CN116663112A - Scene configuration method, device and storage medium - Google Patents

Abstract

The invention discloses a scene configuration method, a scene configuration device and a storage medium. Wherein the method comprises the following steps: acquiring an original three-dimensional model of a real space scene, wherein the original three-dimensional model is used for simulating the real space scene; generating a digital space model of the real space scene based on the original three-dimensional model, wherein the digital space model is used for presenting the real space scene in a digital form; determining a target scene type of the digital space model; and acquiring and displaying a recommended configuration scheme of the target space scene based on scene configuration information associated with the target scene type, wherein the scene configuration information is used for generating a rule of the recommended configuration scheme for the digital space, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space. The invention solves the technical problem of low efficiency of scene configuration.

Description

Scene configuration method, device and storage medium

Technical Field

The present invention relates to the field of scene configuration of display screens, and in particular, to a scene configuration method, apparatus, and storage medium.

Background

Currently, in some scene configuration processes of digital space including display screen, scene design personnel is required to carry out hand-drawn sketch according to the result of field survey to complete scene design, and then design specific configuration schemes are designed, wherein the scene design comprises scene arrangement, material selection, light setting and the like, then the design schemes are sent to clients for checking and confirmation, the clients can put forward modification requirements in the current design schemes according to own use requirements, then corresponding materials and equipment (such as display screen, camera and switch) are purchased according to the modification requirements put forward by the clients, and finally field construction and installation are carried out according to the modified design schemes.

Therefore, the related art generally requires manual measurement data, and manually selects the model number and the number of devices according to the use requirement of the digital space, and is time-consuming and labor-consuming, which relies on experience of professionals, and has a technical problem of low efficiency of scene configuration.

Aiming at the technical problem of low efficiency of the scene configuration, no effective solution is proposed at present.

Disclosure of Invention

The embodiment of the invention provides a scene configuration method, a scene configuration device and a storage medium, which are used for at least solving the technical problem of low scene configuration efficiency.

According to an aspect of an embodiment of the present invention, there is provided a scene configuration method. The method may include: acquiring an original three-dimensional model of a real space scene, wherein the original three-dimensional model is used for simulating the real space scene; generating a digital space model of the real space scene based on the original three-dimensional model, wherein the digital space model is used for presenting the real space scene in a digital form; determining a target scene type of the digital space model; based on scene configuration information associated with the target scene type, acquiring and displaying a recommended configuration scheme of the target space scene, wherein the scene configuration information is used for generating a rule of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

According to another aspect of the embodiment of the invention, another scene configuration method is also provided. The method may include: responding to input operation acted on an operation interface, and displaying an original three-dimensional model of a real space scene on the operation interface, wherein the original three-dimensional model is used for simulating the real space scene; responding to scene configuration operation acted on an operation interface, previewing a recommended configuration scheme of a target scene on the operation interface, wherein the recommended configuration scheme is obtained based on scene configuration information related to a target scene type of a digital space model, the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, the digital space model is generated based on an original three-dimensional model and used for presenting a real space scene in a digital form, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

According to an aspect of the embodiment of the present invention, there is also provided a scene configuration system. The system may include: the client is used for uploading the target image of the fax real space scene; the server is used for generating an original three-dimensional model at least based on the target image, wherein the original three-dimensional model is used for simulating a real space scene; generating a digital space model of the real space scene based on the original three-dimensional model, wherein the digital space model is used for presenting the real space scene in a digital form; determining a target scene type of the digital space model; acquiring and displaying a recommended configuration scheme of a target space scene based on scene configuration information associated with the target scene type, wherein the scene configuration information is used for generating a rule of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model; and outputting the recommended configuration scheme to the client.

According to an aspect of the embodiment of the invention, a scene configuration device is also provided. The apparatus may include: the acquisition unit is used for acquiring an original three-dimensional model of the real space scene, wherein the original three-dimensional model is used for simulating the real space scene; the device comprises a first generation unit, a second generation unit and a third generation unit, wherein the first generation unit is used for generating a digital space model of a real space scene based on an original three-dimensional model, and the digital space model is used for presenting the real space scene in a digital form; a first determining unit, configured to determine a target scene type of the digital space model; the configuration unit is used for acquiring and displaying a recommended configuration scheme of the target space scene based on scene configuration information related to the target scene type, wherein the scene configuration information is used for generating a rule of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of the display screen in the digital space model.

According to an aspect of the embodiment of the invention, another scene configuration device is also provided. The apparatus may include: a first display unit for displaying an original three-dimensional model of a real space scene on an operation interface in response to an input operation acting on the operation interface, wherein the original three-dimensional model is used for simulating the real space scene; the second display unit is used for responding to scene configuration operation acted on the operation interface, previewing a recommended configuration scheme of the target scene on the operation interface, wherein the recommended configuration scheme is obtained based on scene configuration information related to a target scene type of the digital space model, the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, the digital space model is generated based on an original three-dimensional model and used for presenting a real space scene in a digital form, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

According to an aspect of the embodiment of the present application, there is further provided a computer readable storage medium, where the computer readable storage medium includes a stored program, and when the program runs, the device on which the storage medium is controlled to execute the scene configuration method according to the embodiment of the present application.

According to an aspect of the embodiment of the present application, there is further provided a processor, where the processor is configured to execute a program, where the program is executed by the processor to perform a scene configuration method according to the embodiment of the present application.

In the embodiment of the application, after the original three-dimensional model for simulating the real space scene is obtained, according to the obtained original three-dimensional model, a digital space model of the real space scene of the equipment which is not built yet can be generated, the target scene type of the digital space model is determined, and according to the scene configuration information related to the target scene type, the recommended configuration scheme of the target space scene can be obtained and displayed, namely, according to the equipment configuration rule base of the scene type, the deployment information of the display screen in the digital space model and the deployment information of other target equipment except the display screen in the digital space model are obtained, and the deployment information is displayed in the display screen, so that the purposes of improving the templating, customizing and flexibility of the scene design are achieved, the technical problem of low efficiency of scene configuration is solved, and the technical effect of improving the efficiency of the scene configuration is further realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

fig. 1 is a hardware configuration block diagram of a computer terminal (or electronic device) for implementing a scene configuration method according to an embodiment of the present application;

FIG. 2 is a flow chart of a scene configuration method according to an embodiment of the application;

FIG. 3 is a flow chart of another scenario configuration method according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a scene configuration framework according to an embodiment of the application;

FIG. 5 is a schematic diagram of a scene configuration device according to an embodiment of the application;

fig. 6 is a schematic diagram of another scene configuration device according to an embodiment of the application.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the application described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

The scene configuration method provided by the embodiment of the application can be executed in a mobile terminal, a computer terminal or similar computing devices. Fig. 1 shows a hardware configuration block diagram of a computer terminal (or electronic device) for implementing a scenario configuration method, where the scenario configuration method may be a scenario configuration scheme generation method. As shown in fig. 1, the computer terminal 10 (or electronic device 10) may include one or more processors (shown as 102a, 102b, … …,102 n) which may include, but are not limited to, a microprocessor (Microprocessor Unit, abbreviated as MCU) or a processing device such as a programmable logic device (Field-ProgrammableGate Array, abbreviated as FPGA), a memory 104 for storing data, and a transmission module 106 for communication functions. In addition, the method may further include: a display, an input/output interface (I/O interface), a Universal Serial Bus (USB) port (which may be included as one of the ports of the I/O interface), a network interface, a power supply, and/or a camera. It will be appreciated by those of ordinary skill in the art that the configuration shown in fig. 1 is merely illustrative and is not intended to limit the configuration of the electronic device described above. For example, the computer terminal 10 may also include more or fewer components than shown in FIG. 1, or have a different configuration than shown in FIG. 1.

