CN111047392A - System, method and storage medium for constructing digital shop - Google Patents

Abstract

The application provides a system, a method and a storage medium for constructing a digital shop, which comprises the following steps: the virtual shop building module is used for building a virtual shop corresponding to the entity shop according to the size information of the entity shop and a preset proportion; the equipment editing module is used for constructing virtual shop equipment corresponding to the entity equipment in the virtual shop according to the attribute information of the entity equipment distributed in the entity shop; the data mapping module is used for obtaining digital information according to the data acquired by the entity equipment and mapping the digital information to corresponding virtual shop equipment; and the virtual shop display module is used for displaying the digital shop, and the digital shop comprises virtual shop equipment mapped with digital information. According to the method and the system, any offline entity shop can be mapped into the digital shop, real operation information is displayed for the user, the user can make effective decisions conveniently, and the operation efficiency of the entity shop is improved.

Description

System, method and storage medium for constructing digital shop

Technical Field

The present invention relates to the field of information processing technologies, and in particular, to a system, a method, and a storage medium for constructing a digital store.

Background

With the rapid development of the e-commerce industry, off-line physical stores face a lot of challenges, how to improve the operation mode of the off-line physical stores, and further, how to improve the competitiveness of the physical stores becomes a topic of close attention of many off-line store managers.

The management mode of the entity shop in the related technical field is as follows: the store operator checks, takes pictures, queries, makes reports in the store and reports the store situation to the upper level. In an actual scene, because a superior manager may simultaneously operate a plurality of off-line physical stores, the superior manager cannot reach each physical store one by one for investigation and management, and can only analyze the operation condition of the stores according to the store condition reported by the store operators, make a decision and further guide the store operators to implement, the objectivity and effectiveness of the decision heavily depend on the store condition reported by the store operators. Therefore, in order to improve the competitiveness of the off-line physical stores, there is an urgent need in the related art for a way to better manage the off-line physical stores.

Disclosure of Invention

The embodiment of the application provides a system, a method and a storage medium for constructing a digital shop, aiming at mapping an off-line entity shop into a digital shop, so that an on-line shop manager can obtain real operation information in the entity shop at the first time according to the digital shop to make an objective and effective decision, and further improve the operation efficiency of the off-line entity shop.

In a first aspect, an embodiment of the present application provides a system for building a digital store, where the system includes:

the virtual shop building module is used for building a virtual shop corresponding to the physical shop according to the size information of the physical shop and a preset proportion;

the equipment editing module is used for constructing virtual shop equipment corresponding to the entity equipment in the virtual shop according to the attribute information of the entity equipment distributed in the entity shop;

the data mapping module is used for obtaining digital information according to the data acquired by the entity equipment and mapping the digital information to corresponding virtual shop equipment;

and the virtual shop display module is used for displaying a digital shop, and the digital shop comprises virtual shop equipment mapped with the digital information.

Optionally, the virtual store building module comprises:

a reading unit for reading a plan view of the physical store;

and the proportion identification unit is used for acquiring the actual length input by the user when the selection operation of the user on the wall surface with the known length on the plan view is detected, and determining the preset proportion according to the proportion of the known length to the actual length.

Optionally, the system further comprises:

the virtual equipment library comprises virtual equipment corresponding to all the entity equipment in the entity shop;

the equipment editing module is used for adding dragged virtual equipment into the virtual shop when dragging operation of a user on the virtual equipment in the virtual equipment library is detected.

Optionally, the system further comprises:

the database is used for storing attribute information of all entity equipment in the entity shop, which is acquired in advance;

the equipment editing module is used for setting the attribute information of the virtual equipment in the virtual shop according to the attribute information and user operation.

Optionally, the virtual device library includes: a virtual shelf;

the equipment editing module is used for setting the number of layers and the single-layer height of the virtual shelf according to the number of layers and the single-layer height of the entity shelf in the entity shop.

Optionally, the virtual device library includes a virtual data acquisition device;

the equipment editing module is used for determining the position of the virtual data acquisition equipment in the virtual shop according to the acquisition range of the entity data acquisition equipment in the entity shop and the position information of the entity equipment in the entity shop and adding the virtual data acquisition equipment to the position when the dragging operation of a user on the virtual data acquisition equipment is detected.

