CN116558520A - Method for navigating path in mall, super terminal and storage medium - Google Patents

Abstract

The utility model discloses a route navigation method in a mall, a super terminal and a storage medium, which are applied to a mall management system comprising the super terminal and a plurality of shop terminals, wherein when a user carries a handheld terminal into the mall, the super terminal acquires request information sent by the handheld terminal to determine a target shop, the super terminal also acquires shop information of the target shop and current position information of the handheld terminal, generates a target shop three-dimensional model according to the shop information and the current position information and sends the target shop three-dimensional model to the handheld terminal, so that the user selects the target shop based on the target shop three-dimensional model displayed by the handheld terminal and feeds back the target shop to the super terminal, and the super terminal generates three-dimensional route information according to the target shop information and the three-dimensional map information of the target shop selected by the user and sends the three-dimensional route information to the handheld terminal. Therefore, the user can quickly determine and go to the target store, and the shopping experience of the user is improved.

Description

Method for navigating path in mall, super terminal and storage medium

Technical Field

The application relates to the field of intelligent markets, in particular to a method for navigating paths in a market, a super terminal and a storage medium.

Background

Along with the increasing size of the existing shopping malls, the internal layout is too complex, so that consumers are difficult to acquire information of each shop after entering the mall, and the shops meeting personal preferences are selected for consumption, or when the consumers consume too much time to determine the target shops, a certain time and effort are still required in the process of going to the target shops, the shopping experience of the users is greatly affected, and a large number of consumers are lost in the mall.

Disclosure of Invention

The application relates to a path navigation method in a mall, a super terminal and a storage medium, and aims to solve the problem that consumers in the existing shopping mall are difficult to determine and go to a target shop.

In a first aspect, the present application provides a method for navigating a path in a mall, which is applied to a mall management system, where the mall management system includes a super terminal and a plurality of shop terminals, the super terminal is connected with the plurality of shop terminals through a distributed soft bus, the super terminal stores three-dimensional map information of the mall, and the shop terminals store shop information; the method comprises the following steps:

when a user carries a handheld terminal to enter a mall, the super terminal and the handheld terminal are connected by a distributed soft bus;

The super terminal acquires request information sent by the handheld terminal, and determines a target shop according to the request information;

the method comprises the steps that a super terminal obtains store information of a target store and current position information of a handheld terminal, wherein the store information comprises store position information of the target store;

the super terminal generates a target store three-dimensional model according to store information and current position information;

the super terminal sends the target store three-dimensional model to the handheld terminal, so that a user selects a target store based on the target store three-dimensional model displayed by the handheld terminal and feeds the target store to the super terminal;

the super terminal generates three-dimensional route information according to the target store information and the three-dimensional map information of the target store selected by the user, and sends the three-dimensional route information to the handheld terminal.

In some embodiments, the mall management system further comprises an image capture device disposed within the store; the super terminal sends the three-dimensional model of the target store to the handheld terminal, and the method comprises the following steps:

the super terminal sends image request information to an image acquisition device of a target store so as to acquire current image information acquired by the image acquisition device;

the super terminal sends the target store three-dimensional model and the current image information to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the current image information displayed by the handheld terminal and feeds the target store back to the super terminal.

In some embodiments, the superterminal transmits the target store three-dimensional model to the handheld terminal, comprising:

the super terminal acquires current queuing information of the target store according to the current image information;

the super terminal sends the target store three-dimensional model and the current queuing information to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the current queuing information displayed by the handheld terminal and feeds the target store back to the super terminal.

In some embodiments, the superterminal stores a queuing calculation model; after obtaining the queuing information of the target store, the method further comprises:

the super terminal inputs the current queuing information into a queuing calculation model to obtain the predicted queuing time of the target store;

the super terminal sends the target store three-dimensional model and the predicted queuing time to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the predicted queuing time displayed by the handheld terminal and feeds the target store to the super terminal.

In some embodiments, the superterminal stores classification information for the store; after the super terminal transmits the target store three-dimensional model to the handheld terminal, the method further comprises:

if the user does not select the target store based on the three-dimensional model of the target store displayed by the handheld terminal, feeding back the target store to the super terminal;

The super terminal acquires sub-target stores which are classified as the target stores in the classification information;

the super terminal acquires store information of the sub-target store through a store terminal of the sub-target store;

the super terminal generates a sub-target store three-dimensional model according to store information and current position information of the sub-target store;

the super terminal sends the sub-target shop three-dimensional model to the handheld terminal, so that a user selects a sub-target shop based on the sub-target shop three-dimensional model displayed by the handheld terminal and feeds the sub-target shop back to the super terminal;

the super terminal generates three-dimensional route information according to target store information of the sub-target store selected by the user and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

In some embodiments, the superterminal stores a store recommendation model, the request information including intent consumption information; the super terminal obtains request information sent by the handheld terminal, and determines a target shop according to the request information, including:

the super terminal sends the intention consumption information option to the handheld terminal, so that the handheld terminal sends the intention consumption information selected by the user to the super terminal;

the super terminal inputs the intention consumption information into a store recommendation model to obtain a target store.

In some embodiments, the request information includes target store information; the super terminal obtains request information sent by the handheld terminal, and determines a target shop according to the request information, including:

the super terminal sends target store information options to the handheld terminal, so that the handheld terminal sends target store information selected by a user to the super terminal;

and the super terminal determines the target store according to the target store information.