It should be noted that the one or more processors and/or other data processing circuits described above may be referred to herein generally as "data processing circuits. The data processing circuit may be embodied in whole or in part in software, hardware, firmware, or any other combination. Furthermore, the data processing circuitry may be a single stand-alone processing module, or incorporated, in whole or in part, into any of the other elements in the computer terminal 10 (or electronic device). As referred to in embodiments of the application, the data processing circuit acts as a processor control (e.g., selection of the path of the variable resistor termination connected to the interface).

The memory 104 may be used to store software programs and modules of application software, such as program instructions/data storage devices corresponding to the scene configuration method in the embodiments of the present application, and the processor executes the software programs and modules stored in the memory 104, thereby executing various functional applications and data processing, that is, implementing the scene configuration method described above. Memory 104 may include high-speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, the memory 104 may further include memory located remotely from the processor, which may be connected to the computer terminal 10 via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The transmission module 106 is used to receive or transmit data via a network. The specific examples of the network described above may include a wireless network provided by a communication provider of the computer terminal 10. In one example, the transmission device 106 includes a network adapter (Network Interface Controller, simply referred to as NIC) that can connect to other network devices through a base station to communicate with the internet. In one example, the transmission device 106 may be a Radio Frequency (RF) module, which is used to communicate with the internet wirelessly.

The display may be, for example, a touch screen type liquid crystal display (Liquid Crystal Display, simply LCD) that may enable a user to interact with a user interface of the computer terminal 10 (or electronic device).

It should be noted here that, in some alternative embodiments, the computer device (or the electronic device) shown in fig. 1 described above may include hardware elements (including circuits), software elements (including computer code stored on a computer readable medium), or a combination of both hardware elements and software elements. It should be noted that fig. 1 is only one example of a specific example, and is intended to illustrate the types of components that may be present in the computer device (or electronic device) described above.

In the above-described operating environment, embodiments of the present application provide an embodiment of a scenario configuration method, it should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer-executable instructions, and that although a logical order is illustrated in the flowcharts, in some cases the steps illustrated or described may be performed in an order different from that illustrated herein.

Fig. 2 is a flowchart of a scene configuration method according to an embodiment of the present application. As shown in fig. 1, the method may include the steps of:

step S202, an original three-dimensional model of a real space scene is obtained.

In the technical solution provided in the above step S202 of the present application, the original three-dimensional model is used to simulate a real space scene.

In this embodiment, the above-mentioned real space is an actual space required for scene configuration, and may be different types of field scenes, and an original Three-Dimensional model of the real space scene is obtained, and the original Three-Dimensional model may be a Three-Dimensional (3D) model about the real space scene obtained in modeling software and is used for simulating the real space scene, for example, the original Three-Dimensional model may be obtained by performing 3D modeling on modeling data, where the modeling data may be determined according to scene requirements and field photos of the real space scene, and for example, the modeling data may include, but is not limited to: the real space scene may include, but is not limited to, wall size, floor size, door and window size, etc., scene requirements including: scene size, purpose of use of the scene, equipment required in the scene, etc., and live photos can be obtained by performing omnibearing shooting or scanning on the field through an image pickup device.

Alternatively, the original three-dimensional model may be used to guarantee a high degree of restoration and fidelity of the real space scene.

In the embodiment, if the real space scene is a display screen monitoring center scene, 3D modeling is performed on the wall size, the ground size, the door and window size and other data of the display screen monitoring center scene, so as to obtain an original three-dimensional model of the display screen monitoring center scene.

In this embodiment, if the real space scene is a monitoring center scene, for example, a monitoring center scene in a college, 3D modeling is performed on the wall size, the ground size, the door and window size and other data of the monitoring center scene in the college, so as to obtain an original three-dimensional model of the monitoring center scene in the college.

In this embodiment, if the real space scene is a reporting hall scene, for example, a reporting hall scene in a hospital, 3D modeling is performed on the wall size, the ground size, the door and window size, and other data of the reporting hall scene in the hospital, so as to obtain an original three-dimensional model of the reporting hall scene in the hospital.

In this embodiment, if the real space scene is an archive scene, for example, an archive scene in a organization, 3D modeling is performed on data such as wall size, ground size, door and window size, and the like of the archive scene in the organization, so as to obtain an original three-dimensional model of the archive scene in the organization.

It should be noted that, the above-mentioned real space scene in this embodiment is a display screen monitoring center scene, a monitoring center scene in a college, a reporting hall scene in a hospital, and an archive room scene in a institution are only examples of embodiments of the present application, and the real space scene in this embodiment is not limited to be a display screen monitoring center scene, a monitoring center scene in a college, a reporting hall scene in a hospital, and an archive room scene in a institution, and any real space scene in which a digital space model scene configuration scheme needs to be created is within the scope of this embodiment, which is not illustrated one by one.

Step S204, generating a digital space model of the real space scene based on the original three-dimensional model.

In the technical solution provided in the above step S204 of the present application, the digital space model may be used to present the real space scene in a digitized form.

In this embodiment, the digital space model may be based on computer and internet technologies, and the 3D modeling and rendering technology is adopted to digitally present the scene through a certain algorithm, so that various forms of digital scenes can be realized, and digital information is presented on the display screen through technologies such as graphics, animation, interactivity and the like, so that people can more intuitively understand and master the digital information, and it is required to be noted that the digital space model may be a model which is constructed in a digital form on the aspect of the algorithm and is used for presenting a real space scene. Optionally, after the original three-dimensional model of the real space scene is acquired, a digital space model of the real space scene may be generated according to the type of the original three-dimensional model, that is, according to the type of the original three-dimensional model, a digital space model of the real space scene may be built, and the digital space model may be a digital space model of the real space scene of the device that has not been built, where the type of the original three-dimensional model may include, but is not limited to: a display screen monitoring center scene, a reporting hall scene, an archive room scene and the like.

Alternatively, the embodiment may generate the digital space model of the real space scene based on the original three-dimensional model in the digital space model generation service, and may be a digital space model of the real space scene generated from the original three-dimensional model using a scene configuration algorithm service.

In this embodiment, different real space scenes can be presented digitally, i.e. the monitoring center scene can be presented digitally by means of a digital space model, the reporting hall scene can also be presented digitally by means of a digital space model, the archive scene can also be presented digitally by means of a digital space model, and the machine room scene can be presented more digitally by means of a digital space model.

Optionally, if the type of the original three-dimensional model belongs to an original three-dimensional model of the display screen monitoring center scene, generating a digital space model of the display screen monitoring center scene of the device which is not built yet according to the original three-dimensional model of the display screen monitoring center scene, which is not particularly limited and only illustrated herein.

Alternatively, if the type of the original three-dimensional model belongs to an original three-dimensional model of a monitoring center scene, for example, an original three-dimensional model of a monitoring center scene in a college, a digital space model of a monitoring center scene in a college, which is not yet built with equipment, is generated according to the original three-dimensional model of the monitoring center scene in the college, which is not particularly limited herein and is only illustrated.

Alternatively, if the type of the original three-dimensional model is an original three-dimensional model of a reporting hall scene, for example, an original three-dimensional model of a reporting hall scene in a hospital, a digital space model of a reporting hall scene in a hospital, on which no device has been built, is generated from the original three-dimensional model of the reporting hall scene in the hospital, which is not particularly limited herein, and is merely exemplified.

Optionally, if the type of the original three-dimensional model is an original three-dimensional model of an archive scene, for example, an original three-dimensional model of an archive scene in a organization, a digital space model of an archive scene in an organization where the device is not yet built is generated according to the original three-dimensional model of the archive scene in the organization, which is not particularly limited herein and is only illustrated.

Step S206, determining the target scene type of the digital space model.

In the technical solution provided in the above step S206 of the present invention, after generating the digital space model of the real space scene based on the original three-dimensional model, the target scene type of the digital space model is determined, where the target scene type may be a classical scene type, and may include, but is not limited to, a machine room, a conference room, an archive room, a reporting hall, a monitoring center, a display screen monitoring center, and the like.

