CN114726913A

CN114726913A - Configuration method of space Internet, fusion system, electronic equipment and readable storage medium

Info

Publication number: CN114726913A
Application number: CN202210334544.6A
Authority: CN
Inventors: 王俊寒
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-31
Filing date: 2022-03-31
Publication date: 2022-07-08

Abstract

The application relates to a configuration method of a space Internet, a fusion system, electronic equipment and a readable storage medium, wherein the configuration method comprises the following steps: setting a universal interconnection space; acquiring scene positioning area acquisition information, and setting a space positioning area in a corresponding area of a global interconnected space based on the scene positioning area acquisition information, wherein a scene positioning area is defined in a real space; generating a model in the spatial positioning area based on the acquired information of the scene positioning area; defining a plurality of identification areas in a space positioning area; reading the subject space directory information, and establishing a fusion area in each identification area based on the subject space directory information; respectively associating the new fusion areas into corresponding theme spaces; a respective area of the scene localization area is defined as a service area based on the identified area. The method and the device have the advantages of improving the utilization efficiency of the universal interconnection space, facilitating modification of material content maintenance and realizing accurate content delivery.

Description

Configuration method of space Internet, fusion system, electronic equipment and readable storage medium

Technical Field

The present application relates to the field of augmented reality, and in particular, to a configuration method, a fusion system, an electronic device, and a readable storage medium for spatial internet.

Background

Augmented Reality (AR) is a new technology for seamlessly integrating real world information and virtual world information, and is a technology for simulating and superimposing entity information (visual information, sound, taste, touch and the like, mainly vision) which is difficult to experience in a certain time space range of the real world originally by scientific technologies such as computers and the like, applying virtual information to the real world and sensing the virtual information by human senses, so that the sensory experience beyond Reality is achieved. The real environment and the virtual object are superimposed on the same picture or space in real time and exist simultaneously. The method not only shows the information of the real world, but also displays the virtual information at the same time, and the two kinds of information are mutually supplemented and superposed.

At present, in the related art of point cloud modeling, a large area of full scene features may be scanned in advance to perform modeling, the model represents information of each point of the scene based on a spatial coordinate system, and then materials are set in the model, so that a user can see the materials by using a terminal device. However, when the data size of the model is large, the amount of the materials stored in the virtual space will be large, and the terminal device will try to present the materials corresponding to all scenic spots on the terminal device based on the user position, so that on one hand, the calculation amount is large and a large amount of invalid data is added, and on the other hand, the maintenance cost is high when the material content needs to be modified, accurate content delivery and update cannot be realized, and the generated benefit is low.

Disclosure of Invention

In order to improve data utilization efficiency, the application provides a configuration method of a space Internet, a fusion system, an electronic device and a readable storage medium.

In a first aspect, the present application provides a configuration method of a spatial internet, which adopts the following technical solution:

a configuration method of a space Internet comprises the following steps:

setting a global interconnection space, wherein the global interconnection space and the reality space are established based on the same coordinate system;

acquiring scene positioning area acquisition information, and setting a space positioning area in a corresponding area of a global interconnected space based on the scene positioning area acquisition information, wherein a scene positioning area is defined in a real space, and the scene positioning area acquisition information is generated based on scene information in the scene positioning area;

generating a model in the space positioning area based on the acquired information of the scene positioning area, wherein the model is used as a matching model for obtaining a positioning result by image recognition;

defining a plurality of identification areas in a space positioning area, wherein different identification areas are positioned at different positions of the space positioning area;

reading the subject space directory information, and establishing a fusion area in each identification area based on the subject space directory information; the established fusion areas correspond to the theme spaces one by one, and materials are arranged in the fusion areas;

respectively associating the new fusion areas into corresponding theme spaces;

a respective area of the scene localization area is defined as a service area based on the identified area.

By adopting the technical scheme, the area in the real space is defined to be used as the scene positioning area, the terminal device is used for collecting the scene information in the scene positioning area, and the collected information of the scene positioning area is generated and uploaded to the server. The scene positioning area is dispersedly arranged in the selected real scene, wherein the selected scene can be a preferred sightseeing spot of a scenic spot in the scenic spot or a defined subject area, which is equivalent to a flow inlet and can perform flow concentration so as to guide a user to concentrate in a service area for interaction and efficiently acquire data. Meanwhile, for the server, the scheme reduces the entry and modeling of invalid data and inefficient data between service areas, thereby improving the operating efficiency of the server.

In addition, in the solution of performing environmental modeling by using the point cloud technology, it is necessary to perform panoramic scanning of the environment by using specific equipment such as a laser radar, which requires a lot of manpower and material resources and generates a large amount of data. However, since the panoramic information is acquired from a large area, there are a lot of contents of short stream of people such as roads and fields. Due to the fact that the utilization rate of the part of content is low, when the real scene of the part of content is changed, the image shot by the terminal device based on the real scene cannot be matched with the established model, and therefore the recognition effect is reduced or the part of content cannot be recognized. In addition, the problem is difficult to find in time due to the rare stream of people. In the scheme, because the area range of the scene positioning area is small and is a high popularity area, data can be efficiently utilized, and can be quickly found and processed when a problem event occurs, thereby being beneficial to improving user experience.

Multiple theme spaces are arranged under the universal interconnection space, namely, a certain point in the real space has a corresponding point in each theme space. Because the global interconnection space and the real space are established based on the same coordinate system, the spatial positions of the corresponding point locations are the same. The server establishes a fusion zone corresponding to each topic space at the identification zone for presenting the related content of the topic space. Through the setting method, different types of materials can be arranged in the fusion areas of different theme spaces according to user groups in different categories so as to be convenient for accurately delivering the content, on one hand, the user experience can be effectively improved, and the materials in a single fusion area have higher relevance, on the other hand, the use amount of the materials in the single fusion area is integrally reduced by reducing the placement of redundant materials, and the capacity requirement and the area downlink bandwidth requirement on a server are reduced.

In addition, a single service area is provided with different fusion areas to correspond to present the content of the universal interconnection space, so that data distribution is favorably carried out on the crowd concentrating to the service area in such a small region, and the server processes access data of the different fusion areas through sub-threads, so that the server has good pressure resistance.