In some embodiments, the super terminal obtains store information of the target store and current location information of the handheld terminal, including:

the super terminal sends store request information to a store terminal of a target store so as to receive the store information sent by the store terminal;

the super terminal sends position request information to the handheld terminal;

after receiving the position authorization information sent by the user based on the handheld terminal, the super terminal can acquire the current position information of the handheld terminal.

In some embodiments, after the super terminal obtains the current location information of the handheld terminal, the method further includes:

the method comprises the steps that a super terminal obtains binding information sent by a handheld terminal, wherein the binding information comprises sub-terminals bound with the handheld terminal;

the super terminal acquires the current position information of the sub-terminal after receiving the position inquiry information sent by the handheld terminal;

The super terminal generates three-dimensional route information according to the current position information of the handheld terminal, the current position information of the sub-terminal and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

In some embodiments, the three-dimensional map information includes a plurality of landmark information, the landmark information describing a landmark site of the mall; after the super terminal generates three-dimensional route information according to the target store information and the three-dimensional map information of the target store selected by the user, the method further comprises the following steps:

the super terminal acquires a marked place which is needed to be passed by the three-dimensional map information in the three-dimensional map information according to the three-dimensional route information;

the super terminal generates guide information according to the marked place and the three-dimensional map information, wherein the guide information is used for helping a user to go to the marked place;

the terminal device transmits the three-dimensional route information and the guiding information to the handheld terminal.

In a second aspect, the present application provides a super terminal, where the super terminal further includes a processor, a memory, and a computer program stored on the memory and executable by the processor, where the memory stores a policy model, and where the computer program when executed by the processor implements the intra-mall path navigation method provided by the embodiments of the present application.

In a third aspect, embodiments of the present application provide a computer readable storage medium, where a computer program is stored, where the computer program when executed by a processor causes the processor to implement the method for path navigation in a mall provided by the embodiments of the present application.

The embodiment of the application provides a path navigation method in a mall, a super terminal and a storage medium, wherein when a user carries a handheld terminal into the mall, the super terminal acquires request information sent by the handheld terminal to determine a target shop, the super terminal also acquires shop information of the target shop and current position information of the handheld terminal, generates a three-dimensional model of the target shop according to the shop information and the current position information and sends the three-dimensional model to the handheld terminal, so that the user selects the target shop based on the three-dimensional model of the target shop displayed by the handheld terminal and feeds the three-dimensional model back to the super terminal, and the super terminal generates three-dimensional route information according to the target shop information and the three-dimensional map information of the target shop selected by the user and sends the three-dimensional route information to the handheld terminal. Therefore, the super terminal can construct a three-dimensional model of the target store by determining the target store of the user, so that the user can quickly determine and go to the target store, and the shopping experience of the user is improved.

Drawings

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

FIG. 1 is a schematic block diagram of a distributed soft bus provided by an embodiment of the present application;

FIG. 2 is a schematic flowchart of steps of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 3 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 4 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 5 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 6 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 7 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 8 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

FIG. 9 is a flowchart illustrating a further embodiment of a method for path navigation in a mall according to an embodiment of the present application;

fig. 10 is a schematic block diagram of a super terminal provided in an embodiment of the present application.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The flow diagrams depicted in the figures are merely illustrative and not necessarily all of the elements and operations/steps are included or performed in the order described. For example, some operations/steps may be further divided, combined, or partially combined, so that the order of actual execution may be changed according to actual situations.

It is to be understood that the terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

In order to facilitate understanding of the embodiments of the present application, some of the words referred to in the embodiments of the present application are briefly described below.

1. Distributed soft bus: as shown in fig. 1, fig. 1 is a schematic block diagram of a distributed soft bus provided in an embodiment of the present application. A distributed soft bus is a virtual, "intangible" bus. All system equipment developed based on Kaihong OS system in one local area network can be connected, and the system equipment has the characteristics of self discovery, self networking, high bandwidth, low time delay and the like. In addition to connecting hardware devices in the same network protocol, the soft bus technology also supports networking heterogeneous networks of different protocols.

The open source hong Monte system is a brand new system oriented to the universal interconnection era, and provides brand new distributed comprehensive capability on the basis of the capability of the traditional single-equipment system so as to better adapt to the next generation application scenes of multiple equipment, multiple tasks and multiple data.

1. Distributed soft bus: the distributed soft bus provides discovery and connection functions among devices based on the cooperation of the Ethernet, WIFI and Bluetooth; after the devices find each other and connect, the distributed soft bus re-manages the ad hoc network and topology relationship between the devices. The distributed soft bus realizes unified distributed communication management capability among near field devices, provides discovery connection, networking and transmission capability among devices without distinguishing links, and has the main functions as follows:

1) Connection is found: device discovery connection capability based on communication modes such as WIFI and Bluetooth is provided.

2) Equipment networking: unified device networking and topology management capabilities are provided, and networking device information is provided for data transmission.

3) Data transmission: and providing a data transmission channel, and supporting the capabilities of message, byte data transmission and the like.

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

When all charging interfaces of the existing charging pile are connected, a new electric bicycle can be connected to charge only after the charging of the interfaces is completed, particularly, residents at night can hardly find the corresponding charging interface if going to a charging shed at work or night, a great amount of time is wasted, and the next-day travel is influenced.