In this embodiment, in the case where the information of the digital space model has been determined, the target scene type to which the digital space model belongs may be matched in the database, for example, in the case where the information of the digital space model has been determined to be the digital space model of the display screen monitoring center, a row-by-row search may be performed in a relationship table stored in the database, so that the target scene type to which the information of the digital space model matches is obtained as the display screen monitoring center.

Alternatively, in the case where the information of the digital space model has been determined as the digital space model of the reporting hall scene, a row-wise search may be performed in the relationship table stored in the database, and the type of the target scene to which the information of the digital space model matches is obtained as the reporting hall.

Optionally, in the case that the information of the digital space model is already determined as the digital space model of the archive scene, a row-by-row search may be performed in the relationship table stored in the database, so as to obtain that the target scene type matched with the information of the digital space model is archive.

Alternatively, in the case where the information of the digital space model has been determined as the digital space model of the conference room scene, a row-wise search may be performed in the relationship table stored in the database, so that the type of the target scene to which the information of the digital space model matches is the conference room.

Optionally, in the case that the information of the digital space model is already determined as the digital space model of the machine room scene, a row-by-row search may be performed in the relationship table stored in the database, so as to obtain that the type of the target scene matched with the information of the digital space model is the machine room.

Step S208, based on scene configuration information associated with the target scene type, a recommended configuration scheme of the target space scene is obtained and displayed.

In the technical solution provided in the above step S208 of the present invention, after determining the target scene type of the digital space model, according to the scene configuration information associated with the target scene type, a recommended configuration scheme for the target scene may be obtained and displayed in the display screen, for example, according to the device configuration rule base associated with the target scene type, an entire scene configuration scheme may be obtained and displayed in the display screen, where the scene configuration information may generate a rule of the recommended configuration scheme for the digital space model, the device configuration rule base may perform one-to-one correspondence between the target scene type and devices available in the target scene of the type, and the recommended configuration scheme may at least include deployment information of the display screen in the digital space model, and for example, the recommended configuration scheme may include, without specific limitation, deployment information of devices such as a display screen, a camera, a switch, an air conditioner, and a table in the digital space model.

In this embodiment, the device configuration rule base associated with the target scene type may include rules such as a standard device list required for each scene, installation requirements of devices, and related specifications of other available devices, and the device configuration rule base associated with the target scene type may be associated with the target scene type through an artificial intelligence algorithm, where the artificial intelligence algorithm may be a machine learning based classification model, and is not limited herein, and is merely illustrative.

Optionally, the calculation rules of the device configuration rule base associated with the target scene type may include the steps of:

step one, determining a required main stream equipment list through a target scene type.

Step two, determining the size and specification of the display screen of the key equipment through modeling data (wall size, azimuth and space size), and then calculating the type, quantity, related materials, software, on-load diagram, topological diagram and the like of the control equipment required by the configuration of the display screen by using a scheme configuration tool.

And thirdly, acquiring the attributes (such as resolution, view angle and transmission rate of a camera, the size and the size of an air conditioner and the like) of the equipment in the equipment list, determining the layout and the wiring of other equipment according to the space size and the equipment size, and generating the visual digital space model scene configuration.

And fourthly, providing a friendly man-machine interaction interface, facilitating the user to upgrade and downgrade equipment, canceling adding equipment, recalculating according to equipment selected by the user, generating a new scene configuration model, and optimizing standard scene generation rules through machine learning, thereby realizing a scene configuration model which is satisfied by the user at one time.

And fifthly, the intelligent recommending and selecting system can automatically generate a bill of materials and budget quotation of the real space scene according to the scene configuration model finally determined by the user.

Alternatively, if the target scene type of the digital space model is a display screen monitoring center, the recommended configuration scheme for the display screen monitoring center may be obtained according to the scene configuration information associated with the display screen monitoring center, that is, the entire scene configuration scheme for the display screen monitoring center may be obtained according to the device configuration rule base associated with the display screen monitoring center, which is not limited specifically and only illustrated herein.

Alternatively, if the target scene type of the digital space model is a monitoring center, for example, a monitoring center in a college, the recommended configuration scheme for the monitoring center may be obtained according to the scene configuration information associated with the monitoring center, that is, the entire scene configuration scheme for the monitoring center may be obtained according to the device configuration rule base associated with the monitoring center, which is not limited herein and is only illustrated.

Alternatively, if the target scenario type of the digital space model is a reporting hall, for example, a reporting hall in a hospital, the recommended configuration scheme for the reporting hall may be obtained according to scenario configuration information associated with the reporting hall, that is, the entire scenario configuration scheme for the reporting hall may be obtained according to a device configuration rule base associated with the reporting hall, which is not particularly limited herein and is only exemplified.

Alternatively, if the target scenario type of the digital space model is a archive, for example, an archive in a institution, the recommended configuration scheme for the archive may be obtained according to scenario configuration information associated with the archive, that is, the entire scenario configuration scheme for the archive may be obtained according to a device configuration rule base associated with the archive, which is not particularly limited herein, but only by way of example.

Alternatively, if the target scene type of the digital space model is a conference room, for example, a conference room in a college, the recommended configuration scheme for the conference room may be obtained according to the scene configuration information associated with the conference room, that is, the entire scene configuration scheme for the conference room may be obtained according to the device configuration rule base associated with the conference room, which is not limited herein and is only illustrative.

Alternatively, if the target scenario type of the digital space model is a machine room, for example, a machine room in a hospital, the recommended configuration scheme for the machine room may be obtained according to the scenario configuration information associated with the machine room, that is, the entire scenario configuration scheme for the machine room may be obtained according to the equipment configuration rule base associated with the machine room, which is not limited herein and is only illustrated.

In the related art, a designer is usually required to perform a hand sketch according to the result of a field survey to complete a scene design, wherein the scene design comprises scene arrangement, material selection, light setting and the like, then the design scheme is sent to a customer for verification and confirmation, the customer puts forward a modification requirement in the current design scheme according to own requirements, then corresponding materials and equipment are purchased according to the modification requirement put forward by the customer, and finally the designer and workers perform field construction and installation according to the modified design scheme, so that in the scene configuration process of some digital space models, manual measurement data are required, the model number and the number of the equipment are manually selected according to the practical requirements of the digital space models, time and labor are wasted, and experience of professionals is relied on, so that the technical problem of low efficiency of scene configuration is caused.

However, in the solution implemented in the above steps S202 to S208 of the present application, according to the scene demand information of the real space scene and the target image of the real space scene, model data for three-dimensional modeling is generated, the model data is three-dimensionally modeled to obtain an original three-dimensional model for simulating the real space scene, according to the obtained original three-dimensional model, a digital space model of the real space scene of the device that is not yet built can be generated, and the target scene type of the digital space model is determined, and according to the scene configuration information associated with the target scene type, a recommended configuration scheme for the target space scene can be obtained and displayed, that is, according to the device configuration rule base of the scene type, deployment information of the display screen in the digital space model and deployment information of other target devices except the display screen in the digital space model are obtained, and the deployment information is displayed in the display screen, so as to achieve the purposes of improving the template, customizing and flexibility of the scene configuration, thereby solving the technical problem of low efficiency of the scene configuration, and further achieving the technical effect of improving the efficiency of the scene configuration.

The above-described method of this embodiment is further described below.

As an optional implementation manner, step S202, obtaining an original three-dimensional model of the real space scene includes: generating model data based on scene demand information of the real space scene and a target image of the real space scene; and carrying out three-dimensional modeling on the model data to obtain an original three-dimensional model.