Because different fusion areas in a single theme space correspond to different service areas and are used for presenting different contents under the same theme, the contents of the different fusion areas can not be influenced by each other to a greater extent, and materials in the different fusion areas can be respectively set, so that on one hand, the decomposition and execution of later maintenance work are facilitated, namely, the fusion areas are respectively distributed as maintenance tasks, the maintenance efficiency is improved, on the other hand, when a local large version of a certain theme space is updated, the use is not influenced for other theme spaces and the fusion areas which are not updated and maintained, and the method has good adaptability.

In conclusion, the scheme constructs a five-layer structure of a universal interconnection space, a space positioning area, a theme space, an identification area and a fusion area and a three-layer structure of a real space, a scene positioning area and a service area. The scene positioning area is used as an input interface, the service area is used as an output interface, and an eight-layer virtual-real combined structure of a real space, a scene positioning area, a global interconnection space, a space positioning area, a subject space, an identification area, a fusion area and a service area is formed in a combined mode, so that large scene contents are effectively disassembled, the space of different subject contents can be subjected to space interconnection based on the service areas at different positions in the real space, and the whole system is modularized.

Optionally, in the step of generating the model in the space positioning area based on the information collected by the scene positioning area, the various information of the model in the space positioning area corresponds to the various information of the scene in the scene positioning area one by one.

Optionally, the method further comprises the following steps:

setting an editing operation area in the fusion area and setting materials in the editing operation area;

and establishing data relevance of the same material used by the new fusion area and the existing fusion area in the same theme space.

By adopting the technical scheme, different fusion areas in a single theme space correspond to different service areas so as to be used for presenting different contents under the same theme, and because the fusion areas under one theme space have the same theme, a large amount of repeatedly used materials can be generated. In the scheme, the new fusion area establishes data relevance between the materials with the existing space after the materials are used, so that the required memory can be effectively reduced, the downloading by a user is facilitated, the later maintenance can be facilitated, the materials are replaced in batches, and the maintenance workload is greatly reduced.

Optionally, the step of setting the material in the editing operation area includes:

acquiring editing instruction information, and setting materials in an editing operation area based on the editing instruction information;

and generating a corresponding editing parameter file based on the editing result of the material, wherein the editing parameter file is used for controlling the space state information and the playing time sequence information of the material in the universal interconnection space.

Optionally, the method further comprises the following steps:

and generating a resource package based on the material and the editing parameter file, and issuing the resource package to a user group corresponding to the fusion area corresponding to the resource package.

Optionally, the method further comprises the following steps:

and carrying out differentiated setting on the layout of the editing operation area in the fusion area based on the theme of the theme space.

Optionally, the method further comprises the following steps:

and setting the access authority of the theme space, wherein the fusion area in the same theme space opens access to the same user group.

Optionally, the step of establishing data association between a new fusion zone and the same material used by an existing fusion zone in the same topic space includes:

searching the same material file used in the existing fusion area in the same theme space based on the material in the newly established fusion area;

and establishing an incidence relation between the materials in the newly established fusion area and the searched material files.

Optionally, the same material in the fusion zone to which the same theme space belongs is associated with the same material file.

Optionally, the types of the service areas include a general service area and a special service area, the general service area corresponds to a resource package that can be selected for loading, and the special service area corresponds to a plurality of resource packages that can be selected for loading.

Optionally, the fusion area corresponding to the special service area may correspond to a plurality of different resource packages, and the different resource packages are generated based on different materials and editing parameter files.

Optionally, the method further comprises the following steps:

and obtaining the setting information of the theme space, and updating the catalogue information of the theme space based on the setting information of the theme space.

Optionally, the method further comprises the following steps:

and establishing a new fusion area in each existing identification area based on the newly set theme space, wherein the newly established fusion area is associated with the newly set theme space.

Optionally, the method further comprises the following steps:

and opening an interface to the corresponding user group based on the type of the theme space, wherein the interface is used for receiving the collected information of the scene positioning area.

In a second aspect, the present application provides a system for fusing a global interconnected space and a real space, which adopts the following technical solution:

the utility model provides a universe interconnected space and real space's integration system, includes the server, procedure in the server is used for setting up universe interconnected space, one or more space orientation district, one or more topic space and one or more identification area, universe interconnected space and real space establish based on the same coordinate system, the topic space sets up in universe interconnected space, be provided with the model that is used for cooperating image recognition in order to obtain the location result in the space orientation district, the model generates based on the scene in the real space, all includes the integration district that is located each identification area in each topic space, the material can be arranged in the integration district, the identification area corresponds in the real space has the service area, the service area is used for delineating a certain region in the real space.

Optionally, the method further includes: and the fusion device is used for simultaneously mapping the scene in the fusion area and the scene in the scene positioning area into the same image.

Optionally, the method further includes: and the camera device is used for acquiring the images of the scenes of the real space at the spatial coordinate points in the scene positioning area.

Optionally, the method further includes: and the initial positioning device is used for acquiring the real-time position information and positioning the service area based on the real-time position information.

Optionally, the method further includes: and the precise positioning device is used for positioning the position in the service area based on the acquired image.

Optionally, the method further includes: and the triggering device is used for providing theme space directory information based on the service area positioning information and acquiring corresponding user selection information to select a corresponding fusion area.

In a third aspect, the configuration system for the spatial internet provided by the present application adopts the following technical solutions:

a configuration system for spatial internet, comprising:

the universal interconnection space setting module is used for setting a universal interconnection space, wherein the universal interconnection space and the real space are established based on the same coordinate system;

the system comprises a space positioning area setting module, a global interconnection space and a real space, wherein the space positioning area setting module is used for acquiring scene positioning area acquisition information and setting a space positioning area in a corresponding area of the global interconnection space based on the scene positioning area acquisition information, the scene positioning area is defined in the real space, and the scene positioning area acquisition information is generated based on scene information in the scene positioning area;

the model setting module is used for generating a model in the space positioning area based on the acquired information of the scene positioning area, wherein the model is used as a matching model for obtaining a positioning result by image recognition;

the space positioning area setting module is used for dividing a plurality of identification areas into space positioning areas, wherein different identification areas are positioned at different positions of the space positioning areas;

the fusion area setting module is used for reading the theme space directory information and establishing fusion areas in the identification areas based on the theme space directory information; the established fusion areas correspond to the theme spaces one by one, and materials are arranged in the fusion areas;

the association module is used for associating the new fusion areas into corresponding theme spaces respectively;

and the service area setting module is used for setting the corresponding area of the scene positioning area as the service area based on the identification area.

