CN112597375A - Scene following application service system and method based on WiFi6 - Google Patents

Abstract

The invention relates to a scene following application service system and method based on WiFi6, which comprises a dividing module, a service monitoring platform, a switching module and an obtaining module under the coverage of an AP wireless access point, and a connecting device connected with the service monitoring platform through a WiFi6 network protocol; the dividing module is used for dividing scenes according to the range of the area in the subway station; the scenes comprise a planning scene, an inbound scene, a station hall scene, a station platform scene, a riding scene and an outbound scene; the service monitoring platform is used for awakening the corresponding connecting equipment based on the AP wireless access point of the WiFi6 network protocol, so that each scene ID and scene information are associated to the linkage user, and scene following and automatic positioning are carried out; the switching module is used for automatically switching the application services of the linkage user in various scenes; and the acquisition module is used for acquiring the application service under various scenes through the connecting equipment. According to the scheme, effective integration and pushing are carried out on different positioning position scenes, and passengers can efficiently and effectively acquire relevant information.

Description

Scene following application service system and method based on WiFi6

Technical Field

The invention belongs to the technical field of communication, and particularly relates to a scene following application service system and method based on WiFi 6.

Background

In recent years, with the development of railway station construction in China, particularly the rapid development of subway station construction, a large amount of railway station equipment is put into use, the equipment is huge in quantity, various in types, complex in composition and high in value, and is distributed in each position of a station, so that the intelligent monitoring of the equipment is challenged. Meanwhile, the service mode intelligent management of the current rail transit is still in the exploration and pilot stage on the whole.

In order to improve the intelligent management capability of a rail transit service mode, a unified and efficient railway station equipment intelligent monitoring system is very necessary to be constructed, equipment subsystems in all areas of a station are monitored, corresponding service information is synchronized to a riding user, the station operation and maintenance work can be provided with informationized linkage support, the station is subjected to energy consumption monitoring and energy-saving management, and the station equipment is subjected to energy consumption management, BIM visualization, equipment full life cycle, big data and AI analysis and management. Therefore, a device for improving the intelligence level of the railway station in different regional scenes is very needed, and convenience is provided for people.

The subway application service system can realize the function of convenient and fast movement inquiry, and before the subway goes out, the mobile phone can inquire the real-time passenger flow congestion degree of a network, whether the last bus can be reached or not, the optimal bus taking path and reasonably plan the time, path and mode of going out; the passenger can look over information such as next car arrival information, carriage crowdedness, the weak cold carriage distribution condition of strong cold in platform, station room, supports station equipment facility position to look over in real time simultaneously, and station bathroom direction and in service behavior look over, support the passenger to arrive at the station and remind the function, after the subway trip, the passenger can develop block chain invoice etc..

Change traditional rail transit service mode, explore "total powerstation formula" service chain and extend new route, at the trip in-process to the subway passenger, the passenger is different demand to the demand of information also at different moments, the relevant information of train operation is needed to the station of entering, the relevant information of export guidance is needed to the out-of-station, the demand of the relevant information in station bathroom can also be needed to the in-process, it is urgent to wait for to build "value-added service, initiative service, accurate service, high-efficient service" application development new platform.

Disclosure of Invention

In order to achieve the purpose, the invention provides a scene following application service system and method based on WiFi6, which solve the problem of hysteresis existing in application service used in a subway in the prior art, stand up the passenger travel scene, take the passenger requirement as the core, execute scene-based intelligent push service, realize information interaction, and make manual service turn to a new customer service mode of humanized service.

The invention solves the technical problems by the following technical means:

a scene following application service system based on WiFi6 comprises a dividing module, a service monitoring platform, a switching module, an acquisition module and a connecting device, wherein the dividing module, the service monitoring platform, the switching module and the acquisition module are covered by AP wireless access points, and the connecting device is connected with the service monitoring platform through a WiFi6 network protocol;

the dividing module is used for dividing scenes according to the range of the area in the subway station;

the scenes comprise a planning scene, an inbound scene, a station and hall scene, a station scene, a riding scene and an outbound scene;

the service monitoring platform is used for awakening the corresponding connecting equipment based on a wireless access point of a WiFi6 network protocol so as to enable each scene ID and scene information to be associated to a linkage user for scene following and automatic positioning;

the switching module is used for automatically switching the application services of the linkage user in various scenes;

the acquisition module is used for acquiring application services under various scenes through the connection equipment.

