through at least two projection assemblies. Fig. 3 is a schematic view of plane display data of an electronic device disclosed in an embodiment of the present application, where a dotted line represents a water mist curtain, and with reference to fig. 3, in an implementation of projecting the plane display data, the plane display data is displayed on only one plane, and there is a viewing angle, for example, when a user is right in front of the electronic device, a viewing line is perpendicular to the plane, in this case, the user can accurately obtain the plane display data only in front of the electronic device or in an oblique front, and cannot recognize the plane display data on the left and right sides of the electronic device, and the back effect of the plane display data is viewed on the back of the electronic device; in the implementation of projecting the stereoscopic display effect, there is also a viewing angle, so that when the user is within a certain azimuth range of the electronic device, the user can clearly view the stereoscopic display data, and when the user is outside the azimuth range, the user can view the side or the back of the stereoscopic display data according to the position of the user relative to the electronic device.

Because in the water smoke curtain, the more close axial segment water smoke concentrates more, consequently no matter be the realization of plane show data or the realization of three-dimensional show data, the plane of projection data place or place space all should be close to the axis of water smoke curtain as far as possible to present better data display effect. The projection assembly can adopt common projection equipment, and the projection equipment with short focal length is preferably selected. The water mist generating component can adopt an ultrasonic water mist generator and the like.

The processing performed by the processor 13 on the acquired data to be displayed may be processing related to display content, where the processed data has the same or similar meaning as the representation of the data to be displayed, but the display form of the processed data is different from that of the data to be displayed. For example, the data to be displayed is tabular data or digital data, the processed data is imaging data (for example, the tabular data is converted into a bar graph and displayed), or the data to be displayed is planar image data, and the processed data is stereo image data.

This embodiment electronic equipment can treat that the data that show is handled, then will handle the back data and carry out visual show through projection subassembly projection to the water smoke curtain that the subassembly produced on the water smoke curtain, provides more fresh show form, is favorable to promoting user experience, satisfies the requirement of user to information display diversity.

In one implementation, the electronic device only includes one projection component 12, the projection component 12 has a first distance from a central axis of the water mist curtain, and a first included angle is formed between a projection direction line of the projection component 12 and a first plane where the central axis of the water mist curtain is located, so that the projection component 12 can perform plane projection on the first plane. The central axis is a plumb line.

In current projection technology, the projection direction of the projection assembly 12 cannot be in the same plane as the data display plane (corresponding to the first plane) and cannot be parallel to the data display plane. When projection direction and data show plane coincidence, can't accomplish the accurate show of projection subassembly to the projection data of first plane, and the first plane probably coincides with the axis of water smoke curtain in the realization, consequently, in this application embodiment, projection subassembly 12 with the central axis of water smoke curtain has first distance, and has certain contained angle between projection direction line and the first plane of projection subassembly, then can pass through trapezoidal correction technique for data can be on the projection of no deformation to aforementioned first plane after handling. The first distance and the first included angle can be adaptively set according to the projection focal length of the projection assembly, the first angle is not smaller than a preset angle, the preset angle is within a range acceptable by a trapezoidal correction technology, and the preset angle enables processed data projected by the projection assembly to be displayed on a first plane in a deformation-free mode when the trapezoidal correction technology is applied.

In another implementation, the electronic device includes at least two projection assemblies 12, and then the at least two projection assemblies 12 have a set distance from the central axis of the water mist curtain, and a second distance is provided between the at least two projection assemblies 12, so that the at least two projection assemblies can perform stereoscopic projection within the first range.

It should be noted that the set distances between the different projection assemblies 12 and the central axis of the water mist curtain may be the same or different. When the distances between the at least two projection assemblies and the central axis are the same, the at least two projection assemblies are positioned on the circumference line of a circle with the central axis as the center.

In order to ensure the stereoscopic projection effect, at least two projection assemblies can not be arranged at the same position, and certain distance requirements need to be met. In the case that the electronic device includes at least two projection assemblies, the at least two projection assemblies may simultaneously project to implement stereoscopic projection; of course, one of the at least two projection assemblies may also perform the planar projection independently. The first set distance and the second distance can be adaptively set according to parameters such as the projection focal length of the projection assembly.