In a fourth aspect, the present application provides an electronic device, which adopts the following technical solution:

an electronic device, comprising:

one or more processors;

a memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to:

the configuration method of the space Internet is executed.

In a fifth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program that can be loaded by a processor and execute the above method.

The storage medium stores at least one instruction, at least one program, set of codes, or set of instructions that is loaded and executed by the processor to implement:

such as the configuration method of the spatial internet.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the universe interconnection space and the real space break through the secondary walls through a specific fusion method, so that a user can obtain more consumption experience at lower cost. Meanwhile, through the division of different theme spaces, a user can see different virtual effects in different real spaces so as to meet consumption experiences of different crowds;

2. the scheme constructs a five-layer structure of a universe interconnection space, a space positioning area, a theme space, an identification area and a fusion area and a three-layer structure of a real space, a scene positioning area and a service area. The scene positioning area is used as an input interface, the service area is used as an output interface, and an eight-layer virtual-real combined structure of a real space, a scene positioning area, a global interconnection space, a space positioning area, a subject space, an identification area, a fusion area and a service area is formed in a combined mode, so that large scene contents are effectively disassembled, the space of different subject contents can be subjected to space interconnection based on the service areas at different positions in the real space, and the whole system is modularized. The global interconnection space is continuously increased along with the number of the theme space, the space positioning area and the fusion area in the using process, the content is continuously enriched and expanded, the experience feeling of the server is better, and more application experience schemes are provided for users to select; in addition, the system can conveniently modify the display content, has low requirements on scenes and materials, and has good wide adaptability and expansibility;

3. because the global interconnection space is linked in a real scene through the service area, when the card punching shooting is carried out, a user must go to the field service area and can not realize the card punching shooting through surfing the internet indoors, the arrangement is favorable for gathering people on the spot, promotes the development of entity economy, and promotes the interaction relationship among the users so as to attract flow;

4. the scheme emphasizes the production of the global interconnection space content, has small investment and large output, forms a clear contrast with the large investment of the real scene construction, has good economic value and has good supplement effect on the existing travel projects;

5. according to the scheme, scenes in the scene positioning area are scanned to generate corresponding models in the space positioning area, and the terminal performs image comparison on the real-time images shot and the models, so that the accurate position of the terminal in the scene positioning area is determined. Because the essential part in the scene can be selectively modeled, and the optimal position is taken as an identification area for image fusion, the requirements on materials and placement are reduced, and the rapid setting and the efficient maintenance are facilitated;

6. the system does not need additional entity equipment for support, can be quickly and practically used only by means of the existing terminal equipment such as mobile phones and AR glasses, and enables more people to use the system. Meanwhile, the operation interface is simple and easy to use, the user can guide the operation perfectly, and the operation is convenient for various people to use.

Drawings

Fig. 1 is a schematic structural diagram of a fusion system of a global interconnect space and a real space in an embodiment of the present application.

FIG. 2 is a schematic diagram of the relationship between the topic space, the identification region, and the fusion region in an embodiment of the present application.

Fig. 3 is a flowchart of a configuration method of a spatial internet according to an embodiment of the present application.

Fig. 4 is a block flow diagram of a step of setting a new theme space in an embodiment of the present application.

Fig. 5 is a block flow diagram of a method for fusing a global interconnect space and a real space performed by a terminal according to an embodiment of the present application.

FIG. 6 is a block flow diagram of the steps for establishing data associations in an embodiment of the present application.

Description of reference numerals:

1. a global interconnect space; 2. a spatial location area; 3. a subject space; 4. an identification area; 5. a fusion region; 6. a real space; 7. a spatial identification zone; 8. a service area.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The reference numerals of the steps in this embodiment are only for convenience of description, and do not represent the limitation of the execution sequence of the steps, and in actual application, the execution sequence of the steps may be adjusted or performed simultaneously as needed, and these adjustments or substitutions all belong to the protection scope of the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the inventive concepts. As part of this description, some of the drawings of the present disclosure represent structures and devices in block diagram form in order to avoid complicating the disclosed principles. In the interest of clarity, not all features of an actual implementation are described in this specification. Moreover, the language used in the present disclosure has been principally selected for readability and instructional purposes, and may not have been selected to delineate or circumscribe the inventive subject matter, resort to the claims being necessary to determine such inventive subject matter. Reference in the present disclosure to "one implementation" or "an implementation" means that a particular feature, structure, or characteristic described in connection with the implementation is included in at least one implementation, and references to "one implementation" or "an implementation" are not to be understood as necessarily all referring to the same implementation.

The embodiment of the application discloses a fusion system of a global interconnection space and a real space, referring to fig. 1 and 2, comprising a server, wherein a program in the server is used for setting the global interconnection space, one or more space positioning areas, one or more theme spaces and one or more identification areas. The real space is a space where objective substances move, and is a real living environment of human beings, and since the space is considered to be uniform in most cases in a general sense, the orientation of an object in the real space is usually described by taking a world coordinate system as a reference system.

The universal interconnection space is a space formed by simulating and reproducing in a digital form by a computer and used for accommodating digital texts, graphics, images, landscapes and the like. As an example, in some embodiments, the global interconnection space is generated by a given computer program definition in the server, that is, the building of the global interconnection space is performed in the form of computer code, and the content of the global interconnection space is stored in the memory in the form of computer data. For the global interconnect space, the reference system used is more various than the real space, and may be a uniform or non-uniform coordinate system, but in this embodiment, the same coordinate system as the real space is preferred, so as to determine the corresponding relationship between each point in the real space and the global interconnect space.

It should be noted that the reference to the "same reference system" in this application refers to two coordinate systems that can be uniformly scaled, translated, and rotated to coincide corresponding coordinate points, and is not limited to the two coordinate systems being world coordinate systems. For example, real space is in a world coordinate system

As a reference system, the global interconnection space is in a Cartesian coordinate system

As a reference system, there are three points in real space

In the global interconnection space, there are three points

Then it can be considered as in the global interconnect space

Three vectors can be passed aroundThe z-axis rotation is uniformly shortened by one time after 45 degrees, thereby enabling the whole domain in the interconnected space

And in real space

Are superposed one by one. Based on this property, the content of the global interconnection space can be independently edited out of the real space, and after the editing is completed, the content of the real space can be aligned with the content of the global interconnection space even if adaptive translation, rotation, and uniform scaling are performed. However, in order to reduce the operation cost, in the preferred embodiment of the present application, the world coordinate system is adopted for the global interconnection space and the real space coordinate system.