Optionally, the system further comprises:

the editing mode switching module is used for switching the editing mode of the system between a 2D editing mode and a 3D editing mode;

wherein, in the 2D editing mode, the main viewing angle is a top viewing angle; and under the 3D editing mode, the primary visual angle is a roaming visual angle or a bird's-eye view visual angle.

Optionally, the system further comprises:

the visual angle adjusting module is used for adjusting the current sight height and/or depression angle in the 3D editing mode;

and the virtual shop display module is used for displaying the digital shop according to the adjusted current sight line and/or depression angle and a corresponding display mode.

Optionally, the virtual device library includes a virtual data acquisition device;

the equipment editing module is used for determining the position of the virtual data acquisition equipment in the virtual shop according to the predefined virtual equipment position information which has an association relation with the virtual data acquisition equipment when the dragging operation of a user on the virtual data acquisition equipment is detected, and adding the virtual data acquisition equipment to the position.

A second aspect of the embodiments of the present application provides a method for building a digital shop, the method including:

according to the size information of the physical shop, a virtual shop corresponding to the physical shop is constructed according to a preset proportion;

according to attribute information of entity equipment laid in the entity shop, virtual shop equipment corresponding to the entity equipment is built in the virtual shop;

acquiring digital information according to the data acquired by the entity equipment, and mapping the digital information to corresponding virtual shop equipment;

displaying a digitized store including a virtual store device mapped with the digitized information.

A third aspect of embodiments of the present application provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor, performs the steps in the method according to the second aspect of the present application. The embodiment of the application provides a system for constructing a digital shop, which comprises: the virtual shop building module is used for building a virtual shop corresponding to the physical shop according to the size information of the physical shop and a preset proportion; the equipment editing module is used for constructing virtual shop equipment corresponding to the entity equipment in the virtual shop according to the attribute information of the entity equipment distributed in the entity shop; the data mapping module is used for obtaining digital information according to the data acquired by the entity equipment and mapping the digital information to corresponding virtual shop equipment; and the virtual shop display module is used for displaying a digital shop, and the digital shop comprises virtual shop equipment mapped with the digital information. According to the method and the system, any off-line entity shop can be mapped into the digital shop, so that an on-line shop manager can check the operation information in the corresponding entity shop through the digital shop at any time and place, analyze the operation information, make a decision and timely transmit the decision to off-line shop operators, the operators do not need to go to the entity shop to check personally, and the operation efficiency of the entity shop is effectively improved.

Drawings

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

FIG. 1 is a schematic diagram of a system for building a digital store according to one embodiment of the present application;

FIG. 2 is a block diagram of a system for building a digital store according to one embodiment of the present application;

FIG. 3 is a flow chart illustrating a method for building a digital store according to an embodiment of the present application.

Detailed Description

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

Before describing the system for constructing a digital shop provided in the present application, a brief description of a virtual modeling system in the related art will be given below. At present, in the home decoration industry, in order to enhance the immersion of a user, the 3D real-time rendering technology is utilized to realize the virtual mapping of an entity house type, but the virtual mapping is mainly used for displaying decoration effects, the mapping of operation information is not realized, twin objects (such as furniture) are only the physical simulation of a virtual model, in other words, the virtual shop mapped by the rendering technology cannot realize data linkage with the entity shop, and the user cannot obtain real operation information and make decisions according to the virtual shop, so the operation efficiency of the entity shop cannot be improved by the virtual shop in the prior art.

Therefore, in order to overcome the problem of low operation efficiency of the offline physical shop in the related art, the application provides a system for constructing the digital shop, through which any offline physical shop can be mapped into the digital shop, and an online shop manager can check the operation information in the corresponding physical shop through the digital shop at any time and place, analyze the operation information, make a decision and transmit the decision to the offline shop operator in time without personally arriving at the physical shop for inspection. When the system is applied to the convenience store type physical store, the convenience store is mapped into the digital store, so that an online store manager can better manage offline convenience stores, and compared with the method of managing other types of physical stores through the digital store, the effect of improving the store management efficiency is particularly outstanding.

FIG. 1 is a schematic diagram of a system for building a digital store according to one embodiment of the present application. Referring to fig. 1, a system 100 for constructing a digital store provided by the present application includes:

the virtual shop building module 101 is used for building a virtual shop corresponding to the physical shop according to the size information of the physical shop and a preset proportion;

the equipment editing module 102 is configured to construct, in the virtual store, virtual store equipment corresponding to the entity equipment according to attribute information of the entity equipment deployed in the entity store;

the data mapping module 103 is configured to obtain digitized information according to the data acquired by the entity device, and map the digitized information to corresponding virtual store devices;

a virtual store display module 104 for displaying a digitized store including virtual store equipment mapped with the digitized information.