Fig. 4 is a front view of a physical structure of another electronic device disclosed in an embodiment of the present application, and referring to fig. 4, the electronic device further includes, in addition to the water mist generating assembly 11, the projection assembly 12, and the processor 13:

and the perception simulation device 14 is connected with the processor 13 and is used for simulating the weather parameters in the second range so that the weather parameters can be output in a form capable of being perceived. So that the user can place the hand or other parts in the second range and actually feel the weather parameters output by the sensing simulation device. In application, the start and stop of the sensing simulator 14 may be controlled individually according to the instruction of the user, or may be associated with the currently displayed content of the electronic device. For example, when the electronic device shows the content as weather-related content, the corresponding perception-enabling simulation device 14 simulates the weather parameter. It should be noted that the simulation device 14 is capable of updating the simulation status in real time according to the updating of the weather parameters.

The sensing simulator 14 may include, but is not limited to, any one or more of a temperature simulator component, a wind speed simulator component, a pressure simulator component, and a humidity simulator component. In fig. 4, each analog component is represented by only one sensing analog device, and only each structure is shown in the figure, and the connection relationship of the components and the devices is not shown, but this does not limit the connection relationship of the components and the devices. In practical application, the temperature simulation component, the wind speed simulation component, the pressure simulation component, the humidity simulation component and the like can be directly connected with the processor 13.

The temperature simulation assembly comprises heating equipment, and the wind speed simulation assembly and the humidity simulation assembly comprise fan equipment, a humidifier and the like. The fan devices included in the wind speed simulation component and the humidity simulation component can be the same fan device or different fan devices.

The perception simulation means 14 simulate the range of the weather parameter as a second range, which may be completely overlapping, partially overlapping or completely non-overlapping with the aforementioned first range. For example, when the second range and the first range completely overlap, the simulation of wind and humidity may interfere with the water mist curtain, in which case different strategies may be used to control both. For example, in this case, the electronic device may consider that the user currently needs weather awareness (i.e., the weather awareness has a higher priority), and primarily meets the user's needs for weather simulation, regardless of the influence of the wind power simulation and the humidity simulation on the water mist curtain. Or the wind simulation and the humidity simulation may be temporarily stopped in order to secure the visual exhibition effect. In the case of a partial overlap of the second range and the first range, the temperature and the wind power can be simulated in a separate region from the first range, while the simulated region of the humidity is determined in the first range (the humidity simulation can be carried out directly by means of the water mist generating assembly). When the second range and the first range are completely non-overlapping, all weather parameters including temperature, wind, humidity, etc. are simulated in a single area different from the first range. In the latter two implementations, the impact of wind simulation and/or humidity simulation on the water mist curtain stability can be avoided or reduced. Furthermore, in order to reduce the simulation of the wind power simulation on the stability of the water mist curtain, the blowing direction of the wind power simulation does not face the direction of the first range.

In the embodiment, the electronic equipment can not only project the processed data to the water mist curtain for display, but also simulate weather parameters, so that a user can sense the weather parameters; a more truly vivid form of data output is provided.

In the above embodiment, the mist generating assembly is provided with a plurality of mist flow holes, and the area of the holes in the middle of the plurality of mist flow holes is larger than the area of the holes in the peripheral part, so that the amount of mist flowing out of the middle part is larger, and the stability of the mist curtain is improved.

In concrete realization, the water smoke takes place the subassembly and has a shell, and water smoke generation part sets up in the shell temple, and the upper portion of shell can contain a plurality of water smoke circulation holes for the water smoke that produces in water smoke circulation hole below can flow out to the electronic equipment top through the circulation hole, forms the water smoke curtain. In order to ensure the stability of the water mist curtain, the area of the holes in the middle part of the plurality of water mist circulation holes can be larger than the area of the holes in the peripheral part of the plurality of water mist circulation holes in the design of the water mist circulation holes. In particular, the central portion may be a circular region with the peripheral portion being an annular region surrounding the central portion.