The universal interconnection space is internally provided with a plurality of space positioning areas, the space positioning areas are a certain local area of the universal interconnection space, a scene positioning area is correspondingly arranged in the real space, and the scene positioning area is an area which is defined based on the real space and has a boundary. In a preferred embodiment of the present application, the spatial localization area overlaps the scene localization area in a corresponding region of real space. The space positioning area is provided with a model corresponding to a scene in a real space, namely, the model in the space positioning area corresponds to various information such as roads, buildings, spaces, landscapes, coordinate axes and the like of the scene in the scene positioning area. In the preferred embodiment of the present application, the coordinates of each point of the model in the global interconnection space correspond to the coordinates of each point of the real space scene one by one. After the scene in the real space is modeled, the coordinates of each point of the scene can be accurately digitalized and are reflected in the model of the space positioning area. When the terminal acquires the real-time image of the scene, the real-time image is compared with the model, and therefore the real-time position of the terminal is obtained through calculation.

The global interconnection space comprises one or more theme spaces, the relationship between different theme spaces can be analogized to the relationship between different parallel worlds, and the relationship corresponds to different databases on a data level, so that different theme spaces are not interfered with each other and are relatively independent in the application. Further, the different theme spaces may correspond to different theme contents, such as a theme space with a built-in advertisement theme material, a theme space with a built-in starry sky theme material, or a theme space with a built-in festival theme material.

Each topic space contains one or more blend zones, and different blend zones are understood to be different regions within the topic space. Specifically, one or more local regions can be divided into the space positioning region as identification regions, a fusion region is arranged in each identification region of each topic space, and the fusion region and the real space are the same and use a world coordinate system as a reference system, that is, space coordinates in the fusion region correspond to real space coordinates one to one. All correspond in every amalgamation district and be provided with the material, the material is arranged in with the scene cooperation in the real space to present the better experience of giving the user on the terminal in the integration.

In addition, the identification area corresponds to a service area in a real space, the service area is a defined area with a boundary based on the real space and is used as a channel for fusing scenes in the real space and the universal interconnection space, and in some embodiments, a positioning device can be used for precise positioning to mark a specific coordinate position of the service area on a world coordinate system, generate data and upload the data to the server for storage. The terminal can enable images in the real space and the universal interconnection space to be mutually superposed through a certain fusion method, and form corresponding images on the terminal equipment for watching and using of a user, such as photographing or video recording.

Further, in some embodiments, the same material of each blend zone in the same subject space may point to the same call address, which corresponds to a certain material information file. That is, when the material information file is deleted or replaced, the corresponding material of each blend zone in the subject space is also deleted or replaced. Through the arrangement, materials in different fusion areas in the same theme space can be modified in a unified mode, and the operation and maintenance cost is effectively reduced.

Specifically, the types of the materials are various, namely, the materials can be laser shows, light and shadow shows, projection shows, unmanned plane shows, firework shows and the like, and the materials can be represented by urban night scene light shows; can also be starry sky patterns, aurora patterns, snowflake patterns, meteor patterns, cherry blossom patterns and maple leaf patterns; or can be commercial release, interactive advertisement, personal creative exhibition, commemoration, recalling cloud and sweeping graves, and a scene which cannot be seen at ordinary times is built in the urban space; or an organic combination of patterns or elements to make a meaningful expression.

In some embodiments, a blank buffer may be disposed between adjacent service areas, where the device terminal cannot enter the global interconnection space, i.e., cannot access the content information of the fusion area. Specifically, in some embodiments, each point in the real space that needs to be defined as a service area may be scanned by a specific terminal device and a positioning coordinate of the point is obtained, so as to define the service area, and an area outside the service area is used as a blank buffer area. When the terminal equipment is used, the terminal positioning system is matched to judge whether the terminal equipment enters a service area.

In other embodiments, a method for setting a service area and a blank buffer area includes the following steps:

a. recording a service area center coordinate point, wherein the service area center coordinate point is positioned in a real space;

b. setting an area within a preset radius from a center coordinate point of a service area as the service area;

c. and setting the part outside the service area as a blank buffer area.

It should be noted that the shapes of the service area and the identification area in the present solution are not limited to circular shapes, but any design shape of the service area that can facilitate the determination of whether to leave or enter the service area may be used. The shapes of the service area and the identification area do not require strict correspondence, and the positions do not require strict correspondence. For example, in some embodiments, the range of the service area may also be set to coincide with the identification area, in other embodiments, the range of the service area may also be set inside the identification area, and in other embodiments, the range of the service area may also be set to partially overlap with the identification area.

The fusion system further comprises terminal equipment, wherein the terminal equipment is used for executing the fusion method of the universal interconnection space and the real space for displaying. In some embodiments, the terminal device includes a preliminary positioning device, a precise positioning device, a triggering device, a camera device, and/or a fusion device. The primary positioning device is used for acquiring real-time position information and positioning the service area based on the real-time position information; the precise positioning device is used for positioning the position in the service area based on the acquired image; the trigger device is used for providing theme space directory information based on the service area positioning information and acquiring corresponding user selection information to select a fusion area corresponding to the corresponding theme space; the camera device is used for acquiring images of scenes of the real space at each space coordinate point in the scene positioning area; the fusion device is used for mapping the scene in the fusion area and the scene in the scene positioning area into the same image at the same time.

Through the preliminary positioning device, the terminal equipment is used for detecting the service area where the terminal equipment is located, and acquiring fusion area information, namely topic space directory information, of each topic space corresponding to the service area based on the service area information. When the user selects the corresponding theme space based on the theme space directory information, the process of inputting the user selection information to the terminal device is performed. And then the camera device acquires an image of the real space, and the accurate positioning device matches the built-in scene model based on the acquired real-time image to obtain the accurate coordinate of the terminal equipment in the real space. Meanwhile, after the triggering device obtains the user selection information, the triggering device sends information to the fusion device to convey the fusion area needing to be fused. After receiving the information, the fusion device maps the real space scene in the service area and the scene in the selected fusion area into the same image.