Mqtt protocol: message queue telemetry transport (Message Queuing Telemetry Transport, MQTT) is an instant messaging protocol developed by international business machines corporation (International Business Machine, IBM) that supports all platforms, connects almost all networking items to the outside, and is used as a communication protocol for sensors and actuators (e.g., networking houses via Twitter).

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Along with the increasing size of the existing shopping malls, the internal layout is too complex, so that consumers are difficult to acquire information of each shop after entering the mall, and the shops meeting personal preferences are selected for consumption, or when the consumers consume too much time to determine the target shops, a certain time and effort are still required in the process of going to the target shops, the shopping experience of the users is greatly affected, and a large number of consumers are lost in the mall. Under the condition that the take-out platform is increasingly large, a rider is difficult to quickly find a target shop through a two-dimensional map on take-out software, and the meal delivery efficiency of the target shop is greatly influenced in the process of searching the target shop in a shopping mall.

In order to solve the above problems, please refer to fig. 2, fig. 2 is a schematic flowchart illustrating steps of a method for path navigation in a mall, which is provided in an embodiment of the present application, and is applied to a mall management system, where the mall management system includes a super terminal and a plurality of shop terminals, the super terminal is connected with the plurality of shop terminals through a distributed soft bus, the super terminal stores three-dimensional map information of the mall, and the shop terminals store shop information.

The super terminal and the shop terminal are respectively provided with an operating system, the super terminal is provided with a first-level operating system, and the shop terminal is provided with a second-level operating system, wherein the first level is higher than the second level.

Specifically, the operating system needs to be an OS system supporting OpenHarmony, and the specific category is not limited by the present embodiment and the drawings, and is described below by taking the kaihong OS as an example.

It should be noted that the authority class of the device in the kaihong os is divided into 6 levels, and the level is specifically L ₀ To L ₅ Wherein L is ₅ At the highest level, L ₀ The method for navigating the intra-store path provided in the embodiment of the present application can be implemented by making the authority level of the super terminal in the kaihong os be higher than the second level of the store terminal, where the authority levels of the super terminal and the store terminal in the kaihong os are not limited by the embodiment and the drawings, and the authority level of the super terminal is L ₄ Store terminal authority level is L ₂ The description is given for the sake of example.

In some embodiments, the super terminal may be a server, the super terminal may be a computer, and the super terminal may be a tablet computer.

In some embodiments, the store terminal may be a computer, the store terminal may be a tablet computer, and the store terminal may be a mobile phone, and the embodiments of the present application do not limit the type of store terminal.

The super terminal stores three-dimensional map information of the mall by means of building a three-dimensional model of the mall corresponding to the super terminal, and corresponding the position of each shop to the generated three-dimensional model, so that the three-dimensional model of the target shop can be built quickly according to the three-dimensional map information when a user determines the target shop.

By way of example, store information stored in the store terminal includes store information that can help a user to quickly lock a target store, such as store a is a hot pot store, whose store information includes: business hours are 12:00-21:00 per day, hot pot shop, and average price of people is 80 yuan. Store information of corresponding stores is stored in each store terminal, and a user is assisted in quickly determining a target store by collecting a plurality of store information.

As shown in fig. 2, the provided intra-mall path navigation method includes steps S101 to S106.

S101, when a user carries the handheld terminal to enter a mall, the super terminal and the handheld terminal are connected through a distributed soft bus.

Specifically, when a user carries a handheld terminal to enter a mall, a super terminal corresponding to the mall can be connected with the handheld terminal through a distributed soft bus due to the fact that the super terminal supports the same communication protocol as the handheld terminal, for example, the communication protocol adapted by Kaihong OS, so that the super terminal can quickly acquire information of the user newly entering the mall, and the rapidity of the intra-mall path navigation method provided by the embodiment of the invention is improved.

In some embodiments, both the superordinate terminal and the handheld terminal support the MQTT communication protocol. In some embodiments, both the super terminal and the handheld terminal support WIFI communication protocols. In some embodiments, both the super terminal and the handheld terminal support a Bluetooth communication protocol. The super terminal and the handheld terminal can establish connection through the distributed soft bus when the handheld terminal enters a mall only by supporting the communication protocol adapted by Kaihong OS, so the communication protocol supported by the super terminal and the handheld terminal is not limited in the embodiment of the application.

In some embodiments, when a user enters a mall gate, a super terminal of the mall and a handheld terminal carried by the user are connected through a distributed soft bus. In some embodiments, when a user drives into a mall parking lot, a super terminal of the mall and a handheld terminal carried by the user are connected through a distributed soft bus. Only when the super terminal recognizes that the user carries the handheld terminal into the range of the market corresponding to the super terminal, the super terminal can establish connection with the user through the distributed soft bus.

S102, the super terminal acquires request information sent by the handheld terminal, and a target shop is determined according to the request information.

Specifically, after the super terminal and the handheld terminal are connected through the distributed soft bus, the handheld terminal sends request information to the super terminal, wherein the request information content is the intention consumption information of the user going to the mall, for example, the user going to the mall hopes to eat spicy, and the price is about 80 yuan per capita. The mall helps the user to quickly determine the target store among the plurality of store information according to the request information.

It should be noted that, the target store may be one store, or may be a store whose store matches the request information to the store with the front matching degree, for example, the request information of the user is spicy, the price is about 80 yuan per person, and the store matches 4 stores to meet the user's requirement, so that the 4 stores are all determined as the target store for the user to select.