In particular, the area of the holes in the middle portion is larger than that of the holes in the peripheral portion, and different implementations are possible, for example, in a circular water mist flow through hole assembly, the hole diameter of the holes in the middle portion is larger than that of the holes in the peripheral portion, as shown in fig. 5; alternatively, in the assembly of mist flow holes, all holes have the same pore diameter, but the concentration of holes in the middle portion is greater than that of holes in the periphery, as shown in fig. 6. Of course, the two implementation manners may also be used in combination, as shown in fig. 7, as long as the water mist flowing out from the middle portion is ensured to be more concentrated, and the stability of the water mist curtain can be effectively ensured.

In other implementations, the electronic device may further include a position detection component to detect a first position of the operating body within the first range. Based on this, the processor may be further configured to: determining a trigger operation of a user based on the first position, the projection parameters of the projection assembly and the projected processed data, and responding to the trigger operation. The position detection assembly is connected with the processor.

In this implementation, the electronic device can also provide a human-computer interaction function. In the concrete implementation, the projection assembly projects the processed data onto the water mist curtain for display, a user can contact a corresponding display part on the water mist curtain through a finger, and then the display part is identified by the position detection assembly of the electronic equipment, so that the operation intention of the user is determined, and the corresponding operation is executed. And entering the corresponding operation process can be equal to obtaining the data to be processed again, processing the data to be processed to obtain processed data, and projecting the processed data onto the water mist curtain.

In one implementation, the position detection component can be an infrared sensor, in the process that the water mist curtain presents the processed data, the electronic equipment detects the position of the finger of the user in the first range through the infrared sensor, then corresponding position coordinate conversion is carried out according to the projection data of the projection component, the data content corresponding to the position of the finger of the user is determined, and then response is carried out, so that the interactive operation between the user and the electronic equipment is realized. In other implementations, the position detection assembly may also be implemented as a binocular camera or a loaded depth camera.

In the above embodiment, the processing, performed by the processor, of the data to be displayed may include: and processing the data to be displayed corresponding to the data type according to the data type of the data to be displayed to obtain processed data.

For example, if the data to be displayed includes a data transmission state, the processing of the data to be displayed may include: and carrying out imaging processing on the data to be displayed to obtain image display data. The data transmission state includes a data transmission amount and a data transmission progress, and the performing the imaging processing on the data to be displayed to obtain the image display data may include: and carrying out real-time imaging processing based on the real-time data to be displayed to obtain dynamic image display data.

In a case that the data to be displayed includes at least two data, the processing, performed by the processor, of the data to be displayed may include: and processing based on the at least two data to obtain processed data of at least two corresponding colors, wherein one color corresponds to one data.

Similarly, in the case that the at least two types of data include at least two types, the processing of the data to be displayed by the processor may include: and respectively processing the at least two data based on the at least two types to obtain processed data of the same number of color types as the types of the at least two types, wherein one color corresponds to one data type.

Based on this, in the case where the above-mentioned image presentation data includes at least two or two types, different data or different types of data have different colors. Fig. 8 is a schematic diagram showing different data in different colors according to an embodiment of the disclosure, which can be understood by referring to fig. 8. In fig. 8, not only different data are distinguished by different colors, but also the size of the data amount to be transferred, i.e., the data transfer speed of different data, is represented by data points. In practical application, the data point can also present a dynamic moving effect, and if the data point moves upwards, the data is uploaded to the cloud end from the local place; if the data point moves downwards, the bidding document data is downloaded to the local from the cloud; the data point movement direction is indicated by arrows in fig. 8. Of course, the transmission channels of different colors representing different data can also be shown in the form of a stereoscopic natural flowing liquid to meet the aesthetic requirements of the user.

In practical application, the electronic device can also be a cloud storage, and stored data can be projected onto the water mist curtain. Alternatively, the electronic device may project the external source information, and in a scene where the external source information is projected, the processing may be to convert the projection form, for example, to project the table data on the water mist curtain in the form of a histogram after being processed, or to convert the two-dimensional data into three-dimensional stereo data.

Through the electronic equipment disclosed by each embodiment, data can be output in a richer mode, the use pleasure of a user is promoted, and the requirement of the user on information display diversity is met.