The embodiment of the application also discloses electronic equipment and a configuration method of the space Internet based on the electronic equipment. The electronic device is used for executing the configuration method of the space internet so as to realize the fusion system of the universal internet space and the real space. Specifically, the electronic device includes at least: a processor and a memory. Wherein the processor is coupled to the memory, such as via a bus.

The memory is used for storing application program codes for executing the scheme of the application and is controlled by the processor to execute. The processor is configured to execute the application program code stored in the memory to implement the aspects illustrated in the foregoing method embodiments.

By way of example, in various embodiments, the Processor may be a CPU (Central Processing Unit), a general purpose Processor, a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate array), or other Programmable logic device, transistor logic, hardware component, or any combination thereof. Which may implement or execute the various illustrative logical blocks, modules, and circuits described in connection with the disclosure herein. A processor may also be a combination of computing functions, e.g., comprising one or more microprocessors, a DSP and a microprocessor, or the like. In some cases, the processor may also be replaced with a cloud server.

A bus may include a path that transfers information between the above components. By way of example, in various embodiments, the bus may be a PCI (Peripheral Component Interconnect) bus, an EISA (Extended Industry Standard Architecture) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown in FIG. X, but it is not intended that there be only one bus or one type of bus.

By way of example, in various embodiments, the Memory may be a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory), a CD-ROM (Compact disc Read Only Memory) or other optical disc storage, optical disc storage (including Compact disc, laser disc, optical disc, digital versatile disc, Blu-ray disc, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to such. In some cases, the processor may also be replaced with cloud memory.

The configuration method of the space internet disclosed in the embodiment of the application, referring to fig. 3, includes the following steps:

s1, setting a global interconnection space, wherein the global interconnection space and the real space are established based on the same coordinate system.

The universal interconnection space is a space formed by simulating and reproducing in a digital form by a computer and used for accommodating digital texts, graphics, images, landscapes and the like. As an example, in some embodiments, the global interconnection space is generated by a given computer program definition in the server, i.e. the building of the global interconnection space is performed in the form of computer code, and the content of the global interconnection space is stored in the memory in the form of computer data. For the global interconnect space, the reference system used is more various than the real space, and may be a uniform or non-uniform coordinate system, but in this embodiment, the same coordinate system as the real space is preferred, so as to determine the corresponding relationship between each point in the real space and the global interconnect space. It should be noted that the reference to the "same reference system" in this application refers to two coordinate systems that can be uniformly scaled, translated, and rotated to coincide corresponding coordinate points, and is not limited to the two coordinate systems being world coordinate systems. In the preferred embodiment of the present application, the world coordinate system is used for both the global interconnection space 1 and the real space coordinate system.

S2, acquiring scene positioning area acquisition information, and setting a space positioning area in a corresponding area of the universe interconnection space based on the scene positioning area acquisition information, wherein a scene positioning area is defined in a real space, and the scene positioning area acquisition information is generated based on scene information in the scene positioning area.

The scene positioning area is an exact closed area defined in the real space, and the scene positioning area acquisition information is generated based on the scene information in the scene positioning area. After an exact closed area is defined in a real space, three-dimensional data scanning is carried out on the closed area, so that spatial information and scene information in the closed area are stored in an informationized mode. The three-dimensional scanning data can be obtained by using a laser radar, and each point corresponding to the three-dimensional point cloud data contains three-dimensional coordinate information, and sometimes, color information, reflection intensity information, echo frequency information and the like. And carrying out model building of the fusion area through the three-dimensional scanning data, and modeling and displaying the solid object in the real space in the fusion area. For example, a region of a monument of people's hero in Shanghai city on the Shanghai beach is partitioned, three-dimensional data scanning is performed, and three-dimensional scanning data of the region is acquired to serve as scene positioning region acquisition information.

And S3, generating a model in the space positioning area based on the acquired information of the scene positioning area, wherein the model is used as a matching model for obtaining a positioning result by image recognition.

Three-dimensional scan data is acquired and used in the localization area as a reference model for image matching. The global interconnection space is a space corresponding to the real space, and the spatial coordinate points in the global interconnection space are mapped one by one. After a scene in a real space is modeled, coordinates of each point of the scene can be accurately digitalized and are particularly reflected in a model of a global interconnection space. When the terminal acquires the real-time image of the scene in the later period, the real-time image is compared with the model, and therefore the real-time position of the terminal is acquired. Specifically, various types of information of the generated model in the spatial positioning area correspond to various types of information of the scene in the scene positioning area, such as coordinate information or vector information.

And S4, defining a plurality of identification areas in the space positioning area, wherein different identification areas are positioned at different positions of the space positioning area.

The identification area is a region divided from the spatial location area, and in different embodiments, the identification area may be either overlapped with the spatial location area or a local region in the spatial location area. A space positioning area may include a plurality of identification areas separated from each other, and an area between the identification areas serves as a blank buffer area, which does not provide a positioning service for the terminal in a corresponding area of a real space.

S5, reading the theme space directory information, and establishing a fusion area at each identification area based on the theme space directory information; the established fusion areas correspond to the theme spaces one by one, and the materials are arranged in the fusion areas.

The memory of the server stores the related information of each topic space, and the topic space directory information is used for representing a name list of the topic space, namely, the corresponding name of each topic space is contained. By reading and analyzing the subject space directory information, the number of the subject spaces and whether the subject spaces are available can be known. In addition, the theme space is set with corresponding access authority, and the fusion area in the same theme space opens access to the same user group.

Optionally, referring to fig. 4, before S5 or after S5, the method may further include the following steps:

obtaining theme space setting information and updating theme space catalogue information based on the theme space setting information;

and establishing a new fusion area in each existing service area based on the newly set theme space, wherein the newly established fusion area is associated with the newly set theme space.

The server is provided with a data interface for receiving theme space setting information to update the theme space directory information, such as adding and deleting theme spaces. When the theme space is added, all the existing identification areas will synchronously establish a fusion area corresponding to the theme space. For example, there are fifty identification areas at present, and when a new theme space is added, fifty fusion areas are generated in the theme space, and the newly formed fusion areas correspond to the fifty identification areas one by one.