The system 100 for constructing the digital shop can be deployed on a terminal (such as a computer, a smart phone, a tablet and the like), the system 100 provides a visual operation interface and various operation components for a user, and the user can construct a virtual shop by operating the various operation components in the visual operation interface so as to construct the digital shop.

In the present embodiment, the virtual store building module 101 is used to build a virtual store (i.e., a twin store). The virtual shop means: the internal structure of the physical store is completely mapped into a model without any data mapping relation. Illustratively, the length, width and height of the physical store are 10m respectively, and a shelf a and a shelf B are laid inside, a virtual cube with the length, width and height of 10m respectively can be mapped by the virtual store building module 101, and a virtual shelf a and a virtual shelf B are laid inside the virtual store according to the spatial positions of the shelf a and the shelf B in the physical store.

In this embodiment, the virtual store building module 101 is provided with various hardwares, such as: when a virtual shop is built according to a plan, a user can select any one of components in the plan, click and edit (after the click and edit, the visual operation interface is automatically switched to a 3D editing mode by the system 100), then a corresponding component is selected from the hard-mounted components and dragged to the visual operation interface, and the system 100 can automatically identify the size of the component according to the information of the component in the plan and place the component at a corresponding position according to the plan. Illustratively, the user selects a window in the plan view, opens the editing mode, then selects a window from a plurality of types of window components provided by the visual operation interface, drags the window into the visual operation interface (in this case, the 3D editing mode), and the system 100 first zooms the window to a reasonable size according to the determined preset proportion, and then automatically places the window at a specified position corresponding to a specific coordinate in the plan view in the 3D editing mode according to the specific coordinate of the window in the plan view. Therefore, in the above manner, by editing a plurality of hardwares in the visual operation interface, the physical store can be mapped to the twin virtual store according to the plan view.

In the process of constructing the virtual store, the virtual store construction module 101 further provides a component bar to the user through a visual operation interface, and the component bar is provided with basic components for drawing the virtual store, such as a straight line, a curve, a triangle, a circle, and the like. The user can draw the virtual shop by the basic component, for example, when the user draws a wall, the user can draw a straight wall by a selected straight line, and can draw a curved wall by a selected curve; for another example, when the user draws a window, the user may draw a circular window through the selected circle, or draw a triangular window through a triangle. The content item properties and control panels for different content items (e.g., lines, curves, triangles, circles, etc.) in the component bar are different, the content item properties being settable parameters, and the control panels being used to provide executable operations. For example, when the user draws a wall through a straight line, the content item attributes are: wall type, length, height, thickness, etc. may be set. The control panel can present executable operations such as turning a curve wall, splitting the wall surface, deleting the wall surface and the like. In addition, when a user drags a component for operation, the system 100 also provides interaction-operable properties for the component, such as: the method comprises the steps of capturing positioning, determining the length of dragging, selecting a hovering state, closing a self-formed room state and the like so as to improve the convenience of operation of a user.

After the virtual store is obtained by the above embodiment, it is also necessary to add a virtual store device to the virtual store. Wherein the virtual store apparatus may include: the device can be a table, a chair, a sofa, a bed, a bookshelf, a goods shelf, a counter and the like, can also be a computer, an air conditioner, a refrigerator and the like, and can also be a camera, a sensor and other data acquisition devices. The type of the entity equipment is the same as that of the virtual shop equipment, and the equipment corresponding to the virtual shop equipment in the entity shop is called the entity equipment in the application.

In the present embodiment, the device editing module 102 adds a virtual store device to the virtual store created. The system 100 of the present application is provided with a plurality of virtual store devices, and the device editing module 102 can drag any virtual store device into the visual operation interface, and edit the attribute information of the virtual store device by using the attribute information of the physical device deployed in the physical store.

In this embodiment, the attribute information may include: the type of the physical device, the specific coordinates of the physical device, the size of the physical device, the model of the physical device, etc. For example: for a shelf, the information may be: the type of the shelf, the specific coordinates in the physical store (the coordinates can be determined by the plan view corresponding to the physical store), the length of the shelf, the width of the shelf, the height of the shelf, and the like. After the attribute information of the entity equipment is obtained, the virtual shop equipment corresponding to the entity equipment can be constructed according to the attribute information.