S103, the super terminal acquires store information of the target store and current position information of the handheld terminal, wherein the store information comprises store position information of the target store.

Specifically, after determining the target store according to the request information sent by the user through the handheld terminal, the super terminal obtains store information of the target store through the store terminal of the target store and obtains current position information of the handheld terminal, and the positions of the user and the handheld terminal can be quickly determined through obtaining the store position information in the store information, so that the user can quickly go to the target store after confirming the target store.

S104, the super terminal generates a target store three-dimensional model according to the store information and the current position information.

Specifically, the super terminal can generate a three-dimensional model of the target store according to the acquired store information of the target store and the current position information of the handheld terminal carried by the user, wherein the three-dimensional model comprises the position of the target store at the current position of the user and store information of the target store so as to enable the user to confirm whether the user needs to go to the target store for consumption.

When the super terminal determines a plurality of target stores, the three-dimensional model of the target store may include a plurality of stores.

S105, the super terminal sends the target shop three-dimensional model to the handheld terminal, so that a user selects a target shop based on the target shop three-dimensional model displayed by the handheld terminal and feeds the target shop back to the super terminal.

Specifically, the super terminal transmits the three-dimensional model of the target store to the handheld terminal, and the user checks store information of the target store according to the three-dimensional model of the target store and selects a corresponding target store. And feeding the selected target store back to the super terminal to finish the quick determination of the target store by the user according to the request information of the user.

S106, the super terminal generates three-dimensional route information according to the target store information and the three-dimensional map information of the target store selected by the user, and sends the three-dimensional route information to the handheld terminal.

Specifically, after receiving the target store fed back by the user, the super terminal can generate three-dimensional route information according to the position information and the three-dimensional map information of the target store in the target store information, and the three-dimensional route information is sent to the handheld terminal to help the user to quickly go to the target store according to the three-dimensional route information. And the shopping experience of the user is improved, so that the traffic flow of the market can be improved.

The method for path navigation in the mall can be used for constructing the three-dimensional model of the target shop by determining the target shop of the user, and the super terminal can be used for enabling the user to quickly determine the target shop and quickly go to the target shop, so that shopping experience of the user is improved.

In some embodiments, the mall management system further includes an image capturing device disposed in a store, and fig. 3 is a flowchart of still another embodiment implementation of a method for path navigation in a mall according to an embodiment of the present application. As shown in fig. 3, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S201 to 202 are further included in the embodiment corresponding to fig. 3.

S201, the super terminal sends image request information to an image acquisition device of a target store so as to acquire current image information acquired by the image acquisition device.

S202, the super terminal sends the target shop three-dimensional model and the current image information to the handheld terminal, so that a user selects the target shop based on the target shop three-dimensional model and the current image information displayed by the handheld terminal and feeds the target shop back to the super terminal.

According to the method, the image request information is sent to the image acquisition device of the target store by the super terminal, the current image information acquired by the image acquisition device can be acquired, the current image information can determine the number of consumers and the crowding condition of the current target store, and a user can select a corresponding target store to feed back to the super terminal based on the three-dimensional model of the target store displayed by the handheld terminal and the current image information. After the user determines the target store according to the store information, the user is prevented from completing consumption due to excessive congestion in the selected target store, and shopping experience of the user is prevented from being influenced.

The image acquisition device can be a camera, and the user can be helped to know the crowding condition of each store by sending the acquired image information to the store terminal.

Illustratively, in some embodiments, the superterminal transmits the target store three-dimensional model to the handheld terminal, comprising: and the super terminal acquires the current queuing information of the target store according to the current image information. And the super terminal sends the target store three-dimensional model and the current queuing information to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the current queuing information displayed by the handheld terminal and feeds the target store back to the super terminal.

Because the super terminal has the target recognition function, for example, the number information in the image information can be recognized through a yolo algorithm, the number information recognized in the target store is generated into queuing information and fed back to the handheld terminal, so that a user can know the current queuing condition of the target store, and the problem that the consumption experience of the user is influenced due to overlong queuing time can be avoided when the target store is selected.

It should be noted that, in some embodiments, the super terminal stores a queuing calculation model, and after obtaining queuing information of the target store, the method further includes: and the super terminal inputs the current queuing information into the queuing calculation model to obtain the predicted queuing time of the target store. The super terminal sends the target store three-dimensional model and the predicted queuing time to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the predicted queuing time displayed by the handheld terminal and feeds the target store to the super terminal.

The corresponding queuing calculation model is stored in the super terminal, and is generated according to historical queuing information of each store and corresponding queuing time storage, for example, 19 people in store A are currently queued on day X, the average equipotential time of each person is 20 minutes, the super terminal stores the queuing information of each store and the corresponding queuing time, and can generate the corresponding queuing calculation model for calculating the predicted queuing time of the target store according to the queuing information of each store, so that a user can select the target store according to the store information of the target store and the predicted queuing time, the user can accurately know the queuing condition of the target store, and shopping experience of the user is prevented from being influenced by overlong queuing time.

In some embodiments, the super terminal stores classification information of the store, and fig. 4 is a flowchart of still another embodiment of a path navigation method in the store according to the embodiment of the present application. As shown in fig. 4, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S301 to 306 are further included in the embodiment corresponding to fig. 4.