The fusion areas are established based on the newly selected identification areas, and it should be noted that the number of the newly established fusion areas is the same as the number of the topic spaces in the read topic space directory information, so that the topic spaces can be in one-to-one correspondence with one newly established fusion area. The positions of each point in the space are calibrated by each newly established fusion area and the real space based on the same reference system, and it should be noted that the reference systems selected by each newly established fusion area are not mandatory to be completely the same and can be set based on actual needs.

By way of example, in some embodiments, the creation of the fusion area is equivalent to creating a sub-library or sub-table in a program on the server, for independently accommodating the material parameter file, and corresponding to a separate thread for performing processing calculation on the uplink and downlink data.

And S6, respectively associating the new fusion areas into corresponding theme spaces, and determining corresponding areas of the scene positioning areas as service areas based on the identification areas.

The number of the new fusion areas is the same as the number of the theme spaces in the theme space directory information, so that the new fusion areas can be associated into the theme space in a one-to-one correspondence manner, and the new service area can be provided with one fusion area in each theme space.

The positioning information of the terminal in the real space can be measured in various ways, and whether the terminal enters the service area is judged through the positioning information. In various embodiments, the information may be generated by a device having a precise positioning function, such as a GPS locator, a cell phone, AR glasses, and the like. Of course, the service area setting information may also be generated without depending on the spatial positioning coordinates, and in some embodiments, entity positioning devices, such as base stations, bluetooth devices, and other signal emitting sources, may also be arranged in a real scene, and the emitted signals include unique identification information, so that the terminal device may determine to enter the corresponding service area when approaching a certain distance. That is, the service area setting information may be set based on the unique identification information.

In most embodiments, the location of the identified region in the global interconnect space corresponds to the location of the service region in real space. Of course, in particular embodiments, the location of the identification regions may be separate from the service regions, or the identification regions may have a broader extent relative to the service regions, rather than being confined to the service regions, as long as the identification regions all correspond to the same service region and the identification regions are located in the location region.

The identification areas are dispersedly arranged in the space positioning area, wherein the identification areas can be corresponding to preferred sightseeing spots of scenic spots in the scenic area, and can also be defined subject areas, which are equivalent to flow inlets and can concentrate flow so as to guide users to concentrate on the service area for interaction and efficiently acquire data. Meanwhile, for the server, the scheme reduces the entry and modeling of invalid data and inefficient data between service areas, thereby improving the operating efficiency of the server.

For example, a global interconnection space is constructed based on the beach, the conventional scheme at present needs to perform panoramic scanning on the beach and perform modeling, which is equivalent to that the whole beach is used as a space positioning area and a recognition area, and a user can use a terminal device to obtain a fusion image of a material and a real space at any position of the beach. On the one hand like this on the arrangement of universe interconnection space material the work load is comparatively huge, need cover whole beach, and the later stage is not convenient for maintain equally, and on the other hand, the extensive extension of identification area can reduce people stream density, reduces the data usage. In the scheme, the optimal view finding position of the beach is covered by setting the plurality of identification areas, so that people flow is guided to be concentrated, material arrangement is performed based on different fusion areas, and the utilization efficiency of material scenery is effectively improved. In addition, the fusion area and the area between the fusion areas in the theme space are equivalent to a blank buffer area, and materials are not arranged in the fusion area, so that the labor can be saved, and the utilization rate of the storage space of the server can be improved.

And S7, setting an editing operation area in the new fusion area and setting materials in the editing operation area.

The editing operation area is an area used for placing materials in the fusion area and can be used for placing two-dimensional materials or three-dimensional materials. Each editing operation area is arranged in the fusion area based on one anchor point, an independent coordinate system is established based on the anchor point, and materials can be arranged in the editing operation area based on the independent coordinate system. In addition, in some embodiments, the layout of the editing operation region in the corresponding new fusion region may be set differently based on the theme of the theme space.

In real space, the area can be divided into an area where a physical object exists and a blank area where only transparent materials such as air exist, and in order to prevent the materials of the universal interconnection space from interfering with the physical object in real space at the same spatial point, the editing operation area is generally selected and set in the fusion area corresponding to the blank area. In some embodiments, the editing operation zone has a defined boundary to prevent the volume of material from exceeding the editing operation zone and interfering with a physical object in real space at the same point in space.

It should be noted that in various embodiments, the coordinate system of the editing operation area may be directly anchored to the reference system of the fusion area or indirectly anchored to the fusion area through an intermediate reference system. When the intermediate reference frame is changed, the position of the editing operation area on the fusion area is changed correspondingly. The intermediate reference frame can be established in a plurality of numbers, and the editing operation area can be anchored on different intermediate reference frames. Through the arrangement, during later maintenance, the placing orientation of the two-dimensional material and the three-dimensional material in each editing operation area can be conveniently determined, and the materials in the editing operation areas can be conveniently and uniformly adjusted, such as translation or rotation.

Multiple theme spaces are arranged under the universal interconnection space, namely, a certain point in the real space has a corresponding point in each theme space. Because the universe interconnection space and the real space are established based on the same coordinate system, the spatial positions of the corresponding point positions are the same. The server establishes a fusion area at the corresponding position of each topic space based on the identification area, so as to present the related content of the topic space. Through the setting method, different types of materials can be arranged in the fusion areas of different theme spaces according to user groups in different categories so as to be convenient for accurately delivering the content, on one hand, the user experience can be effectively improved, and the materials in a single fusion area have higher relevance, on the other hand, the use amount of the materials in the single fusion area is integrally reduced by reducing the placement of redundant materials, and the capacity requirement and the area downlink bandwidth requirement on a server are reduced.

In addition, single identification area sets up different fusion districts and corresponds to show the content in universe interconnection space, be favorable to carrying out the data reposition of redundant personnel to the crowd who concentrates on the region of service area such as, the server is handled different fusion district access data through dividing the thread, thereby possesses good compressive capacity.

Because different fusion areas in a single theme space correspond to different identification areas and are used for presenting different contents under the same theme, the contents of the different fusion areas can not be influenced to a greater extent, and materials in the different fusion areas can be respectively set, so that the method is beneficial to the decomposition and execution of later maintenance work, and distributes each fusion area as a maintenance task respectively, thereby improving the maintenance efficiency.