In this embodiment, the scene demand information may be a user's demand for a scene and a design demand, the target image may be a live photo of the real space scene, and the model data may be 3D modeled model data (i.e., modeling data, for example, a wall size, a ground size, a door and window size, etc. of the scene). Optionally, after acquiring the scene requirement information of the real space scene and the target image of the real space scene, generating model data according to the scene requirement information of the real space scene and the target image of the real space scene, that is, generating modeling data, and performing 3D modeling on the model data (that is, modeling data) to obtain an original three-dimensional model of the real space scene, where the scene requirement information may be used to represent a requirement for configuring the real space scene, and the scene requirement may include, but is not limited to: scene size, purpose of use of the scene, equipment required in the scene, etc., the live photo may be obtained by omni-directional shooting or scanning of the field by the camera, and the modeling data may include, but is not limited to: the wall body size, the ground size, the door and window size and other data of the real space scene are obtained, and therefore the technical effect that the accurate 3D model simulating the real space scene can be obtained is achieved.

Alternatively, from the generated model data (i.e., modeling data), factors such as size, shape, and lighting in the real space scene may be analyzed to determine installation space and wiring positions required for the device.

For example, if the real space scene is a display screen monitoring center scene, the required equipment model (such as resolution, view angle, transmission rate, size and resolution of a display screen) of the proper monitoring center is searched through the existing equipment data table and specification (equipment is accessed to an equipment management platform), a bill of materials for installing the display screen, a master control equipment and a receiving card can be calculated through a scheme configuration tool, a topological diagram for actually connecting the equipment is displayed, a carrying diagram and a wiring diagram of the card are received, required installation space and wiring positions of the equipment are calculated according to the equipment model and specification, and a final equipment list and layout scheme are determined according to the data of the scene digital space model.

Optionally, if the real space scene is a monitoring center scene, for example, a monitoring center scene in a college, the scene demand information of the monitoring center scene in the college and the target image of the monitoring center scene in the college are obtained, and according to the obtained scene demand information and the target image, data such as wall size, ground size, door and window size, etc. of the monitoring center scene in the college are generated, and 3D modeling is performed on the model data (i.e., modeling data), so as to obtain an original three-dimensional model of the monitoring center scene in the college, which is not particularly limited herein, and only illustrated.

Optionally, if the real space scene is a archival scene, for example, an archival scene in a institution, acquiring scene requirement information of the archival scene in the hospital and a target image of the archival scene in the hospital, generating data such as wall size, ground size, door and window size of the archival scene in the hospital according to the acquired scene requirement information and the target image, and performing 3D modeling on the model data (i.e., modeling data) to obtain an original three-dimensional model of the archival scene in the hospital, which is not limited specifically herein and is only exemplified.

Optionally, if the real space scene is a hall scene, for example, a hall scene in a college, the scene demand information of the hall scene in the college and the target image of the hall scene in the college are obtained, and according to the obtained scene demand information and the target image, the data such as the wall size, the ground size, the door and window size, etc. of the hall scene in the college are generated, and the model data (i.e., the modeling data) are subjected to 3D modeling to obtain an original three-dimensional model of the hall scene in the college, which is not particularly limited herein and is only illustrated.

Optionally, if the real space scene is a machine room scene, for example, a machine room scene in a hospital, the scene requirement information of the machine room scene in the hospital and the target image of the machine room scene in the hospital are obtained, the data such as the wall size, the ground size, the door and window size of the machine room scene in the hospital are generated according to the obtained scene requirement information and the target image, and the 3D modeling is performed on the model data (i.e., modeling data) to obtain the original three-dimensional model of the machine room scene in the hospital, which is not limited specifically and only illustrated herein.

In practical applications, the scene requirement information of the real space scene has content to be updated, and the updating operation of the scene requirement information is further described below.

As an optional implementation manner, the scene configuration method further includes: responding to the updating operation of the scene demand information, and updating the scene demand information; generating target model data based on the updated scene demand information and a target image of the real space scene; and updating the model data into target model data.

In this embodiment, in response to the update operation of the scene demand information, the update of the scene demand information may be a quick modification of the scene according to the customer demand. Optionally, after the original scene demand information is obtained, if there is an update to the original scene demand information, an update instruction to the scene demand information may be initiated to a server in the scene configuration system through the scene configuration interface, after the server receives the update instruction to the scene demand information, an update operation is performed to the original scene demand information, and according to the updated scene demand information and the target image of the real space scene, target model data is generated, that is, target modeling data is generated, then the original model data is updated into the target model data (that is, the target modeling data), and then 3D modeling is performed to the target model data, so that a new three-dimensional model according with the scene demand is obtained, thereby achieving the technical effect of improving the flexibility of the scene design.

Optionally, the original scene requirement information of the real space scene may be tampered with and modified by providing a scene configuration interface, so as to meet the personalized requirement of the user, wherein the tampering with and modifying the original scene requirement information of the real space scene may include, but is not limited to, the following operations: cancel some devices that may not be needed, modify the size and resolution of the display screen, change the model of the device, etc.

In practical applications, it is necessary to determine scene configuration information associated with a target scene type through scene configuration information under a plurality of scene types, and how to determine scene configuration information associated with a target scene type is further described below.

As an optional implementation manner, the scene configuration method further includes: creating scene configuration information under a plurality of scene types matched with the model data; and determining scene configuration information associated with the target scene type from the scene configuration information under various scene types.

In this embodiment, scene configuration information under multiple scene types matched with the model data, that is, a device configuration rule base under multiple scene types matched with the model data is created, and a device configuration rule base associated with a target scene type is determined in the device configuration rule base under multiple scene types, wherein the device configuration rule base associated with the target scene type may include rules such as a standard device list required by each scene, installation requirements of devices and related specifications of other available devices, and the device configuration rule base associated with the target scene type may be associated with the target scene type through an artificial intelligence algorithm, wherein the artificial intelligence algorithm may be a classification model based on machine learning, and the target scene type (that is, classical scene type) may include, but is not limited to: the technical effects that scene configuration information in different scenes can be determined according to the scenes of different types are achieved.

Optionally, if the target scene type is a display screen monitoring center, a device configuration rule base associated with the type of the display screen monitoring center is determined in a device configuration rule base under multiple scene types, that is, rules such as a standard device list, a device installation requirement and related specifications of other available devices required by the scene of the display screen monitoring center are determined, which are not limited specifically herein, and only are illustrative.

Optionally, if the target scene type is a monitoring center, for example, a monitoring center in a high-school, a device configuration rule base associated with the monitoring center type is determined in a device configuration rule base under multiple scene types, that is, rules such as a standard device list, a device installation requirement and related specifications of other available devices required for determining the monitoring center scene are not limited specifically herein, and are only exemplified.

Alternatively, if the target scenario type is a reporting hall, for example, a reporting hall in a hospital, a device configuration rule base associated with the reporting hall type, that is, a standard device list, a device installation requirement, and related specifications of other available devices required for determining the reporting hall scenario, are determined in a device configuration rule base under a plurality of scenario types, which are not particularly limited herein and are only exemplified.

Alternatively, if the target scenario type is a archive, for example, an archive in a institution, a device configuration rule base associated with the archive type is determined in a device configuration rule base under a plurality of scenario types, that is, a standard device list required for determining the archive scenario, a device installation requirement, and related specifications of other available devices, etc. are not particularly limited herein, and are merely illustrative.

Alternatively, if the target scene type is a conference room, for example, a conference room in a high-school, a device configuration rule base associated with the conference room type is determined in a device configuration rule base under a plurality of scene types, that is, rules such as a standard device list required for determining the conference room scene, installation requirements of devices, and related specifications of other available devices are not particularly limited herein, and are merely illustrative.

In practical applications, it is necessary to determine scene configuration information under multiple scene types by using a classifier, and how to determine scene configuration information under multiple scene types by using a classifier is further described below.

As an alternative embodiment, creating scene configuration information under a plurality of scene types matched with the model data includes: and allocating corresponding scene configuration information to each scene type by using the classification model.