Preferably, the service monitoring platform includes:

the receiving module is used for receiving scene linkage command data and acquiring scene linkage information in the scene linkage command data, wherein the scene linkage information comprises: linkage scene ID and linkage user;

the query module is used for searching a scene ID under the linkage user as a corresponding scene of the linkage scene ID and scene information of the corresponding scene;

the linkage module is used for sending the corresponding scene ID, the scene information of the corresponding scene and a windowing command to the client corresponding to the linkage user so that the client corresponding to the linkage user can obtain corresponding service information at a corresponding position according to the scene information of the corresponding scene;

the display module is used for receiving a full-screen display command and sending the full-screen display command to a client corresponding to a linkage user so as to enable the client corresponding to the linkage user to display the corresponding scene in a full-screen mode;

and the tracking and positioning module is used for tracking the linkage user and determining the current position.

Preferably, the application services in the various types of scenarios include: planning scene application service, station-entering scene application service, station-hall scene application service, station scene application service, riding scene application service and outbound scene application service;

the planning scene application service is suitable for the time period before passengers enter the station, and comprises real-time passenger flow query, last-class car accessibility and entrance and exit queuing query applications;

the station-entering scene application service comprises intelligent security inspection and station burst information pushing application;

the station hall scene application service comprises a bus two-dimensional code, in-station available equipment navigation and station toilet information application;

the platform scene application service comprises the next arrival, strong and weak cold carriages and carriage crowding degree information application;

the outbound scene application service comprises lost and found, self-service umbrella, weather, invoice and other integrated information applications;

the riding scene application service comprises a riding scene: including train location, car conditions, arrival alert information applications.

Further, the linkage module includes:

the information generating unit, the information processing unit, the power supply unit and the awakening unit are arranged on the linkage module;

the information generating unit is used for generating positioning information and identification information of the connecting equipment;

the information processing unit is electrically connected and in signal connection with the information generating unit and is used for storing and transmitting the positioning information and the identification information of the connecting equipment;

the power supply unit is electrically connected with the information generation unit and is used for providing electric energy for the system;

and the awakening unit is used for awakening the information processing unit and the power supply unit.

Further, the wake-up unit includes:

the tracking awakening unit is arranged on the linkage module and used for awakening the connecting equipment;

and the function awakening unit is arranged in the linkage module and is used for awakening the information generating unit and the information processing unit.

Further, the function wake-up unit includes:

the awakening switch is arranged on the linkage module, is electrically connected with the information processing unit and is used for manually awakening the information processing unit;

and the automatic awakening unit is arranged in the linkage module, is electrically connected with the information processing unit and is used for automatically awakening the information processing unit at regular time.

Furthermore, the tracking awakening unit is a power switch, and the power switch is installed in the linkage module, electrically connected with the power unit and used for awakening the connection device.

Further, the information generating unit includes:

the positioning information generating unit is electrically connected and in signal connection with the information processing unit and is used for generating positioning information of the connecting equipment;

and the embedded intelligent card is electrically connected with the information processing unit and is in signal connection with the information processing unit and used for generating the identification information of the connecting equipment.

Further, the information processing unit includes:

the information storage unit is electrically connected and in signal connection with the information generation unit and is used for storing the positioning information and the identification information of the connecting equipment;

and the information transmission unit is electrically connected with the information storage unit and is in signal connection with the information storage unit and is used for wirelessly transmitting the positioning information and the identification information of the connecting equipment.

A WiFi 6-based scenario following application service method, the method comprising:

dividing scenes according to the range of the area in the subway station; the scenes comprise a planning scene, an inbound scene, a station and hall scene, a station scene, a riding scene and an outbound scene;

the corresponding connecting equipment is awakened by the wireless access point based on the WiFi6 network protocol, so that each scene ID and scene information are associated to the linkage user, and scene following and automatic positioning are carried out;

automatically switching application services of the linked users in various scenes;

and obtaining the application service under various scenes through the connecting equipment.