In this embodiment, after the virtual store is constructed and the virtual store equipment is constructed in the virtual store, the data mapping module 103 is further required to perform data mapping on the virtual store equipment. The data mapping refers to: establishing an association of the virtual store equipment with target data in the server, for example: and associating the virtual shop equipment with the address of the corresponding target data stored in the server. The target data includes: the data acquired by the entity equipment and/or the data acquired by the entity equipment after being processed are aimed at. The target data is digitized information, and therefore, the digitized information obtained according to the data acquired by the entity device may be the digitized information directly obtained according to the data acquired by the entity device, or the digitized information obtained according to the data obtained by directly processing the data acquired by the entity device.

In this embodiment, after the data mapping of the virtual store equipment is completed, the digital store is obtained. The virtual store display module 104 is used for displaying the digital stores and displaying digital information in the digital stores according to the operation of the user. For example, when the virtual store device selected by the user in the digital store is shelf a, the server queries an address associated with shelf a, and reads digital information related to shelf a from the address, including data directly collected for the physical store device and/or data processed from the collected data, where the collected data may be, for example: the current temperature of the shelf a, the current monitoring video stream of the shelf a, etc., and the processed data may be, for example: the number of the goods currently stored in the shelf A, the types of the goods, the sales condition of the goods, whether the goods are out of stock, whether the goods need to be tallied, whether the goods are hot-sold and the like, and then the digital information is sent to the digital shop to be displayed around the shelf A of the digital shop to respond to the inquiry of the user.

In this embodiment, the data acquisition device is laid in the entity shop, and includes: sensors (for example, sensors with various detection functions such as a temperature sensor, a humidity sensor, a sound sensor, and a power sensor), cameras (cameras with various functions such as a monitoring camera and a face recognition camera), and other IOT (Internet of Things) devices set according to actual business requirements. Thus, the data collected directly for the physical store equipment may include: environmental parameters (such as air temperature, humidity, noise decibel value and the like), equipment parameters (equipment temperature, equipment power consumption and the like), monitoring video streams and the like during the operation of the physical store. The method and the system can also arrange other IOT equipment except the sensor and the camera in the entity shop to collect data required in actual business, and the method and the system are not particularly limited.

In this embodiment, the data obtained by processing the collected data may include: alarm information, customer information, goods information, operation suggestion etc. alarm information can be when the data that the sensor gathered do not satisfy the preset condition, the information that sends, for example: when the temperature detected by the temperature sensor does not meet the preset temperature condition, warning information can be generated; the customer information may be: store-to-store customer figures, store-to-store information, in-store flow movement trajectory information, in-store flow thermodynamic diagrams, and the like; the goods information can be goods placing information, goods transaction information, people-goods interaction information and goods historical selling information; the operation prompt may be: the short of stock prompt, the tally prompt, the shelf layout prompt, the goods recommending prompt and the like. Customer information and goods information can be obtained by analyzing monitoring video streams acquired by cameras arranged in the entity stores and historical operation data of the entity stores, and operation prompts can be obtained by learning the customer information and the goods information through a knowledge-map technology.

The embodiment of the application provides a system for constructing a digital shop, which comprises: the virtual shop building module is used for building a virtual shop corresponding to the physical shop according to the size information of the physical shop and a preset proportion; the equipment editing module is used for constructing virtual shop equipment corresponding to the entity equipment in the virtual shop according to the attribute information of the entity equipment distributed in the entity shop; the data mapping module is used for obtaining digital information according to the data acquired by the entity equipment and mapping the digital information to corresponding virtual shop equipment; and the virtual shop display module is used for displaying the digital shop, and the digital shop comprises virtual shop equipment mapped with digital information. Compared with a virtual modeling system in the related technology, the system for constructing the digital shop can realize data linkage between the digital shop and the entity shop, so that an online shop manager can check the operation information in the corresponding entity shop through the digital shop at any time and any place, analyze the operation information, make a decision and transmit the decision to an offline operator in time without personally arriving at the entity shop for checking, and effectively improve the operation efficiency of the entity shop.

Fig. 2 is an overall schematic diagram of a system for constructing a digital shop according to an embodiment of the present application. In the present embodiment, as shown in fig. 2, the virtual shop building module 101 includes:

a reading unit 1011 for reading a plan view of the physical store;

a ratio identification unit 1012, configured to obtain an actual length input by the user when a selection operation of the user on a wall surface with a known length on the plan view is detected, and determine the preset ratio according to a ratio of the known length to the actual length.