S301, if the user does not select the target store based on the three-dimensional model of the target store displayed by the handheld terminal, feeding the target store back to the super terminal.

S302, the super terminal acquires sub-target stores with the same classification as the target stores in the classification information.

S303, the super terminal acquires store information of the sub-target store through the store terminal of the sub-target store.

S304, the super terminal generates a sub-target store three-dimensional model according to store information and current position information of the sub-target store.

S305, the super terminal sends the sub-target shop three-dimensional model to the handheld terminal, so that a user selects a sub-target shop based on the sub-target shop three-dimensional model displayed by the handheld terminal and feeds the sub-target shop back to the super terminal.

S306, the super terminal generates three-dimensional route information according to target store information of the sub-target store selected by the user and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

If the user does not select a corresponding target store in the three-dimensional model of the target store recommended by the super terminal according to the request information, the information is fed back to the super terminal, and the super terminal acquires at least one sub-target store which is classified by the target store by acquiring the classification information of the stores. Corresponding store information is acquired from a store terminal of the sub-target store, and a sub-target store three-dimensional model is regenerated for secondary selection by the handheld terminal. And generating corresponding three-dimensional route information according to the sub-target stores determined by the user to help the user to quickly go to the sub-target stores. The method provided by the embodiment of the application can quickly determine sub-target stores with the same classification when the user does not select the target stores, help the user to confirm and go to the target stores of the heart instrument as soon as possible, and promote shopping experience of the user.

For example, if the user wants to eat spicy, the super terminal recommends the B-Hunan shop as the target shop to the user for the first time, the user does not select the B-Hunan shop after checking the three-dimensional model of the target shop, the super terminal recommends the A-chafing dish shop as the sub-target shop to the user according to the classification information, and the user confirms to go to the A-chafing dish shop for consumption, and then the super terminal generates three-dimensional route information based on the user terminal and the A-chafing dish shop to the user.

In some embodiments, the super terminal stores a store recommendation model, the request information includes intent consumption information, and fig. 5 is a flowchart of still another embodiment implementation of a method for path navigation in a store according to an embodiment of the present application. As shown in fig. 5, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S401 to S402 are further included in the embodiment corresponding to fig. 5.

S401, the super terminal sends the intention consumption information option to the handheld terminal, so that the handheld terminal sends the intention consumption information selected by the user to the super terminal.

S402, the super terminal inputs the intention consumption information into a store recommendation model to obtain a target store.

The store recommendation model is formed by storing and training according to request information of users in past markets and target store information of final consumption of the users, for example, the intention consumption information of the past users is spicy and 90 yuan per person, the target store of final consumption is an A hot pot store, and the super terminal stores the consumption record to generate the store recommendation model. The intention consumption information of the user is obtained by sending the intention consumption information option to the user, so that the super terminal can be matched with a corresponding target store according to the intention consumption information of the user, and the shopping experience of the user is improved.

In some embodiments, the request information includes target store information. Fig. 6 is a flowchart of still another implementation of a method for path navigation in a mall according to an embodiment of the present application. As shown in fig. 6, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S501 to 502 are further included in the embodiment corresponding to fig. 6.

S501, the super terminal sends the target store information option to the handheld terminal, so that the handheld terminal sends the target store information selected by the user to the super terminal.

S502, the super terminal determines the target store according to the target store information.

Because the user can want to go to a store for consumption when going to the store for consumption, for example, the user wants to go to a C clothing store for shopping, the user can send the information of the target store to be going to, such as the C clothing store, in the request information, and the super terminal directly determines the target store according to the information of the target store selected by the user, so that the user can be helped to quickly go to the target store, and the shopping experience of the user is improved.

Fig. 7 is a flowchart of still another implementation of a method for path navigation in a mall according to an embodiment of the present application. As shown in fig. 7, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S601 to 603 are further included in the embodiment corresponding to fig. 7.

S601, the super terminal sends store request information to a store terminal of a target store so as to receive the store information sent by the store terminal.

S602, the super terminal sends position request information to the handheld terminal.

S603, after receiving the position authorization information sent by the user based on the handheld terminal, the super terminal can acquire the current position information of the handheld terminal.

After the super terminal determines the target store based on the request information, the store terminal can feed back real-time store information to the super terminal by transmitting store request information to the store terminal of the target store. And then, sending the position request information to the handheld terminal, wherein the super terminal can acquire the current position information of the handheld terminal after the handheld terminal passes the authorization, and acquiring corresponding data for generating a target store three-dimensional model subsequently.

It should be noted that, although the super terminal is connected with the handheld terminal through the distributed soft bus, in order to protect the privacy of the user, if the super terminal is not authorized by the handheld terminal, the position information of the super terminal cannot be obtained, so that the safety of the method provided by the embodiment of the application is improved.

Fig. 8 is a flowchart of still another implementation of a method for path navigation in a mall according to an embodiment of the present application. As shown in fig. 8, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S701 to 703 are further included in the embodiment corresponding to fig. 8.

S701, the super terminal acquires binding information sent by the handheld terminal, wherein the binding information comprises sub-terminals bound with the handheld terminal.

S702, the super terminal acquires the current position information of the sub-terminal after receiving the position inquiry information sent by the handheld terminal.