The invention has the beneficial effects that:

the invention provides a scene following application service system and method based on WiFi6, which are used for effectively integrating and pushing different positioning position scenes, so that passengers can efficiently and effectively acquire related information. The system comprises a division module, a service monitoring platform, a switching module, an acquisition module and a connecting device, wherein the division module, the service monitoring platform, the switching module and the acquisition module are covered by an AP wireless access point, and the connecting device is connected with the service monitoring platform through a WiFi6 network protocol; the service monitoring platform is used for awakening the corresponding connecting equipment based on a wireless access point of a WiFi6 network protocol so as to enable each scene ID and scene information to be associated to a linkage user for scene following and automatic positioning; the positioning accuracy of the WiFi6 can reach about 2 meters. The judgment of the process sections of 'planning, station entering, station hall, station platform, riding, leaving' and the like of the passengers can be realized.

In addition, especially aiming at the problems that in the traveling process of subway passengers, the passengers have different requirements on information at different moments, train operation related information is needed when the passengers enter a station, and exit guidance related information is needed when the passengers exit the station, a dividing module is utilized to divide scenes according to the range of the area in the subway station; the method comprises a planning scene, an inbound scene, a station hall scene, a station platform scene, a riding scene and an outbound scene. The terminal user can automatically switch and acquire the application services of the linkage user in various scenes through the switching module and the acquisition module, so that the interaction of passenger information is realized, and the information is acquired as required. Therefore, the traditional rail transit service mode is changed, a new path is extended by exploring a total station type service chain, and a new application development platform of value-added service, active service, accurate service and efficient service is established.

The method and the system are based on the combination of active service, accurate service and efficient service of the subway station, and can effectively improve the matching degree of passenger information requirements.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a flowchart of a WiFi 6-based scene following application service method provided by the invention;

fig. 2 is a schematic structural diagram of a scene following application service system based on WiFi6 provided in the present invention.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

In order to specifically understand the technical solutions provided by the present invention, the technical solutions of the present invention will be described and illustrated in detail in the following examples. It is apparent that the embodiments provided by the present invention are not limited to the specific details familiar to those skilled in the art. The following detailed description of the preferred embodiments of the invention is intended to provide further embodiments of the invention in addition to those described herein.

The invention provides a scene following application service system based on WiFi6, which is shown in FIG. 2 and comprises a dividing module, a service monitoring platform, a switching module and an obtaining module under the coverage of an AP wireless access point, and a connecting device connected with the service monitoring platform through a WiFi6 network protocol;

the AP wireless access point is connected with the service monitoring platform through a WiFi6 network protocol, so that the WiFi6 of a station access, a station hall and a station platform can be comprehensively covered, and the probe positioning of the passenger position can be realized.

AP coverage spacing and layout: the distance between the two APs is 10 meters, and the positioning accuracy of the WiFi6 can reach about 2 meters. The judgment of the process sections of 'planning, station entering, station hall, station platform, riding, leaving' and the like of the passengers can be realized.

Using WiFi6 device: based on three radio frequencies and an intelligent radio frequency tuning technology, a single AP can be connected to 1024 terminals, more than 400 concurrent terminals are met, and counting of subway scene pedestrian flow quantity is met. Meanwhile, the intelligent antenna technology derived from the 5G technology realizes that the wave of a wireless signal is moved along with the human movement, so that the signal power is focused, the anti-interference capability is enhanced, and the coverage area is improved by 40 percent.

Furthermore, the dividing module is used for dividing the scene according to the area range of the subway station;

the scenes comprise a planning scene, an inbound scene, a station and hall scene, a station scene, a riding scene and an outbound scene;

the service monitoring platform is used for awakening the corresponding connecting equipment based on a wireless access point of a WiFi6 network protocol so as to enable each scene ID and scene information to be associated to a linkage user for scene following and automatic positioning;

the switching module is used for automatically switching the application services of the linkage user in various scenes;

the acquisition module is used for acquiring application services under various scenes through the connection equipment.

The service monitoring platform comprises:

the receiving module is used for receiving scene linkage command data and acquiring scene linkage information in the scene linkage command data, wherein the scene linkage information comprises: linkage scene ID and linkage user;

the query module is used for searching a scene ID under the linkage user as a corresponding scene of the linkage scene ID and scene information of the corresponding scene;

the linkage module is used for sending the corresponding scene ID, the scene information of the corresponding scene and a windowing command to the client corresponding to the linkage user so that the client corresponding to the linkage user can obtain corresponding service information at a corresponding position according to the scene information of the corresponding scene;

the display module is used for receiving a full-screen display command and sending the full-screen display command to a client corresponding to a linkage user so as to enable the client corresponding to the linkage user to display the corresponding scene in a full-screen mode;

and the tracking and positioning module is used for tracking the linkage user and determining the current position.