In conclusion, the scheme constructs a five-layer structure of a universal interconnection space, a space positioning area, a theme space, an identification area and a fusion area and a three-layer structure of a real space, a scene positioning area and a service area, the scene positioning area is used as an input, the service area is used as an output interface, and the eight-layer virtual-real combination structure of the real space, the scene positioning area, the universal interconnection space, the space positioning area, the theme space, the identification area, the fusion area and the service area is formed in a combined mode, so that the effective disassembly of large scene contents is realized, the spaces of different theme contents can be subjected to space interconnection based on the service areas at different positions in the real space, and the whole system is modularized.

Further, referring to fig. 5, the method for fusing the related universe interconnection space and the real space executed by the terminal corresponding to the solution may include the following steps:

acquiring real-time positioning information, and judging whether the mobile terminal is in a service area or not based on the real-time positioning information;

acquiring real-time image information, and carrying out image recognition on the real-time image information based on the fusion area model;

determining the position of the editing operation area on the real-time image based on the image recognition result;

the material is arranged on the editing operation area based on the editing parameter file.

In the scheme of utilizing the point cloud technology to perform environment modeling, specific equipment such as a laser radar and the like is required to perform environment panoramic scanning, so that the manpower and material resources are more, and the generated data volume is large. However, since the panoramic information is acquired from a large area, there are a lot of contents of short stream of people such as roads and fields. Due to the fact that the utilization rate of the part of content is low, when the real scene of the part of content is changed, the image shot by the terminal device based on the real scene cannot be matched with the established model, and therefore the recognition effect is reduced or the part of content cannot be recognized. In addition, the problem is difficult to find in time due to the rare stream of people. In the scheme, the position of the user can be defined by using real-time positioning technologies such as GPS and the like, so that the traffic is concentrated in the service area.

In addition, the models in the identification areas are discretely distributed and fused, the scale of the models in the areas is small, data can be efficiently utilized, the response speed to problem events is high, and the improvement of user experience is facilitated. And secondly, selecting and calling a corresponding fusion area model by means of the positioning information, wherein the recognition rate of the image is high compared with a continuous space model. Moreover, based on the built model and the editing operation area, the application template can be conveniently generated, the corresponding fusion area can be quickly generated for delivery and use when more theme spaces are built, and use guide and maintenance personnel can be added and distributed pertinently, so that the popularization cost is reduced.

S8, obtaining the editing instruction information, and setting the material in the editing operation area based on the editing instruction information.

The editing instruction information is instruction information for controlling the state of the material in the editing operation area, and includes an addition/deletion instruction, a translation instruction, a rotation instruction, a zoom instruction, and/or other instructions for the material, and the server can adjust the material to a corresponding state based on the editing instruction.

Because the same type of materials, such as starry sky materials, may be used in different editing operation areas, and these materials are different in terms of placing angle, size, and the like, in order to reduce data transmission amount and space occupation amount, when the materials are loaded onto the corresponding editing operation areas, the materials may be subjected to editing operations such as stretching, scaling, rotation and/or translation based on preset material placing information, so as to meet the placing requirements.

Further, the editing instruction information may also include an instruction to adjust the material color information and the playback timing information. The time sequence command is used for controlling the playing time sequence of the materials on each editing operation area, and the time sequence strictly corresponds to the international standard time, so that the time calibration of the terminal is needed when the terminal is used. When different users use different terminals, even if service areas are different, the viewed materials have time sequence consistency. For example, in some embodiments, the material is a motion picture, such as a drone animation, having a certain play duration, and is generally set to play and end at a specific time, or to play in a loop. The preset playing time sequence files updated on each terminal device are the same, so that the material playing effects watched by different terminal devices are consistent.

When the material is placed in the editing operation area, the following steps can be further executed: and establishing data relevance of the same material used by the new fusion area and the existing fusion area in the same theme space.

Different fusion zones within a single topic space correspond to different service zones for presenting different content under the same topic, which would result in a large amount of re-used material due to the same topic in a fusion zone under one topic space. In the scheme, the new fusion area establishes data relevance between the materials with the existing space after the materials are used, so that the required internal memory can be effectively reduced, the downloading by a user is facilitated, the later maintenance can be facilitated, the materials can be replaced in batches, and the maintenance workload is greatly reduced.

Specifically, in some embodiments, referring to fig. 6, the step of establishing data association between the new fusion zone and the same material used by the existing fusion zone in the same topic space may include the following sub-steps:

s81, searching the same material file used in the existing fusion area in the same theme space based on the material in the newly established fusion area;

and S82, establishing the association relationship between the materials in the newly established fusion area and the searched material files.

Through the steps, the same materials of all the fusion areas in the same theme space can be set to point to the same calling address, and the calling address corresponds to a certain material information file. That is, when the material information file is deleted or replaced, the corresponding material of each blend zone in the subject space is also deleted or replaced. Through the arrangement, materials in different fusion areas in the same theme space can be modified in a unified mode, and the operation and maintenance cost is effectively reduced.

Optionally, the types of the service areas include a general service area and a special service area, the general service area corresponds to one resource package, the special service area corresponds to a plurality of resource packages which can be selected for loading, the special service area corresponds to the fusion area and can correspond to a plurality of different resource packages, and the different resource packages are generated based on different materials and editing parameter files.

For example, a one-hundred service areas are arranged in an outer beach area, eighty of the service areas are general service areas, another twenty are special service areas, all starry sky materials used in a fusion area under a parallel space corresponding to the general service areas and the special service areas are associated with the same starry sky material file, and the server can issue starry sky type resource packages or other resource packages which belong to a magic night space theme besides issuing starry sky type resource packages to the fusion areas corresponding to the twenty special service areas. When detecting that the terminal enters the special service area, the terminal generates a data interface for inputting selection information, and after receiving the selection information, the terminal loads a corresponding resource package, such as a resource package of an aurora type theme, so as to quickly provide different theme schemes for users of the same user group.

Through the scheme, the special service area is usually set to be located at the optimal viewing position of the popular scenic spot, the server can quickly replace materials of the special service area based on the layout of the existing editing operation area of the fusion area in the same theme space, on one hand, the existing fusion area can be efficiently utilized, on the other hand, the utilization value of the optimal viewing position of the popular scenic spot is improved, and the user experience is effectively improved.