S703, the super terminal generates three-dimensional route information according to the current position information of the handheld terminal, the current position information of the sub-terminal and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

Because the user who enters the mall possibly carries children, when children walk away in the mall, if the position of the children is difficult to be determined through the traditional two-dimensional map, after the authorization of the handheld terminal of the user is obtained, the super terminal can obtain the sub-terminal bound with the handheld terminal, so that the user can inquire the three-dimensional route information of the sub-terminal through the super terminal, the user can quickly go to the corresponding position, and the efficiency of the method provided by the application is improved.

In some embodiments, the three-dimensional map information includes a plurality of landmark information describing landmark locations of the mall. Fig. 9 is a flowchart of still another implementation of a method for path navigation in a mall according to an embodiment of the present application. As shown in fig. 9, as an embodiment, unlike the embodiment corresponding to fig. 2, steps S801 to 803 are further included in the embodiment corresponding to fig. 9.

S801, the super terminal obtains the marked places required to pass through by the three-dimensional map information in the three-dimensional map information according to the three-dimensional route information.

S802, the super terminal generates guiding information according to the marked places and the three-dimensional map information, and the guiding information is used for helping a user to go to the marked places.

S803, the terminal equipment sends the three-dimensional route information and the guiding information to the handheld terminal.

Because there may be a plurality of elevators in the mall, in order to further help the user to go to target store fast, show the sign place that needs to pass through in the three-dimensional route information through the mode of guide information, for example the picture of large-scale public young for the user can go to target store faster, promotes user's shopping experience.

The embodiment of the application provides a path navigation method in a mall, which is characterized in that when a user carries a handheld terminal to enter the mall, a super terminal acquires request information sent by the handheld terminal to determine a target shop, the super terminal also acquires shop information of the target shop and current position information of the handheld terminal, a three-dimensional model of the target shop is generated according to the shop information and the current position information and is sent to the handheld terminal, so that the user selects the target shop based on the three-dimensional model of the target shop displayed by the handheld terminal and feeds the target shop back to the super terminal, and the super terminal generates three-dimensional path information according to the target shop information and the three-dimensional map information of the target shop selected by the user and sends the three-dimensional path information to the handheld terminal. Therefore, the super terminal can construct a three-dimensional model of the target store by determining the target store of the user, so that the user can quickly determine and go to the target store, and the shopping experience of the user is improved.

The application provides a super terminal. Fig. 10 is a schematic block diagram of a super terminal according to an embodiment of the present application, as shown in fig. 10.

The super terminal may include a processor, a memory, and a network interface, among others. The processor, memory and network interface are connected by a system bus, such as an I2C (Inter-integrated Circuit) bus.

Specifically, the processor may be a Micro-controller Unit (MCU), a central processing Unit (Central Processing Unit, CPU), a digital signal processor (Digital Signal Processor, DSP), or the like.

Specifically, the Memory may be a Flash chip, a Read-Only Memory (ROM) disk, an optical disk, a U-disk, a removable hard disk, or the like.

The network interface is used for network communication such as transmitting assigned tasks and the like. It will be appreciated by those skilled in the art that the structure shown in fig. 10 is merely a block diagram of a portion of the structure associated with the present application and is not limiting of the superterminal to which the present application is applied, and that a particular superterminal may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

The processor is configured to run a computer program stored in the memory, and implement corresponding steps in any one of the intra-mall path navigation methods provided in the embodiments of the present application when the computer program is executed.

An exemplary provided superterminal is for the steps of:

when a user carries the handheld terminal to enter a mall, the super terminal and the handheld terminal are connected through a distributed soft bus.

The super terminal acquires the request information sent by the handheld terminal, and determines a target shop according to the request information.

The super terminal acquires store information of the target store and current position information of the handheld terminal, wherein the store information comprises store position information of the target store.

And the super terminal generates a target store three-dimensional model according to the store information and the current position information.

The super terminal sends the target store three-dimensional model to the handheld terminal, so that a user selects a target store based on the target store three-dimensional model displayed by the handheld terminal and feeds the target store to the super terminal.

The super terminal generates three-dimensional route information according to the target store information and the three-dimensional map information of the target store selected by the user, and sends the three-dimensional route information to the handheld terminal.

In some embodiments, the mall management system further comprises an image capture device disposed within the store; the super terminal sends the three-dimensional model of the target store to the handheld terminal for realizing: the super terminal sends image request information to an image acquisition device of the target store so as to acquire current image information acquired by the image acquisition device. The super terminal sends the target store three-dimensional model and the current image information to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the current image information displayed by the handheld terminal and feeds the target store back to the super terminal.

In some embodiments, the superterminal transmits the target store three-dimensional model to the handheld terminal for implementation: and the super terminal acquires the current queuing information of the target store according to the current image information. The super terminal sends the target store three-dimensional model and the current queuing information to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the current queuing information displayed by the handheld terminal and feeds the target store back to the super terminal.

In some embodiments, the superterminal stores a queuing calculation model; after the queuing information of the target store is acquired, the following steps are also realized: the super terminal inputs the current queuing information into a queuing calculation model to obtain the predicted queuing time of the target store. The super terminal sends the target store three-dimensional model and the predicted queuing time to the handheld terminal, so that a user selects the target store based on the target store three-dimensional model and the predicted queuing time displayed by the handheld terminal and feeds the target store to the super terminal.