In the present embodiment, when a virtual store is specifically constructed, a new virtual store may be constructed, or construction may be continued on the basis of an existing virtual store. When a new virtual store is constructed, the reading unit 1011 needs to read the plan view of the corresponding physical store, and then the scale recognition unit 1021 determines a preset scale, specifically: the user loads a plan view of a virtual store to be constructed in a visual operation interface, selects a section of wall surface, inputs the real length of the wall surface by dragging a ruler, and the system 100 automatically identifies and obtains a preset proportion according to the input real length of the wall surface and obtains the sizes of all structures (such as the actual size of a window, the length of a beam and the like) involved in the virtual store according to the preset proportion.

In the present application, the system 100 for constructing a digital store is further provided with a virtual device library 105, as shown in fig. 2, the virtual device library 105 includes virtual devices corresponding to all the physical devices in the physical store; the device editing module 102 is configured to add the dragged virtual device to the virtual store when a dragging operation of the virtual device in the virtual device library 105 by the user is detected.

In this embodiment, the device editing module 102 displays each virtual device in the virtual device library 105 through a visual operation interface, and adds a dragged virtual device to the visual operation interface when detecting a dragging operation of a certain virtual device by a user.

After the user drags the virtual device to the visual operation interface, the system 100 may automatically scale the size of the virtual device and place the virtual device at a designated position in the virtual store according to the plan view (the specific operation principle is the same as the operation principle of the hardwares when building the virtual store).

In the present application, the virtual device library 105 includes: a virtual shelf 1051; as shown in fig. 2, the equipment editing module 102 is configured to set the number of floors and the single-layer height of the virtual shelf according to the number of floors and the single-layer height of the physical shelf in the physical store.

In the embodiment of the application, in order to comprehensively map shelf entities in the entity stores, the function of defining the number of layers and the single-layer height of the shelf is also provided for the shelf.

In the present application, the virtual device library 105 further includes a virtual data acquisition device 1052; as shown in fig. 2, the device editing module 102 is configured to, when a dragging operation of the virtual data acquisition device 1052 by a user is detected, determine a position of the virtual data acquisition device 1052 in the virtual store according to an acquisition range of the physical data acquisition device in the physical store and position information of the virtual device in the virtual store, and add the virtual data acquisition device 1052 to the position.

After the user drags the virtual data acquisition device 1052 to the visual operation interface, the device editing module 102 may automatically adjust the size of the virtual data acquisition device 1052 according to the plan view, identify the spatial position of the virtual data acquisition device 1052 in the virtual store, and then place the virtual data acquisition device 1052 in the virtual store corresponding to the identified spatial position.

After all the virtual store devices are added to the virtual store by the device editing module 102, all the virtual store devices may be adjusted, for example: the attribute information such as the direction, angle, and height from the ground of the virtual store equipment is adjusted.

In the present application, the system 100 for constructing a digital store is further provided with a database 106, as shown in fig. 2, wherein the database 106 is used for storing attribute information of all entity devices in the entity store, which is acquired in advance; the device editing module 102 is configured to set attribute information of the virtual devices in the virtual store according to the attribute information and the user operation, and the description of the attribute information may refer to the foregoing description.

Before a user constructs a digital shop for an entity shop, attribute information of all entity shops in the entity shop needs to be collected and uploaded to a server. Illustratively, a counter 1, a counter 2, shelves 1 to 10, cameras 1 to 10 (respectively used for monitoring the shelves 1 to 10), and temperature sensors 1 to 10 (respectively arranged on the shelves 1 to 10) are arranged in the physical store a, and then before the physical store a is constructed, a user uploads the counter 1, the counter 2, the shelves 1 to 10, the cameras 1 to 10, and the temperature sensors 1 to 10, and attribute information of each device (for example, the type of the physical device, specific coordinates of the physical device, the size of the physical device, the model of the physical device, the style of the physical device, and the like) to a server for storage.

In actual circumstances, the plan view may not truly reflect the attribute information of each physical device in the physical store due to drawing errors. Therefore, in the present application, after the system 100 automatically places the virtual device, the user may select the virtual device and reset the attribute information. In the process of resetting the attribute information, the user can also initiate a query request to the server to obtain the real attribute information of the virtual device and set the real attribute information.