The application services under the various scenes comprise: planning scene application service, station-entering scene application service, station-hall scene application service, station scene application service, riding scene application service and outbound scene application service;

the planning scene application service is suitable for the time period before passengers enter the station, and comprises real-time passenger flow query, last-class car accessibility and entrance and exit queuing query applications;

the station-entering scene application service comprises intelligent security inspection and station burst information pushing application;

the station hall scene application service comprises a bus two-dimensional code, in-station available equipment navigation and station toilet information application;

the platform scene application service comprises the next arrival, strong and weak cold carriages and carriage crowding degree information application;

the outbound scene application service comprises lost and found, self-service umbrella, weather, invoice and other integrated information applications;

the riding scene application service comprises a riding scene: including train location, car conditions, arrival alert information applications.

The linkage module includes:

the information generating unit, the information processing unit, the power supply unit and the awakening unit are arranged on the linkage module;

the information generating unit is used for generating positioning information and identification information of the connecting equipment;

the information processing unit is electrically connected and in signal connection with the information generating unit and is used for storing and transmitting the positioning information and the identification information of the connecting equipment;

the power supply unit is electrically connected with the information generation unit and is used for providing electric energy for the system;

and the awakening unit is used for awakening the information processing unit and the power supply unit.

Wherein the wake-up unit comprises:

the tracking awakening unit is arranged on the linkage module and used for awakening the connecting equipment;

and the function awakening unit is arranged in the linkage module and is used for awakening the information generating unit and the information processing unit.

The function wake-up unit includes:

the awakening switch is arranged on the linkage module, is electrically connected with the information processing unit and is used for manually awakening the information processing unit;

and the automatic awakening unit is arranged in the linkage module, is electrically connected with the information processing unit and is used for automatically awakening the information processing unit at regular time.

The tracking awakening unit is a power switch, and the power switch is installed in the linkage module, electrically connected with the power unit and used for awakening the connecting equipment.

The information generation unit includes:

the positioning information generating unit is electrically connected and in signal connection with the information processing unit and is used for generating positioning information of the connecting equipment;

and the embedded intelligent card is electrically connected with the information processing unit and is in signal connection with the information processing unit and used for generating the identification information of the connecting equipment.

The information processing unit includes: the information storage unit is electrically connected and in signal connection with the information generation unit and is used for storing the positioning information and the identification information of the connecting equipment;

and the information transmission unit is electrically connected with the information storage unit and is in signal connection with the information storage unit and is used for wirelessly transmitting the positioning information and the identification information of the connecting equipment.

Based on the same technical concept, the specific embodiment of the present invention further provides a WiFi 6-based scene following application service method as shown in fig. 1, where the method includes:

s1, dividing scenes according to the area range of the subway station; the scenes comprise a planning scene, an inbound scene, a station and hall scene, a station scene, a riding scene and an outbound scene;

s2, awakening the corresponding connection equipment based on the wireless access point of the WiFi6 network protocol, associating each scene ID and scene information to a linkage user, and carrying out scene following and automatic positioning;

s3, automatically switching application services of the linkage user in various scenes;

s4 obtaining application service under various scenes through the connection device.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart 1 flow or flows and/or block 1 block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows of FIG. 1 and/or block diagram block or blocks of FIG. 1.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart 1 flow or flows and/or block 1 block or blocks.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application and not for limiting the protection scope thereof, and although the present application is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: numerous variations, modifications, and equivalents will occur to those skilled in the art upon reading the present application and are within the scope of the claims appended hereto.

Claims (10)

1. A scene following application service system based on WiFi6 is characterized by comprising a dividing module, a service monitoring platform, a switching module, an acquisition module and a connecting device, wherein the dividing module, the service monitoring platform, the switching module and the acquisition module are covered by AP wireless access points, and the connecting device is connected with the service monitoring platform through a WiFi6 network protocol;

the dividing module is used for dividing scenes according to the range of the area in the subway station;

the scenes comprise a planning scene, an inbound scene, a station and hall scene, a station scene, a riding scene and an outbound scene;

the service monitoring platform is used for awakening the corresponding connecting equipment based on a wireless access point of a WiFi6 network protocol so as to enable each scene ID and scene information to be associated to a linkage user for scene following and automatic positioning;

the switching module is used for automatically switching the application services of the linkage user in various scenes;

the acquisition module is used for acquiring application services under various scenes through the connection equipment.