In some embodiments, the superterminal stores classification information for the store; after the super terminal sends the target shop three-dimensional model to the handheld terminal, the following steps are realized: and if the user does not select the target store based on the three-dimensional model of the target store displayed by the handheld terminal, feeding back the target store to the super terminal. The super terminal acquires sub-target stores which are classified in the same way as the target stores in the classification information. The super terminal acquires store information of the sub-target store through the store terminal of the sub-target store. The super terminal generates a sub-target store three-dimensional model according to store information and current position information of the sub-target store. The super terminal sends the sub-target shop three-dimensional model to the handheld terminal, so that a user selects the sub-target shop based on the sub-target shop three-dimensional model displayed by the handheld terminal and feeds the sub-target shop back to the super terminal. The super terminal generates three-dimensional route information according to target store information of the sub-target store selected by the user and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

In some embodiments, the superterminal stores a store recommendation model, the request information including intent consumption information; the super terminal acquires request information sent by the handheld terminal, and determines a target shop according to the request information, so as to realize: the super terminal sends the intention consumption information option to the handheld terminal, so that the handheld terminal sends the intention consumption information selected by the user to the super terminal. The super terminal inputs the intention consumption information into a store recommendation model to obtain a target store.

In some embodiments, the request information includes target store information; the super terminal acquires request information sent by the handheld terminal, and determines a target shop according to the request information, so as to realize: the super terminal sends the target store information option to the handheld terminal, so that the handheld terminal sends the target store information selected by the user to the super terminal. And the super terminal determines the target store according to the target store information.

In some embodiments, the super terminal obtains store information of the target store and current location information of the handheld terminal for implementation: the super terminal transmits store request information to the store terminal of the target store to receive the store information transmitted by the store terminal. The super terminal sends the position request information to the handheld terminal. After receiving the position authorization information sent by the user based on the handheld terminal, the super terminal can acquire the current position information of the handheld terminal.

In some embodiments, after the super terminal obtains the current location information of the handheld terminal, it is further implemented to: the super terminal acquires binding information sent by the handheld terminal, wherein the binding information comprises sub-terminals bound with the handheld terminal. And the super terminal acquires the current position information of the sub-terminal after receiving the position inquiry information sent by the handheld terminal. The super terminal generates three-dimensional route information according to the current position information of the handheld terminal, the current position information of the sub-terminal and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

In some embodiments, the three-dimensional map information includes a plurality of landmark information, the landmark information describing a landmark site of the mall; after the super terminal generates three-dimensional route information according to the target store information and the three-dimensional map information of the target store selected by the user, the method is further realized: and the super terminal acquires the marked places required to pass through by the three-dimensional map information in the three-dimensional map information according to the three-dimensional route information. The super terminal generates guiding information according to the marked places and the three-dimensional map information, and the guiding information is used for helping a user to go to the marked places. The terminal device transmits the three-dimensional route information and the guiding information to the handheld terminal.

It should be noted that, for convenience and brevity of description, specific working processes of the above-described computer device may refer to corresponding processes in the foregoing intra-market path navigation method, and will not be described herein again.

An embodiment of the present application further provides a computer readable storage medium, where a computer program is stored, where the computer program includes program instructions, and the processor executes the program instructions to implement the steps of the intra-mall path navigation method provided in the foregoing embodiment. For example, the computer program is loaded by a processor, the following steps may be performed:

when a user carries the handheld terminal to enter a mall, the super terminal and the handheld terminal are connected through a distributed soft bus.

The super terminal acquires the request information sent by the handheld terminal, and determines a target shop according to the request information.

The super terminal acquires store information of the target store and current position information of the handheld terminal, wherein the store information comprises store position information of the target store.

And the super terminal generates a target store three-dimensional model according to the store information and the current position information.

The super terminal sends the target store three-dimensional model to the handheld terminal, so that a user selects a target store based on the target store three-dimensional model displayed by the handheld terminal and feeds the target store to the super terminal.

The super terminal generates three-dimensional route information according to the target store information and the three-dimensional map information of the target store selected by the user, and sends the three-dimensional route information to the handheld terminal.

The specific implementation of each operation above may be referred to the previous embodiments, and will not be described herein.

The computer readable storage medium may be an internal storage unit of the computer device of the foregoing embodiment, for example, a hard disk or a memory of the computer device. The computer readable storage medium may also be an external storage device of a computer device, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), etc. provided on the computer device.

Because the computer program stored in the computer readable storage medium can execute any of the intra-market path navigation methods provided in the embodiments of the present application, the beneficial effects that any of the intra-market path navigation methods provided in the embodiments of the present application can be achieved, which are detailed in the previous embodiments and are not described herein.

The foregoing embodiment numbers of the present application are merely for describing, and do not represent advantages or disadvantages of the embodiments. While the invention has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (12)

1. The method is characterized by being applied to a mall management system, wherein the mall management system comprises a super terminal and a plurality of shop terminals, the super terminal is connected with the plurality of shop terminals through a distributed soft bus, the super terminal stores three-dimensional map information of the mall, and the shop terminals store shop information; the method comprises the following steps:

when a user carries a handheld terminal to enter a mall, the super terminal and the handheld terminal are connected by a distributed soft bus;

the super terminal acquires request information sent by the handheld terminal, and determines a target shop according to the request information;

The super terminal acquires store information of the target store and current position information of the handheld terminal, wherein the store information comprises store position information of the target store;

the super terminal generates a target store three-dimensional model according to the store information and the current position information;

the super terminal sends the target shop three-dimensional model to the handheld terminal, so that the user selects the target shop based on the target shop three-dimensional model displayed by the handheld terminal and feeds the target shop back to the super terminal;

and the super terminal generates three-dimensional route information according to the target store information of the target store selected by the user and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

2. The intra-mall path navigation method according to claim 1, wherein the mall management system further comprises an image pickup device provided in a store; the super terminal sends the target shop three-dimensional model to the handheld terminal, and the super terminal comprises:

the super terminal sends image request information to the image acquisition device of the target store so as to acquire current image information acquired by the image acquisition device;

And the super terminal sends the target store three-dimensional model and the current image information to the handheld terminal, so that the user selects the target store based on the target store three-dimensional model and the current image information displayed by the handheld terminal and feeds the target store back to the super terminal.