The server is respectively in communication connection with the data acquisition equipment in the physical store and the terminal deploying the system 100 for constructing the digital store. After the attribute information of all the devices in the entity store is uploaded to the server by the user, the data acquisition device uploads the data acquired in real time to the server for storage through a network in the operation process of a subsequent entity store.

In the embodiment of the application, the key for constructing the digital shop on the basis of the virtual shop is as follows: establishing a data mapping relation between target entity equipment in the entity shop and target virtual equipment in the virtual shop, wherein the data refers to: the establishment process is executed by the server. The target entity device is an entity device provided with entity data acquisition equipment, and the target virtual device is a device obtained by mapping the target entity device.

After the data mapping relation between the target entity device and the target virtual device in the virtual shop is established, the virtual shop becomes a digital shop. When the user operates the target virtual equipment in the digital shop, the server can display the digital information of the corresponding target physical equipment in the physical shop into the target virtual equipment.

Illustratively, a temperature sensor 1 is arranged on a shelf a in the physical store, and the temperature sensor 1 is responsible for acquiring the temperature value of the shelf a in real time and uploading the temperature value to the server. After the user clicks the virtual store equipment shelf a' mapped by the shelf a in the digital store, the server reads the current temperature value of the shelf a sent by the sensor 1 and displays the temperature value in the digital store, for example: the current temperature value of the shelf a is 25 degrees celsius, and the server may display information such as "the current temperature value of the shelf a is 25 degrees celsius" in the form of a dialog box around the shelf a'.

In another example, a monitoring camera 1 is distributed on a shelf B in the physical store, and the monitoring camera 1 is responsible for monitoring the shelf B and uploading the acquired monitoring video stream of the shelf B to the server. When a user clicks a virtual store equipment shelf B' mapped by the shelf B in a digital store, the server can display a menu item for viewing the monitoring video on the shelf B, and if the menu item for viewing the monitoring video is detected to be triggered by the user, the server reads a real-time monitoring video stream currently acquired by the monitoring camera 1 and displays the real-time monitoring video stream to the user. For example: the server may set a new play window around shelf B' to show the actual status of shelf B in the physical store.

In the present application, as shown in fig. 2, the system 100 for constructing a digital shop may further include:

an editing mode switching module 107, configured to switch an editing mode of the system 100 between a 2D editing mode and a 3D editing mode;

wherein, in the 2D editing mode, the main viewing angle is a top viewing angle; and under the 3D editing mode, the primary visual angle is a roaming visual angle or a bird's-eye view visual angle.

Aiming at the construction of a digital shop, the application provides a 2D editing mode and a 3D editing mode. In the 2D editing mode, a main visual angle is a top-view visual angle of a digital shop, a 3D visual angle is used as a thumbnail, and meanwhile, real-time preview and operation support are provided; in the 3D editing mode, the primary viewing angle is a roaming viewing angle or a bird's-eye viewing angle (adjustable viewing angle height and viewing field width) of the digital shop, and the 2D viewing angle is used as a thumbnail, and simultaneously, real-time preview and operation support is provided.

In the present application, as shown in fig. 2, the system 100 for constructing a digital shop may further include:

a view angle adjusting module 108, configured to adjust a current gaze height and/or a current depression angle in the 3D editing mode;

and the virtual shop display module is used for displaying the digital shop according to the adjusted current sight line and/or depression angle and a corresponding display mode.

In the present embodiment, the interaction rules at different gaze heights and/or depression angles are as follows:

when the sight line is lower than the horizon, displaying the top surface components by default, and hiding all components on the ground and the nearest wall surface;

when the sight line is higher than the horizon line and lower than the ceiling line, the top surface component and the ground component are displayed by default, and the nearest wall surface is hidden;

when the sight line is higher than a ceiling line and the depression angle is less than 60 degrees, the ground components are displayed by default, and all components on the top surface and the nearest wall surface are hidden;

the sight is higher than the ceiling line, and when the depression angle is greater than 60 degrees, the ground components are displayed by default, all the components on the top surface are hidden, and the nearest wall surface is displayed in a semitransparent mode.

Optionally, the device editing module in this embodiment is configured to, when a dragging operation of the virtual data collection device by a user is detected, determine a position of the virtual data collection device in the virtual store according to predefined virtual device position information having an association relationship with the virtual data collection device, and add the virtual data collection device to the position.