In this embodiment, the classification model may be a classifier for optimizing standard scene generation rules. Optionally, in the case that the model data (i.e., modeling data) is matched with the scene type, the classification model is used to allocate the scene configuration information corresponding to the scene type to each scene type, that is, the classification model is used to allocate the device configuration rule base corresponding to the scene type to each scene type, where the classification model may be obtained by performing machine learning training based on the scene type sample and the scene location information sample associated with the scene type sample, and the device configuration rule base may include rules such as a standard device list required by each scene, installation requirements of devices, and related specifications of other available devices, so as to achieve the technical effect that the scene configuration information can be accurately matched according to different scene types.

Alternatively, when assigning corresponding scene configuration information to each scene type using the classification model, a specification-based intelligent recommendation and selection system may also be used to select an optimal device model, wherein the system may select a device that is most suitable for each device based on the specification of the device and the requirements of the scene, and further the system may calculate the installation space and wiring position required for the selected device to determine the optimal position of the device.

In practical applications, a recommended configuration scheme for a target space scene needs to be obtained by obtaining layout information of the target device in the digital space model, and how to obtain the layout information of the target device in the digital space model is further described below.

As an optional implementation manner, step S208, based on the scene configuration information associated with the target scene type, acquires and displays a recommended configuration scheme for the target space scene, including: and acquiring and displaying layout information of at least one target device to be deployed in the digital space model and/or the target device in the digital space model based on the scene configuration information.

In this embodiment, according to the requirements of the scene, the device most suitable for the current scene may be selected, the information of the target device may be recorded through a device list, the layout information may include information such as installation space and wiring position of the target device in the digital space model, and the information recorded in the device list may include, but is not limited to, the following attributes: resolution of camera, view angle and transmission rate, size and dimensions of air conditioner, etc. Optionally, after determining the target scene type of the digital space model, according to scene configuration information associated with the target scene type, at least one target device to be deployed in the digital space model and/or layout information of the target device in the digital space model may be acquired and displayed, where the target device may at least include a display screen, a camera, a switch, an air conditioner, a table and a chair, so as to achieve a technical effect that the layout information of the target device in the digital space model may be accurately acquired according to different scene configuration information.

Optionally, if the target scene type of the digital space model is a display screen monitoring center, at least one target device to be deployed in the digital space model and/or layout information of the target device in the digital space model may be acquired and displayed according to scene configuration information associated with the display screen monitoring center, where the layout information of the target device in the digital space model may include, but is not limited to, the following information: information such as installation space and wiring position of a display screen in a digital space model, information such as installation space and wiring position of a camera in the digital space model, information such as installation space and wiring position of a switch in the digital space model, information such as installation space and wiring position of an air conditioner in the digital space model, and information such as installation space and wiring position of a desk and chair in the digital space model.

Optionally, if the target scene type of the digital space model is a monitoring center, for example, a monitoring center in a college, the layout information of at least one target device to be deployed in the digital space model and/or the target device in the digital space model may be acquired and displayed according to the scene configuration information associated with the monitoring center, where the layout information of the target device in the digital space model may include, but is not limited to, the following information: information such as installation space and wiring position of a display screen in a digital space model, information such as installation space and wiring position of a camera in the digital space model, information such as installation space and wiring position of a switch in the digital space model, information such as installation space and wiring position of an air conditioner in the digital space model, and information such as installation space and wiring position of a desk and chair in the digital space model.

Optionally, if the target scenario type of the digital space model is a reporting hall, for example, a reporting hall in a hospital, the layout information of at least one target device to be deployed in the digital space model and/or the target device in the digital space model may be acquired and displayed according to scenario configuration information associated with the reporting hall, where the layout information of the target device in the digital space model may include, but is not limited to, the following information: information such as installation space and wiring position of a display screen in a digital space model, information such as installation space and wiring position of a camera in the digital space model, information such as installation space and wiring position of a switch in the digital space model, information such as installation space and wiring position of an air conditioner in the digital space model, and information such as installation space and wiring position of a desk and chair in the digital space model.

Optionally, if the target scene type of the digital space model is a archive, for example, an archive in an organization, the layout information of at least one target device to be deployed in the digital space model and/or the target device in the digital space model may be acquired and displayed according to scene configuration information associated with the archive, where the layout information of the target device in the digital space model may include, but is not limited to, the following information: information such as installation space and wiring position of a display screen in a digital space model, information such as installation space and wiring position of a camera in the digital space model, information such as installation space and wiring position of a switch in the digital space model, information such as installation space and wiring position of an air conditioner in the digital space model, and information such as installation space and wiring position of a desk and chair in the digital space model.

Optionally, if the target scene type of the digital space model is a conference room, for example, a conference room in a college, the layout information of at least one target device to be deployed in the digital space model and/or the target device in the digital space model may be acquired and displayed according to scene configuration information associated with the conference room, where the layout information of the target device in the digital space model may include, but is not limited to, the following information: information such as installation space and wiring position of a display screen in a digital space model, information such as installation space and wiring position of a camera in the digital space model, information such as installation space and wiring position of a switch in the digital space model, information such as installation space and wiring position of an air conditioner in the digital space model, and information such as installation space and wiring position of a desk and chair in the digital space model.

Optionally, if the target scene type of the digital space model is a machine room, for example, a machine room in a hospital, the layout information of at least one target device to be deployed in the digital space model and/or the target device in the digital space model may be acquired and displayed according to scene configuration information associated with the machine room, where the layout information of the target device in the digital space model may include, but is not limited to, the following information: information such as installation space and wiring position of a display screen in a digital space model, information such as installation space and wiring position of a camera in the digital space model, information such as installation space and wiring position of a switch in the digital space model, information such as installation space and wiring position of an air conditioner in the digital space model, and information such as installation space and wiring position of a desk and chair in the digital space model.

In practical applications, it is necessary to determine the recommended configuration of at least one associated device of the display screen in the digital space model by determining the recommended configuration of the display screen in the digital space model, and how to determine the recommended configuration of at least one associated device of the display screen in the digital space model is further described below.

As another optional implementation manner, step S208, based on the scene configuration information associated with the target scene type, acquires and displays a recommended configuration scheme for the target space scene, including: determining a first recommended configuration scheme of the display screen in the digital space model based on the scene configuration information and displaying the first recommended configuration scheme; a second recommended configuration scheme of at least one associated device of the display screen in the digital space model is determined and displayed based on the first recommended configuration scheme.

In this embodiment, the first recommended configuration scheme may include information such as a position and a distance of the display screen in the digital space model, and the first recommended configuration scheme may further include information such as a screen size and a specification of the display screen. Optionally, after determining the target scene type of the digital space model, determining scene configuration information associated with the target scene type, where the scene configuration information associated with the target scene type has been determined, determining and presenting a first recommended configuration of the display screen in the digital space model, where the first recommended configuration of the display screen in the digital space model has been determined, determining and presenting a second recommended configuration of at least one associated device of the display screen in the digital space model, where the at least one target device may include at least one associated device of the display screen, the at least one associated device of the display screen may include, but is not limited to: the equipment such as the camera, the switch, the air conditioner and the desk and chair achieves the technical effect that the whole recommended configuration scheme of the real space scene can be determined by determining the recommended configuration scheme of the display screen.

Alternatively, by determining the first recommended configuration of the display screen in the digital space model, the recommended configuration of the screen size and specification of the display screen may be determined and displayed, that is, by determining information such as the position and distance of the display screen in the digital space model, the recommended configuration of the screen size and specification of the display screen may be determined and displayed.

In practical applications, the material configuration needs to be performed on the real space scene according to the generated recommended configuration scheme, and the following further describes how to generate relevant information required by the material configuration.

As an optional implementation manner, the scene configuration method further includes: and generating material information and/or quotation information required for configuring the real space scene according to the recommended configuration scheme.