2. The system of claim 1, wherein the service monitoring platform comprises:

the receiving module is used for receiving scene linkage command data and acquiring scene linkage information in the scene linkage command data, wherein the scene linkage information comprises: linkage scene ID and linkage user;

the query module is used for searching a scene ID under the linkage user as a corresponding scene of the linkage scene ID and scene information of the corresponding scene;

the linkage module is used for sending the corresponding scene ID, the scene information of the corresponding scene and a windowing command to the client corresponding to the linkage user so that the client corresponding to the linkage user can obtain corresponding service information at a corresponding position according to the scene information of the corresponding scene;

the display module is used for receiving a full-screen display command and sending the full-screen display command to a client corresponding to a linkage user so as to enable the client corresponding to the linkage user to display the corresponding scene in a full-screen mode;

and the tracking and positioning module is used for tracking the linkage user and determining the current position.

3. The system of claim 1, wherein the application services in the various types of scenarios comprise: planning scene application service, station-entering scene application service, station-hall scene application service, station scene application service, riding scene application service and outbound scene application service;

the planning scene application service is suitable for the time period before passengers enter the station, and comprises real-time passenger flow query, last-class car accessibility and entrance and exit queuing query applications;

the station-entering scene application service comprises intelligent security inspection and station burst information pushing application;

the station hall scene application service comprises a bus two-dimensional code, in-station available equipment navigation and station toilet information application;

the platform scene application service comprises the next arrival, strong and weak cold carriages and carriage crowding degree information application;

the outbound scene application service comprises lost and found, self-service umbrella, weather, invoice and other integrated information applications;

the riding scene application service comprises a riding scene: including train location, car conditions, arrival alert information applications.

4. The system of claim 2, wherein the linkage module comprises:

the information generating unit, the information processing unit, the power supply unit and the awakening unit are arranged on the linkage module;

the information generating unit is used for generating positioning information and identification information of the connecting equipment;

the information processing unit is electrically connected and in signal connection with the information generating unit and is used for storing and transmitting the positioning information and the identification information of the connecting equipment;

the power supply unit is electrically connected with the information generation unit and is used for providing electric energy for the system;

and the awakening unit is used for awakening the information processing unit and the power supply unit.

5. The system of claim 4, wherein the wake-up unit comprises:

the tracking awakening unit is arranged on the linkage module and used for awakening the connecting equipment;

and the function awakening unit is arranged in the linkage module and is used for awakening the information generating unit and the information processing unit.

6. The system of claim 5, wherein the functional wake-up unit comprises:

the awakening switch is arranged on the linkage module, is electrically connected with the information processing unit and is used for manually awakening the information processing unit;

and the automatic awakening unit is arranged in the linkage module, is electrically connected with the information processing unit and is used for automatically awakening the information processing unit at regular time.

7. The system of claim 5, wherein the trace wake-up unit is a power switch mounted to the linkage module and electrically connected to the power unit for waking up a connected device.

8. The system of claim 4, wherein the information generating unit comprises:

the positioning information generating unit is electrically connected and in signal connection with the information processing unit and is used for generating positioning information of the connecting equipment;

and the embedded intelligent card is electrically connected with the information processing unit and is in signal connection with the information processing unit and used for generating the identification information of the connecting equipment.

9. The system of claim 4, wherein the information processing unit comprises:

the information storage unit is electrically connected and in signal connection with the information generation unit and is used for storing the positioning information and the identification information of the connecting equipment;

and the information transmission unit is electrically connected with the information storage unit and is in signal connection with the information storage unit and is used for wirelessly transmitting the positioning information and the identification information of the connecting equipment.

10. A WiFi 6-based scene following application service method, the method comprising:

dividing scenes according to the range of the area in the subway station; the scenes comprise a planning scene, an inbound scene, a station and hall scene, a station scene, a riding scene and an outbound scene;

the corresponding connecting equipment is awakened by the wireless access point based on the WiFi6 network protocol, so that each scene ID and scene information are associated to the linkage user, and scene following and automatic positioning are carried out;

automatically switching application services of the linked users in various scenes;

and obtaining the application service under various scenes through the connecting equipment.

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