The system 100 for building a digital store of the present application can also be used to direct the construction of an offline physical store. For example: before a user builds an offline physical store, hardwares in the store can be designed in advance in the system 100, the optimal positions of various physical devices in the store are determined, and the like, so that great convenience is provided for building the offline physical store, and the use experience of the user is optimized.

In this embodiment, a user may define an optimal position of the virtual data acquisition device 1052 in the virtual store through the device editing module 102, specifically, the virtual data acquisition device 1052 may be arbitrarily dragged and placed in the visual operation interface, and when the virtual data acquisition device 1052 is close to other virtual store devices, the other virtual store devices may generate corresponding feedback information, for example: when a camera A is dragged to be close to the goods shelf A, the goods shelf A can display whether the current goods shelf is provided with the camera or not, and display the monitoring area of the arranged camera or the like.

In the present embodiment, the device editing module 102 provides a function of defining the optimal position of the virtual data-collecting device 1052 in the virtual shop by an algorithm. For example, the user may select one virtual data collection device 1052 from the virtual device library 105, take the virtual data collection device 1052 as a camera a, drag the camera a into the visual operation interface, and then define the association between the camera a and the shelves a, B, C, and D (for example, may double click the camera a to fill in the information of the virtual store device associated with the camera a in the pop-up association information page), after determining the association relationship between the camera a and the shelves a-D, the device editing module 102 automatically adjusts the camera to the optimal position obtained by the algorithm according to the specific position relationship between the shelves a-D in the virtual store according to the preset optimal position algorithm.

The embodiment of the application also provides a method for constructing the digital shop. FIG. 3 is a flow chart illustrating a method of building a digital store according to one embodiment of the present application. Referring to fig. 3, the method for constructing a digital shop of the present application includes the following steps:

step S11: according to the size information of the physical shop, a virtual shop corresponding to the physical shop is constructed according to a preset proportion;

step S12: according to attribute information of entity equipment laid in the entity shop, virtual shop equipment corresponding to the entity equipment is built in the virtual shop;

step S13: acquiring digital information according to the data acquired by the entity equipment, and mapping the digital information to corresponding virtual shop equipment;

step S14: displaying a digitized store including a virtual store device mapped with the digitized information.

The present application provides a method for constructing a digital store based on the provided system 100 for constructing a digital store, wherein step S12 is performed by the virtual store construction module 101 in the system 100, step S12 is performed by the device editing module 102 in the system 100, step S13 is performed by the data mapping module 103 in the system 100, and step S14 is performed by the virtual store display module 104 in the system 100.

The method for constructing the digital stores can be applied to constructing various offline entity stores. Taking a digital store for constructing a convenience store as an example, in a specific application, a convenience store is mapped to a virtual store through the virtual store constructing module 101, then a virtual store device corresponding to an entity device in the convenience store is added to the virtual store through the device editing module 102, then digital information (including data collected for the entity device in the convenience store and/or data obtained by processing the data) is mapped to the virtual store device through the data mapping module 103, and finally the digital store and the digital information are displayed to a user through the virtual store displaying module 104. By the method for constructing the digital store, an online store manager of the convenience store can check the operation information in the convenience store through the digital store at any time and any place, analyze the operation information, make a decision and timely transmit the decision to offline store operators of the convenience store, the online store manager does not need to go to the convenience store to check in person, and the operation efficiency of the convenience store is effectively improved.

Based on the same inventive concept, another embodiment of the present application provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor implements the steps in the method according to the above-described embodiment of the present application.

The application provides a virtual mapping method which is different from the existing equipment physical model virtual modeling system 100 in the prior art and is applied to digital twin strong information reduction, various types of information such as environment information, equipment position information, power transmission information, equipment state information and the like of an entity shop are sensed through an off-line sensor and a camera, and are projected into a three-dimensional space according to a proportion, so that a digital shop is constructed, the high-efficiency transmission of the information is realized, and the following beneficial effects are produced:

through accurate virtual mapping of the physical shop, remote shop patrol of an online shop manager can be realized, and the working efficiency of the manager and the operation efficiency of the physical shop are improved.

And secondly, by improving the comprehensiveness and the strength of the information mapping of the digital twin, the physical information, the surrounding environment information, the real-time interaction information and the like of the electric equipment, the commodity storage equipment and the processing equipment in the entity shop are reflected in a three-dimensional space (namely, a digital shop) in real time, so that more levels of shop detail information are displayed, and the system can be used for predicting the health state, the life cycle and the like of the equipment entity.