3. The intra-mall path navigation method of claim 2, wherein the super terminal transmits the target shop three-dimensional model to the handheld terminal, comprising:

the super terminal acquires current queuing information of the target store according to the current image information;

and the super terminal sends the target store three-dimensional model and the current queuing information to the handheld terminal, so that the user selects the target store based on the target store three-dimensional model and the current queuing information displayed by the handheld terminal and feeds the target store back to the super terminal.

4. The intra-mall path navigation method of claim 3, wherein the super terminal stores a queuing calculation model; after the obtaining the queuing information of the target store, the method further includes:

The super terminal inputs the current queuing information into the queuing calculation model to obtain the predicted queuing time of the target store;

and the super terminal transmits the target shop three-dimensional model and the predicted queuing time to the handheld terminal, so that the user selects the target shop based on the target shop three-dimensional model and the predicted queuing time displayed by the handheld terminal and feeds the target shop back to the super terminal.

5. The intra-mall path navigation method according to claim 1, wherein the super terminal stores classification information of a store; after the super terminal transmits the target store three-dimensional model to the handheld terminal, the method further comprises:

if the user does not select the target store based on the three-dimensional model of the target store displayed by the handheld terminal, feeding back the target store to the super terminal;

the super terminal acquires sub-target stores with the same classification as the target stores from the classification information;

the super terminal acquires store information of the sub-target store through a store terminal of the sub-target store;

the super terminal generates a sub-target store three-dimensional model according to store information of the sub-target store and the current position information;

The super terminal sends the sub-target shop three-dimensional model to the handheld terminal, so that the user selects the sub-target shop based on the sub-target shop three-dimensional model displayed by the handheld terminal and feeds the sub-target shop back to the super terminal;

and the super terminal generates three-dimensional route information according to target store information of the sub-target store selected by the user and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

6. The intra-mall path navigation method according to claim 1, wherein the super terminal stores a shop recommendation model, and the request information includes intention consumption information; the super terminal obtains the request information sent by the handheld terminal, determines a target shop according to the request information, and comprises the following steps:

the super terminal sends the intention consumption information option to the handheld terminal, so that the handheld terminal sends the intention consumption information selected by the user to the super terminal;

the super terminal inputs the intention consumption information into the store recommendation model to obtain the target store.

7. The intra-mall path navigation method according to claim 1, wherein the request information includes target store information; the super terminal obtains the request information sent by the handheld terminal, determines a target shop according to the request information, and comprises the following steps:

The super terminal sends target store information options to the handheld terminal, so that the handheld terminal sends the target store information selected by a user to the super terminal;

and the super terminal determines the target store according to the target store information.

8. The intra-mall path navigation method of claim 1, wherein the super terminal acquiring store information of the target store and current location information of the hand-held terminal comprises:

the super terminal sends store request information to a store terminal of the target store so as to receive the store information sent by the store terminal;

the super terminal sends position request information to the handheld terminal;

after receiving the position authorization information sent by the user based on the handheld terminal, the super terminal can acquire the current position information of the handheld terminal.

9. The intra-mall path navigation method of claim 8, wherein after the super terminal acquires the current location information of the handheld terminal, the method further comprises:

the super terminal acquires binding information sent by the handheld terminal, wherein the binding information comprises sub-terminals bound with the handheld terminal;

The super terminal acquires the current position information of the sub-terminal after receiving the position inquiry information sent by the handheld terminal;

and the super terminal generates three-dimensional route information according to the current position information of the handheld terminal, the current position information of the sub-terminal and the three-dimensional map information, and sends the three-dimensional route information to the handheld terminal.

10. The intra-mall path navigation method according to claim 1, wherein the three-dimensional map information includes a plurality of flag information for describing a flag place of the mall; after the super terminal generates three-dimensional route information according to the target store information of the target store selected by the user and the three-dimensional map information, the method further comprises:

the super terminal obtains the landmark places required to be passed by the three-dimensional map information in the three-dimensional map information according to the three-dimensional route information;

the super terminal generates guide information according to the marked place and the three-dimensional map information, wherein the guide information is used for helping a user to go to the marked place;

and the terminal equipment sends the three-dimensional route information and the guiding information to the handheld terminal.

11. A super terminal, characterized in that the super terminal further comprises a processor, a memory, and a computer program stored on the memory and executable by the processor, the memory storing a policy model, wherein the computer program, when executed by the processor, implements the intra-mall path navigation method according to any one of claims 1 to 10.

12. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a computer program which, when executed by a processor, causes the processor to implement the intra-mall route guidance method according to any one of claims 1 to 10.