In this embodiment, the configuration may be construction and installation of a real space scene, the material information may include information shown in a bill of materials and an alternative bill of materials, and the quotation information may include information shown in a budget quotation corresponding to a recommended configuration scheme. Optionally, according to the recommended configuration scheme, material information and/or quotation information required for configuring the real space scene can be generated, that is, according to the first recommended configuration scheme of the display screen in the digital space model and the second recommended configuration scheme of at least one associated device of the display screen in the digital space model, material information and/or quotation information required for configuring the real space scene can be generated, so that the technical effect of improving the scene configuration efficiency is achieved.

Optionally, in the case where the first recommended configuration of the display screen in the digital space model and the second recommended configuration of the at least one associated device of the display screen in the digital space model have been determined, the bill of materials and the budget quotation may be automatically generated using an automated quotation tool in the scene configuration system, wherein the automated quotation tool may be used to determine the bill of materials and the budget quotation based on the bill of devices and the associated costs.

The embodiment of the invention also provides another scene configuration method from the man-machine interaction side.

Fig. 3 is a flowchart of another scenario configuration method according to an embodiment of the present invention. As shown in fig. 3, the method may include the steps of:

in step S302, an original three-dimensional model of the real space scene is displayed on the operation interface in response to an input operation acting on the operation interface.

In the technical solution provided in the above step S302 of the present invention, in response to an input operation acting on an operation interface, an original three-dimensional model for simulating a real space scene is displayed on the operation interface, where the original three-dimensional model may be used for simulating the real space scene.

In this embodiment, in response to an input operation acting on the operation interface, a display instruction is transmitted by the client to the server, and after the display instruction is received by the server, an original three-dimensional model for simulating the real space scene is displayed on the operation interface.

Step S304, responding to scene configuration operation on the operation interface, and previewing a recommended configuration scheme of the target scene on the operation interface.

In the technical solution provided in the above step S304 of the present invention, after the original three-dimensional model of the real space scene is displayed on the operation interface in response to the input operation on the operation interface, the recommended configuration scheme of the target scene may be previewed on the operation interface in response to the scene configuration operation on the operation interface, where the recommended configuration scheme may be obtained for the scene configuration information associated with the target scene type based on the digital space model, the scene configuration information may be a rule for generating the recommended configuration scheme for the digital space model, the digital space model may be generated based on the original three-dimensional model, and the digital space model is used for digitally presenting the real space scene, the recommended configuration scheme may at least include deployment information of the display screen in the digital space model, and the deployment information of the display screen in the digital space model may include, but is not limited to: information such as installation space and wiring position of the display screen in the digital space model.

In this embodiment, clicking on the visual interface to perform scene configuration may be a scene configuration operation acting on the operation interface, in response to which a recommended configuration of the target scene is previewed on the operation interface, i.e. a first recommended configuration of the display screen in the digital space model and a second recommended configuration of at least one associated device of the display screen in the digital space model are previewed on the operation interface.

FIG. 4 is a schematic diagram of a scene configuration framework, as shown in FIG. 4, according to an embodiment of the invention, which may include: the image capturing apparatus 401, the scene configuration unit 402, the 3D scene library 403, the device 3D model library 404, the intervention and modification interface 405, the 3D visual scene display platform 406, the device management platform 407, the device gateway 408 and the internet of things device 409, wherein the image capturing apparatus 401 may upload a captured field image to the scene configuration unit 402, the field image may be obtained by performing omnidirectional capturing or scanning on a field by using the image capturing device, and the scene configuration unit 402 may include: the 3D model generating device 4021 and the scene configuring device 4022, the scene configuring unit 402 may be in data communication with the 3D scene library 403 and the device 3D model library 404, the scene configuring unit 402 may be in data communication with the intervention and modification interface 405, the scene configuring unit 402 may be in data communication with the 3D visual scene display platform 406 through a restful design architecture, the device management platform 407 may be in data communication with the 3D visual scene display platform 406 through a restful design architecture, a remote procedure call (remote procedure call, rpc) design architecture, and the like, the device gateway 408 may be in data communication with the device management platform 407 through a distributed message middleware (dockmq), the internet of things device 409 may be in data communication with the device gateway 408 through an internet of things protocol, which may be a hypertext transfer protocol (Hyper Text Transfer Protocol, HTTP) and a message queue telemetry protocol (Message Queuing Telemetry Transport, mqtt) for full duplex communication.

In practical applications, the original three-dimensional model has content to be adjusted, and how to generate a new digital space model according to the adjusted original three-dimensional model is further described below.

As an optional implementation manner, the scene configuration method further includes: responding to the adjustment operation of the original three-dimensional model on the operation interface to obtain a target three-dimensional model; a digital space model is generated based on the target three-dimensional model.

In this embodiment, the adjustment operation may be fine adjustment of the original three-dimensional model, and the digital space model may be a final digital space model obtained by fine adjustment. Optionally, in response to the adjustment operation on the original three-dimensional model on the operation interface, a target three-dimensional model may be obtained, based on the obtained target three-dimensional model, a digital space model may be generated, that is, after the original three-dimensional model of the real space scene is displayed on the operation interface, fine adjustment is performed on model information in the original three-dimensional model on the operation interface, in response to the fine adjustment is performed on model information in the original three-dimensional model, an adjusted target three-dimensional model is obtained, and a digital space model of the real space scene is generated according to the type of the adjusted target three-dimensional model, where the type of the adjusted target three-dimensional model may include, but is not limited to: the method comprises the steps of obtaining an original three-dimensional model of a monitoring center scene in a high school, an original three-dimensional model of a monitoring center scene in a hospital, an original three-dimensional model of a monitoring center scene in an office building, an original three-dimensional model of a monitoring center scene in a organization and the like, so that the technical effects of ensuring the high degree of reduction and fidelity of the model are achieved.

Optionally, fine adjustment is performed on wall information in the original three-dimensional model on the operation interface, the adjusted target three-dimensional model is obtained in response to fine adjustment of the wall information in the original three-dimensional model, and a digital space model of the real space scene is generated according to the type of the adjusted target three-dimensional model, which is not particularly limited and only illustrated herein.

Optionally, fine adjustment is performed on ground information in the original three-dimensional model on the operation interface, the adjusted target three-dimensional model is obtained in response to fine adjustment is performed on the ground information in the original three-dimensional model, and a digital space model of the real space scene is generated according to the type of the adjusted target three-dimensional model, which is not particularly limited and only illustrated herein.

Optionally, fine adjustment is performed on the door and window information in the original three-dimensional model on the operation interface, the adjusted target three-dimensional model is obtained in response to fine adjustment of the door and window information in the original three-dimensional model, and a digital space model of the real space scene is generated according to the type of the adjusted target three-dimensional model, which is not particularly limited and only illustrated herein.

In practical application, the recommended configuration scheme includes content to be adjusted, and how to display the adjusted recommended configuration scheme is further described below.

As an optional implementation manner, the scene configuration method further includes: responding to the adjustment operation of the recommended configuration scheme on an operation interface; and displaying the adjusted recommended configuration scheme on the operation interface.

In this embodiment, the above adjustment to the recommended configuration scheme may be an adjustment to the recommended configuration scheme proposed by the user when freely browsing and interacting on the operation interface. Optionally, in response to an adjustment operation on the recommended configuration scheme on the operation interface, displaying the adjusted recommended configuration scheme on the operation interface, that is, after the original recommended configuration scheme of the target scene is previewed on the operation interface, adjusting layout information in the original recommended configuration scheme on the operation interface, and in response to the adjustment of the layout information in the original recommended configuration scheme, displaying the adjusted recommended configuration scheme on the operation interface, wherein the layout information can include, but is not limited to, information such as installation space and wiring position of the target device in the digital space model, so that a technical effect that the scene configuration requirement can be met highly is achieved.

Optionally, the digital space model of the generated real space scene is displayed to the user on the operation interface, and meanwhile, the user can be ensured to browse and interact freely on the operation interface, so that the scene design effect is better known.