And thirdly, through data acquisition of data acquisition equipment such as a line sensor, a camera and the like, combining with strong information real-time restoration of virtual mapping, realizing 360-degree operation analysis on the shop, displaying real-time passenger flow transaction conditions, goods conditions of a shelf, shopping scenes of the shop and the like in a virtual and real combination manner, facilitating an online manager to visually know the integral KPI of the entity shop, and giving a preferable operation suggestion in combination with data analysis, thereby improving the operation efficiency of the entity shop.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

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

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

The system, the method and the storage medium for constructing the digital shop provided by the invention are described in detail, the principle and the implementation mode of the invention are explained by applying specific examples, and the description of the examples is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (11)

1. A system for building a digitized store, the system comprising:

the virtual shop building module is used for building a virtual shop corresponding to the physical shop according to the size information of the physical shop and a preset proportion;

the equipment editing module is used for constructing virtual shop equipment corresponding to the entity equipment in the virtual shop according to the attribute information of the entity equipment distributed in the entity shop;

the data mapping module is used for obtaining digital information according to the data acquired by the entity equipment and mapping the digital information to corresponding virtual shop equipment;

and the virtual shop display module is used for displaying a digital shop, and the digital shop comprises virtual shop equipment mapped with the digital information.

2. The system of claim 1, wherein the virtual store building module comprises:

a reading unit for reading a plan view of the physical store;

and the proportion identification unit is used for acquiring the actual length input by the user when the selection operation of the user on the wall surface with the known length on the plan view is detected, and determining the preset proportion according to the proportion of the known length to the actual length.

3. The system of claim 1, further comprising:

the virtual equipment library comprises virtual equipment corresponding to all the entity equipment in the entity shop;

the equipment editing module is used for adding dragged virtual equipment into the virtual shop when dragging operation of a user on the virtual equipment in the virtual equipment library is detected.

4. The system of claim 3, further comprising:

the database is used for storing attribute information of all entity equipment in the entity shop, which is acquired in advance;

the equipment editing module is used for setting the attribute information of the virtual equipment in the virtual shop according to the attribute information and user operation.

5. The system of claim 3, wherein the virtual appliance library comprises: a virtual shelf;

the equipment editing module is used for setting the number of layers and the single-layer height of the virtual shelf according to the number of layers and the single-layer height of the entity shelf in the entity shop.

6. The system of claim 3, wherein the virtual device library comprises a virtual data collection device;

the equipment editing module is used for determining the position of the virtual data acquisition equipment in the virtual shop according to the acquisition range of the entity data acquisition equipment in the entity shop and the position information of the entity equipment in the entity shop and adding the virtual data acquisition equipment to the position when the dragging operation of a user on the virtual data acquisition equipment is detected.

7. The system of claim 1, further comprising:

the editing mode switching module is used for switching the editing mode of the system between a 2D editing mode and a 3D editing mode;

wherein, in the 2D editing mode, the main viewing angle is a top viewing angle; and under the 3D editing mode, the primary visual angle is a roaming visual angle or a bird's-eye view visual angle.

8. The system of claim 7, further comprising:

the visual angle adjusting module is used for adjusting the current sight height and/or depression angle in the 3D editing mode;

and the virtual shop display module is used for displaying the digital shop according to the adjusted current sight line and/or depression angle and a corresponding display mode.

9. The system of claim 3, wherein the virtual device library comprises a virtual data collection device;

the equipment editing module is used for determining the position of the virtual data acquisition equipment in the virtual shop according to the predefined virtual equipment position information which has an association relation with the virtual data acquisition equipment when the dragging operation of a user on the virtual data acquisition equipment is detected, and adding the virtual data acquisition equipment to the position.

10. A method of constructing a digitized store, the method comprising:

according to the size information of the physical shop, a virtual shop corresponding to the physical shop is constructed according to a preset proportion;

according to attribute information of entity equipment laid in the entity shop, virtual shop equipment corresponding to the entity equipment is built in the virtual shop;

acquiring digital information according to the data acquired by the entity equipment, and mapping the digital information to corresponding virtual shop equipment;

displaying a digitized store including a virtual store device mapped with the digitized information.

11. A computer-readable storage medium, on which a computer program is stored, which program, when being executed by a processor, carries out the steps of the method of building a digital shop according to claim 10.

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