Further, an embodiment of the present application further provides a data processing method, and fig. 9 is a flowchart of the data processing method disclosed in the embodiment of the present application, and as shown in fig. 9, the data processing method may include:

step 901: the method comprises the steps of obtaining data to be displayed, wherein the data to be displayed are used for displaying on target equipment, and the target equipment comprises a water mist generation assembly and a projection assembly.

Step 902: and processing based on the data to be displayed to obtain processed data.

Step 903: and controlling the projection assembly to project the processed data on a water mist curtain generated by the water mist generation assembly.

According to the data processing method, the data to be displayed can be processed, the processed data are projected to the water mist curtain generated by the water mist generation assembly through the projection assembly to be displayed, a more fresh display form is provided, the improvement of user experience is facilitated, and the requirement of a user on information display diversity is met.

In other implementations, the data processing method may further include: and simulating the weather parameters through a perception simulation device so that the weather parameters are output in a form capable of being perceived. In the implementation, the processed data can be projected to a water mist curtain for display, and weather parameters can be simulated, so that a user can sense the weather parameters; a more truly vivid form of data output is provided. In practical implementation, the data processing method may be directly applied to the electronic device, and may also be migrated to other electronic devices according to requirements.

While, for purposes of simplicity of explanation, the foregoing method embodiments have been described as a series of acts or combination of acts, it will be appreciated by those skilled in the art that the present application is not limited by the order of acts or acts described, as some steps may occur in other orders or concurrently with other steps in accordance with the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

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

Claims (10)

1. An electronic device, comprising:

the water mist generation assembly is used for generating a water mist curtain in a first range above the electronic equipment;

the projection assembly is used for projecting data onto the water mist curtain for display;

and the processor is used for processing the acquired data to be displayed and sending the processed data obtained through processing to the projection assembly so as to project the processed data to the water mist curtain for display.

2. The electronic device of claim 1, comprising a projection assembly, wherein the projection assembly is a first distance away from a central axis of the water mist curtain, and a projection direction line of the projection assembly forms a first included angle with a first plane of the central axis of the water mist curtain, so that the projection assembly can perform plane projection on the first plane.

3. The electronic device of claim 1, comprising at least two projection assemblies, each having a set distance from a central axis of the water mist curtain, and a second distance between the at least two projection assemblies, such that the at least two projection assemblies are capable of stereoscopic projection within the first range.

4. The electronic device of claim 1, further comprising:

and the perception simulation device is used for simulating the weather parameters in the second range so that the weather parameters can be output in a form capable of being perceived.

5. The electronic device of claim 4, wherein the sensing simulator comprises any one or more of a temperature simulator component, a wind speed simulator component, a pressure simulator component and a humidity simulator component.

6. The electronic device according to claim 1, wherein the mist generating assembly is provided with a plurality of mist flow holes, and the area of the holes in the middle of the plurality of mist flow holes is larger than the area of the holes in the peripheral portion, so that the amount of mist flowing out of the middle portion is larger, and the stability of the generated mist curtain is improved.

7. The electronic device of any of claims 1-6, further comprising:

a position detection component for detecting a first position of the operating body within the first range;

the processor is further configured to: and responding to a trigger operation corresponding to the first position based on the first position.

8. The electronic device of claim 1, wherein the processor processes the data to be displayed, including performing imaging processing on the data to be displayed, to obtain image display data;

the imaging processing of the data to be displayed includes: performing real-time imaging processing on the basis of real-time data to be displayed to obtain dynamic image display data;

wherein in the case where the image presentation data includes at least two or two types, different data or different types of data have different colors.

9. A method of data processing, comprising:

acquiring data to be displayed, wherein the data to be displayed is used for displaying on target equipment, and the target equipment comprises a water mist generation assembly and a projection assembly;

processing the data to be displayed based on the data to be displayed to obtain processed data;

and controlling the projection assembly to project the processed data on a water mist curtain generated by the water mist generation assembly.

10. The data processing method of claim 9, wherein the data to be displayed is a weather parameter, the method further comprising:

and simulating the weather parameters through a perception simulation device so that the weather parameters are output in a form capable of being perceived.

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