Optionally, adjusting the layout information of the display screen in the original recommended configuration scheme on the operation interface, and in response to adjusting the layout information of the display screen in the original recommended configuration scheme, displaying the adjusted recommended configuration scheme on the operation interface.

Optionally, adjusting the layout information of the cameras in the original recommended configuration scheme on the operation interface, and in response to adjusting the layout information of the cameras in the original recommended configuration scheme, displaying the adjusted recommended configuration scheme on the operation interface.

Optionally, adjusting the layout information of the switches in the original recommended configuration scheme on the operation interface, and in response to adjusting the layout information of the switches in the original recommended configuration scheme, displaying the adjusted recommended configuration scheme on the operation interface.

Optionally, adjusting the layout information of the air conditioner in the original recommended configuration scheme on the operation interface, and in response to adjusting the layout information of the air conditioner in the original recommended configuration scheme, displaying the adjusted recommended configuration scheme on the operation interface.

Optionally, the layout information of the table and chair in the original recommended configuration scheme is adjusted on the operation interface, and the adjusted recommended configuration scheme is displayed on the operation interface in response to the adjustment of the layout information of the table and chair in the original recommended configuration scheme.

In practical applications, the recommended configuration scheme of the target scene is previewed by previewing the device information of the target device and/or the layout information of the target device, and the device information of the target device and/or the layout information of the target device are further described below.

As an optional implementation manner, step S304, previewing the recommended configuration scheme of the target scene on the operation interface includes: and previewing the device information of at least one target device to be deployed in the digital space model and/or the layout information of the target device in the digital space model on an operation interface.

In this embodiment, on the operation interface, the device information of at least one target device to be deployed in the digital space model and/or the layout information of the target device in the digital space model are previewed, that is, on the operation interface, the display screen to be deployed in the digital space and/or the layout information of the display screen in the digital space model are previewed, and on the operation interface, the layout information of other target devices to be deployed in the digital space model and/or other target devices except the display screen in the digital space model are previewed, so that the technical effects of improving the customer experience and the product display are achieved.

As an alternative embodiment, the scene configuration system includes: the client is used for uploading the target image of the fax real space scene; a server for generating an original three-dimensional model based at least on the target image; generating a digital space model of the real space scene based on the original three-dimensional model; determining a target scene type of the digital space model; acquiring a recommended configuration scheme of a target space scene based on scene configuration information associated with the target scene type; and outputting the recommended configuration scheme to the client and displaying the recommended configuration scheme.

In this embodiment, the target image of the real space scene may be uploaded to the server by the client, the original three-dimensional model may be generated based on the target image by the server, wherein the original three-dimensional model may be used to simulate the real space scene, the digital space model of the real space scene may be generated based on the original three-dimensional model by the server, wherein the digital space model may be used to present the real space scene in a digitized form, the target scene type of the digital space model may be determined by the server, the recommended configuration scheme for the target space scene may be obtained based on scene configuration information associated with the target scene type by the server, wherein the scene configuration information may be used to generate rules of the recommended configuration scheme for the digital space model, the recommended configuration scheme may include at least deployment information of the display screen in the digital space model, and the recommended configuration scheme may be output to the client and presented by the server.

According to the method, model data for three-dimensional modeling is generated according to scene demand information of a real space scene and a target image of the real space scene, the model data is subjected to three-dimensional modeling to obtain an original three-dimensional model for simulating the real space scene, a digital space model of the real space scene of which equipment is not built yet can be generated according to the obtained original three-dimensional model, the target scene type of the digital space model is determined, a recommended configuration scheme of the target space scene can be obtained according to scene configuration information related to the target scene type, namely, deployment information of a display screen in the digital space model and deployment information of other target equipment except the display screen in the digital space model are obtained according to an equipment configuration rule base of the scene type, and the deployment information is displayed in the display screen, so that the purposes of improving the templating, customizing and flexibility of the scene design are achieved, the technical problem of low efficiency of scene configuration is solved, and the technical effect of improving the efficiency of the scene configuration is achieved.

Example 2

The embodiment of the invention also provides a scene configuration device. The scene configuration device of this embodiment may be used to perform the scene configuration method shown in fig. 2 according to the embodiment of the present invention.

Fig. 5 is a schematic diagram of a scene configuration device according to an embodiment of the invention. As shown in fig. 5, the scene configuration device 50 may include: an acquisition unit 51, a first generation unit 52, a first determination unit 53, and a configuration unit 54.

The acquiring unit 51 is configured to acquire an original three-dimensional model of a real space scene, where the original three-dimensional model is used to simulate the real space scene.

A first generation unit 52 for generating a digital space model of the real space scene based on the original three-dimensional model, wherein the digital space model is used for rendering the real space scene in a digitized form.

A first determining unit 53 for determining a target scene type of the digital space model.

The configuration unit 54 is configured to obtain and display a recommended configuration scheme for the target space scene based on scene configuration information associated with the target scene type, where the scene configuration information is used to generate a rule of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least includes deployment information of the display screen in the digital space model.

Alternatively, the acquisition unit 51 includes: the generating module is used for generating model data based on scene demand information of the real space scene and a target image of the real space scene, wherein the scene demand information is used for representing the demand for configuring the real space scene; the modeling module is used for carrying out three-dimensional modeling on the model data to obtain an original three-dimensional model.

Optionally, the scene configuration device 50 may further include: the response unit is used for responding to the updating operation of the scene demand information and updating the scene demand information; the second generation unit is used for generating target model data based on the updated scene demand information and the target image of the real space scene; and the updating unit is used for updating the model data into target model data.

Optionally, the scene configuration device 50 may further include: a creation unit for creating scene configuration information under a plurality of scene types matched with the model data; and the second determining unit is used for determining scene configuration information associated with the target scene type in the scene configuration information under the plurality of scene types.

Alternatively, the creation unit may include: the distribution module is used for distributing corresponding scene configuration information to each scene type by using a classification model, wherein the classification model is obtained by performing machine learning training based on scene type samples and scene position information samples associated with the scene type samples.

Alternatively, the configuration unit 54 may include: the acquisition module is used for acquiring and displaying at least one target device to be deployed in the digital space model and/or layout information of the target device in the digital space model based on the scene configuration information, wherein the target device at least comprises a display screen.

Alternatively, the configuration unit 54 may include: the first determining module is used for determining a first recommended configuration scheme of the display screen in the digital space model based on the scene configuration information and displaying the first recommended configuration scheme; and the second determining module is used for determining and displaying a second recommended configuration scheme of at least one associated device of the display screen in the digital space model based on the first recommended configuration scheme, wherein the at least one target device comprises at least one associated device.

Optionally, the scene configuration device 50 may further include: and the third generation unit is used for generating material information and/or quotation information required for configuring the real space scene according to the recommended configuration scheme.

The embodiment of the invention also provides another scene configuration device. It should be noted that, the scene configuration device of this embodiment may be used to execute the scene configuration method shown in fig. 3 according to the embodiment of the present invention.

Fig. 6 is a schematic diagram of another scene configuration device according to an embodiment of the invention. As shown in fig. 6, the scene configuration device 60 may include: a first display unit 61 and a second display unit 62.

The first display unit 61 is configured to display an original three-dimensional model of the real space scene on the operation interface in response to an input operation acting on the operation interface, wherein the original three-dimensional model is used to simulate the real space scene.

A second display unit 62, configured to preview, on the operation interface, a recommended configuration scheme for the target scene in response to a scene configuration operation acting on the operation interface, where the recommended configuration scheme is acquired based on scene configuration information associated with a target scene type of the digital space model, the scene configuration information is used to generate rules of the recommended configuration scheme for the digital space model, the digital space model is generated based on the original three-dimensional model, and is used to present the real space scene in a digitized form, and the recommended configuration scheme at least includes deployment information of the display screen in the digital space model.

Optionally, the scene configuration device 60 may further include: the first adjusting unit is used for responding to the adjusting operation of the original three-dimensional model on the operation interface to obtain a target three-dimensional model; and a fourth generation unit for generating a digital space model based on the target three-dimensional model.