And S9, generating a corresponding editing parameter file based on the editing result of the material, wherein the editing parameter file is used for controlling the space state information and the playing time sequence information of the material in the universal interconnection space.

The server receives a plurality of pieces of editing instruction information for editing the same material, so that the material in the editing operation area can be edited for a plurality of times, and finally, a corresponding editing parameter file is generated for the editing result of the material.

And S10, generating a resource package based on the material and the editing parameter file, and issuing the resource package to a user group corresponding to the fusion area.

The resource package contains the content information of the fusion area, and the content information corresponds to a material file, an editing parameter file and the like. The material file, i.e., the material image file, may be a two-dimensional image file or a three-dimensional image file according to a specific type. The placing parameter file includes parameter information such as the placing direction and the scaling ratio of the material, the playing time sequence of the material, and the like, and the time sequence strictly corresponds to the international standard time. After the server issues a new resource package, in different embodiments, the old resource package in the terminal device may be deleted or replaced with the corresponding file to save storage space or reserved for later review.

For example, the fusion area issues three resource packages at different time nodes, and all three resource packages are stored on the server for the user to select. Through the setting scheme, the material and the editing parameter file corresponding to the resource package issued at a certain time can be reserved, for example, a targeted material arrangement mode for a certain festival is adopted, so that a user can conveniently select to watch a general scene or a special scene in a special fusion area during the festival, or the material can be directly replaced based on the original resource package when needed, and the effect of rapid issuance is achieved.

Optionally, in a specific implementation process, the server may open an interface to a user group corresponding to the specific topic space, where the interface is used to receive scene positioning area acquisition information or identification area setting information.

The user can utilize the held equipment to carry out data acquisition on the scene of the scene positioning area, and upload the scene positioning area acquisition information to the service area through the data interface corresponding to the user group, so that the user demand condition can be obtained on one hand, and the scene self-defining function is provided for the user on the other hand.

Alternatively, the user selects a closed region as the identified region in the spatial positioning region using the existing spatial positioning region, and the server generates a service region in the real space based on the identified region. In addition, the scheme can obtain the user requirement condition on one hand, and provides the user with the scene self-defining function on the other hand.

The application also discloses a configuration system of the space internet, which comprises:

The embodiment of the application further discloses an electronic device, which comprises a memory and a processor, wherein the memory stores a computer program which can be loaded by the processor and executes the configuration method of the space internet. The execution main body of the method of this embodiment may be a control device, the control device is disposed on an electronic device, the current device may be an electronic device such as a mobile phone, a tablet computer, and a notebook computer with a WIFI function, and the execution main body of the method of this embodiment may also be a Central Processing Unit (CPU) of the electronic device directly.

The embodiment of the application also discloses a computer readable storage medium, which stores a computer program capable of being loaded by a processor and executing the configuration method of the space internet. Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a device (e.g., a mobile phone, a computer, a server, a controlled terminal, or a network device) to execute the method of each embodiment of the present application.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A configuration method of a space Internet is characterized by comprising the following steps:

defining a plurality of identification areas in a space positioning area, wherein different identification areas are positioned at different positions in the space positioning area;

respectively associating the new fusion areas into corresponding theme spaces;

2. The configuration method according to claim 1, wherein in the step of generating the model in the spatial location area based on the collected information of the scene location area, the types of information of the model in the spatial location area correspond to the types of information of the scene in the scene location area one by one.

3. The configuration method according to claim 1, further comprising the steps of:

4. A method according to claim 3, wherein said step of setting material in the editing operation area comprises:

5. The configuration method according to claim 4, further comprising the steps of:

6. The configuration method according to any one of claims 3 to 5, further comprising the steps of:

7. The configuration method according to claim 1, further comprising the steps of:

8. The method according to claim 3, wherein the step of establishing data association between the same material used by the new merged region and the existing merged region in the same subject space comprises:

searching the same material file used in the existing fusion zone in the same subject space based on the material in the newly established fusion zone;

and establishing the incidence relation between the materials in the newly established fusion area and the searched material files.

9. The method according to claim 8, wherein the same material in the fusion zone to which the same theme space belongs is associated with the same material file.

10. The configuration method according to claim 5, wherein the types of the service areas include a general service area and a special service area, the general service area corresponds to a resource package for selecting loading, and the special service area corresponds to a plurality of resource packages for selecting loading.

11. The configuration method according to claim 10, wherein the special service area corresponds to the convergence area and can correspond to a plurality of different resource packages, and the different resource packages are generated based on different materials and editing parameter files.

12. The configuration method according to claim 1, further comprising the steps of:

13. The method of configuration according to claim 12, further comprising the steps of:

14. The configuration method according to claim 1, further comprising the steps of:

15. The utility model provides a universe interconnected space and real space's integration system, its characterized in that, includes the server, procedure in the server is used for setting up universe interconnected space, one or more space location district, one or more subject space and one or more identification area, universe interconnected space and real space are based on the same coordinate system and establish, the subject space sets up in universe interconnected space, be provided with the model that is used for cooperating image recognition in order to obtain the location result in the space location district, the model is generated based on the scene in the real space, all includes the integration district that is located each identification area in each subject space, the material can be arranged in the integration district, the identification area corresponds in the real space has the service area, the service area is used for delineating a certain region in the real space.

16. The fusion system of claim 15, further comprising:

the fusion device is used for mapping the scene in the fusion area and the scene in the scene positioning area into the same image at the same time;

and/or the camera device is used for acquiring images of scenes of the real space at each space coordinate point in the scene positioning area;

and/or the primary positioning device is used for acquiring the real-time position information and positioning the service area based on the real-time position information;

and/or, a precise positioning device for positioning the position in the service area based on the acquired image;

and/or, a triggering device, which is used for providing the subject space directory information based on the service area positioning information and acquiring the corresponding user selection information to select the corresponding fusion area.

17. A configuration system for spatial internet, comprising:

18. An electronic device, comprising:

one or more processors;

a memory;

the configuration method of the spatial internet according to any one of claims 1 to 14 is performed.

19. A computer readable storage medium, wherein the storage medium stores at least one instruction, at least one program, a set of codes, or a set of instructions that are loaded and executed by a processor to implement:

the configuration method of the spatial internet as claimed in any one of claims 1 to 14.