Optionally, the scene configuration device 60 may further include: a second adjustment unit for responding to the adjustment operation of the recommended configuration scheme on the operation interface; and the third display unit is used for displaying the adjusted recommended configuration scheme on the operation interface.

Alternatively, the second display unit 62 may include: and the preview module is used for previewing the equipment information of at least one target equipment to be deployed in the digital space model and/or the layout information of the target equipment in the digital space model on the operation interface.

In the scene configuration device of this embodiment, an acquisition unit is configured to acquire an original three-dimensional model of a real space scene, where the original three-dimensional model is used to simulate the real space scene; the device comprises a first generation unit, a second generation unit and a third generation unit, wherein the first generation unit is used for generating a digital space model of a real space scene based on an original three-dimensional model, and the digital space model is used for presenting the real space scene in a digital form; a first determining unit, configured to determine a target scene type of the digital space model; the configuration unit is used for acquiring and displaying a recommended configuration scheme of the target space scene based on scene configuration information related to the target scene type, wherein the scene configuration information is used for generating a rule of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model, so that the purposes of improving the templating, customizing and flexibility of the scene design are achieved, the technical problem of low scene configuration efficiency is solved, and the technical effect of improving the scene configuration efficiency is further achieved.

Example 3

According to an embodiment of the present invention, there is also provided a computer-readable storage medium. The computer readable storage medium includes a stored program, where when the program is executed by a processor, the device where the storage medium is controlled to execute the scene configuration method in embodiment 1 of the present invention, and specific execution steps are not described herein in detail.

Example 4

According to an embodiment of the present application, there is further provided a processor, where the processor is configured to execute a program, and the specific execution steps of executing the scene configuration method of embodiment 1 of the present application when the program is executed are not described herein in detail.

The foregoing embodiment numbers of the present application are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

In the foregoing embodiments of the present application, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.

In the several embodiments provided in the present application, it should be understood that the disclosed technology may be implemented in other manners. The above-described embodiments of the apparatus are merely exemplary, and the division of the units, for example, may be a logic function division, and may be implemented in another manner, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interfaces, units or modules, or may be in electrical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in the embodiments of the present invention may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied essentially or in part or all of the technical solution or in part in the form of a software product stored in a storage medium, including instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a removable hard disk, a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (16)

1. A scene configuration method, comprising:

acquiring an original three-dimensional model of a real space scene, wherein the original three-dimensional model is used for simulating the real space scene;

generating a digital space model of the real space scene based on the original three-dimensional model, wherein the digital space model is used for presenting the real space scene in a digital form;

determining a target scene type of the digital space model;

and acquiring and displaying a recommended configuration scheme of the target space scene based on scene configuration information associated with the target scene type, wherein the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

2. The method of claim 1, wherein obtaining an original three-dimensional model of a real-space scene comprises:

Generating model data based on scene demand information of the real space scene and a target image of the real space scene, wherein the scene demand information is used for representing demands for configuring the real space scene;

and carrying out three-dimensional modeling on the model data to obtain the original three-dimensional model.

3. The method according to claim 2, wherein the method further comprises:

updating the scene demand information in response to an update operation on the scene demand information;

generating target model data based on the updated scene demand information and the target image of the real space scene;

and updating the model data into the target model data.

4. The method according to claim 2, wherein the method further comprises:

creating scene configuration information under a plurality of scene types matched with the model data;

and determining the scene configuration information associated with the target scene type from the scene configuration information under the plurality of scene types.

5. The method of claim 4, wherein creating scene configuration information for a plurality of scene types that match the model data comprises:

And distributing corresponding scene configuration information to each scene type by using a classification model, wherein the classification model is obtained by performing machine learning training based on a scene type sample and a scene position information sample associated with the scene type sample.

6. The method according to claim 1, wherein acquiring and presenting a recommended configuration scheme for the target space scene based on the scene configuration information associated with the target scene type, comprises:

and acquiring and displaying at least one target device to be deployed in the digital space model and/or layout information of the target device in the digital space model based on the scene configuration information, wherein the target device at least comprises the display screen.

7. The method of claim 6, wherein obtaining and presenting a recommended configuration of the target spatial scene based on the scene configuration information associated with the target scene type, comprises:

determining a first recommended configuration scheme of the display screen in the digital space model based on the scene configuration information and displaying the first recommended configuration scheme;

and determining and displaying a second recommended configuration scheme of at least one associated device of the display screen in the digital space model based on the first recommended configuration scheme, wherein the at least one target device comprises the at least one associated device.

8. The method according to any one of claims 1 to 7, further comprising:

and generating material information and/or quotation information required for configuring the real space scene according to the recommended configuration scheme.

9. A scene configuration method, comprising:

responding to input operation acted on an operation interface, and displaying an original three-dimensional model of a real space scene on the operation interface, wherein the original three-dimensional model is used for simulating the real space scene;

responding to scene configuration operation acted on the operation interface, previewing a recommended configuration scheme of a target scene on the operation interface, wherein the recommended configuration scheme is acquired based on scene configuration information associated with a target scene type of a digital space model, the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, the digital space model is generated based on the original three-dimensional model and used for presenting the real space scene in a digital form, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

10. The method according to claim 9, wherein the method further comprises:

responding to the adjustment operation of the original three-dimensional model on the operation interface to obtain a target three-dimensional model;

the digital space model is generated based on the target three-dimensional model.

11. The method according to claim 9, wherein the method further comprises:

responding to the adjustment operation of the recommended configuration scheme on the operation interface;

and displaying the adjusted recommended configuration scheme on the operation interface.

12. The method of claim 9, wherein previewing the recommended configuration of the target scene on the operator interface comprises:

and previewing equipment information of at least one target equipment to be deployed in the digital space model and/or layout information of the target equipment in the digital space model on the operation interface.

13. A scene configuration system, comprising:

the client is used for uploading the target image of the fax real space scene;

the server is used for generating an original three-dimensional model at least based on the target image, wherein the original three-dimensional model is used for simulating the real space scene; generating a digital space model of the real space scene based on the original three-dimensional model, wherein the digital space model is used for presenting the real space scene in a digital form; determining a target scene type of the digital space model; acquiring a recommended configuration scheme of a target space scene based on scene configuration information associated with the target scene type, wherein the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model; and outputting the recommended configuration scheme to the client and displaying the recommended configuration scheme.

14. A scene configuration device, comprising:

the device comprises an acquisition unit, a simulation unit and a control unit, wherein the acquisition unit is used for acquiring an original three-dimensional model of a real space scene, and the original three-dimensional model is used for simulating the real space scene;

a first generation unit configured to generate a digital space model of the real space scene based on the original three-dimensional model, where the digital space model is configured to present the real space scene in a digitized form;

a first determining unit, configured to determine a target scene type of the digital space model;

the configuration unit is used for acquiring and displaying a recommended configuration scheme of the target space scene based on scene configuration information associated with the target scene type, wherein the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

15. A scene configuration device, comprising:

a first display unit for displaying an original three-dimensional model of a real space scene on an operation interface in response to an input operation acting on the operation interface, wherein the original three-dimensional model is used for simulating the real space scene;

The second display unit is used for responding to scene configuration operation acted on the operation interface, previewing a recommended configuration scheme of a target scene on the operation interface, wherein the recommended configuration scheme is acquired based on scene configuration information related to a target scene type of a digital space model, the scene configuration information is used for generating rules of the recommended configuration scheme for the digital space model, the digital space model is generated based on the original three-dimensional model and used for presenting the real space scene in a digital form, and the recommended configuration scheme at least comprises deployment information of a display screen in the digital space model.

16. A computer readable storage medium, characterized in that the computer readable storage medium comprises a stored program, wherein the program, when run, controls a device in which the computer readable storage medium is located to perform the method of any one of claims 1 to 12.