CN107609467B - Passenger flow data processing method and system - Google Patents

Abstract

The embodiment of the invention discloses a passenger flow data processing method and a system, wherein the method comprises the following steps: each monitoring terminal in the plurality of monitoring terminals respectively collects passenger flow information in a corresponding monitoring area and respectively uploads the passenger flow information in each monitoring area to the service terminal; the service terminal screens a monitoring area corresponding to the passenger flow information carrying the maximum passenger flow as a first target area according to the passenger flow information in each monitoring area; the service terminal synchronously sends the passenger flow information in each monitoring area to the tourist terminals in the first target area; and the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal according to the passenger flow information in each monitoring area as a second target area, and displays a navigation route from the first target area to the second target area based on the navigation map information in the amusement park. By adopting the invention, the passenger flow in each monitoring area can be balanced, and the crowding density of people at each amusement project is further reduced.

Description

Passenger flow data processing method and system

Technical Field

The invention relates to the technical field of Internet of things, in particular to a passenger flow data processing method and system.

Background

With the rapid development of the internet of things technology, various terminal devices, such as mobile phones or tablet computers, can provide more and more help in the aspects of life, work, entertainment and the like of users. For example, as the economic level of people increases, the internet of things with object connection also improves the existing life style of people in succession, that is, more and more people begin to draw the spiritual enjoyment through the description of each scenic spot on the internet of things under the permission of the physical conditions. Meanwhile, the Internet of things enables people to find leisure places capable of relieving mental stress and pleasure in mind and body through navigation application at corresponding terminal equipment. However, among many leisure attractions, the casino is the best amusement hall for both young and old. Because abundant tourist projects in the playground can provide entertainment and enjoyment for people and help children develop physical strength, coordination and flexibility.

However, because of the above-mentioned advantages, there are usually more people waiting at each attraction in the attraction, that is, there are phenomena such as sudden fullness of visitors gathered at one attraction in a certain time period, and very rare visitors at another attraction, that is, there is a case that the distribution of the passenger flow at each attraction is not uniform; when such a situation occurs, the enthusiasm that should be relaxed is depressed by the depressed people at sea, and after all, the guest cannot accurately acquire the traffic information of each guest item only by the range looked out by the naked eyes.

In addition, although in the prior art, the passenger flow information is often acquired only mechanically. For example, three-roller gates are installed at the exit and entrance of the amusement park to count the passenger flow information; when people enter relevant places from an entrance, the people need to pass through the rolling gate, the rolling gate rolls once, and one entering person is recorded; when people enter relevant places from the outlet, the people need to pass through the rolling gate, the rolling gate rolls once, and one person is recorded to go out. Therefore, the method can only obtain the passenger flow entering and exiting the playground in a single direction, but cannot reduce the crowding degree of each amusement item in the playground.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a method and a system for processing passenger flow data to balance the passenger flow volume in each monitoring area, thereby reducing the crowding density of people at each amusement project.

In order to solve the above technical problem, a first aspect of an embodiment of the present invention provides a method for processing passenger flow data, including:

each monitoring terminal in the plurality of monitoring terminals respectively collects passenger flow information in a corresponding monitoring area and respectively uploads the passenger flow information in each monitoring area to the service terminal;

the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow as a first target area according to the passenger flow information in each monitoring area;

and the service terminal sends the passenger flow information in each monitoring area to the tourist terminals in the first target area.

In one possible design, the passenger flow information includes: the system comprises face contour images corresponding to a plurality of tourists and passenger flow label signals corresponding to a plurality of tourist terminals respectively; the passenger flow volume is the number of guests corresponding to the face contour image or the number of signals corresponding to the passenger flow tag number.

In one possible design, each of the plurality of monitoring terminals respectively collects passenger flow information in a corresponding monitoring area, and uploads the passenger flow information in each monitoring area to a service terminal, including:

each monitoring terminal in the plurality of monitoring terminals respectively collects face contour images corresponding to a plurality of tourists in corresponding monitoring areas;

the monitoring terminals respectively count the number of the tourists corresponding to the face contour image in each monitoring area, and the number of the tourists in each monitoring area and each face contour image are used as the passenger flow information in each monitoring area;

and the monitoring terminals respectively upload the passenger flow information in the monitoring areas to the service terminal.

In one possible design, each of the plurality of monitoring terminals respectively collects passenger flow information in a corresponding monitoring area, and respectively uploads the passenger flow information in each monitoring area to the service terminal, including:

each monitoring terminal in the plurality of monitoring terminals respectively collects passenger flow label signals corresponding to a plurality of tourist terminals in a corresponding monitoring area, and respectively receives thermal signals uploaded correspondingly by each tourist terminal in the corresponding monitoring area;

the monitoring terminals respectively count the number of signals corresponding to the passenger flow label signals and the number of signals corresponding to the thermal signals in each monitoring area within a preset time length, numerically compare the counted number of signals corresponding to the passenger flow label signals with the number of signals corresponding to the thermal signals in each monitoring area, determine the larger number of signals after numerical comparison as the total number of signals counted in the corresponding monitoring area, respectively use the total number of signals as the number of tourists in each monitoring area, and use the number of the tourists in each monitoring area and each passenger flow label signal as the passenger flow information in each area;

and the monitoring terminals respectively upload the passenger flow information in the areas to the service terminal.

In a possible design, after the service terminal sends the passenger flow information in each monitoring area to the guest terminal in the first target area, the method further includes:

the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal as a second target area according to the passenger flow information in each monitoring area;

the tourist terminal acquires navigation map information in a playground and displays a navigation route from the first target area to the second target area based on the navigation map information in the playground;

the tourist terminal sends a target teaching video request corresponding to the amusement item in the second target area to the service terminal;

the service terminal screens target teaching videos of the amusement projects located in the second target area from teaching videos corresponding to the plurality of amusement projects according to the target teaching video requests, and sends the target teaching videos to the guest terminal;

and the tourist terminal plays the target teaching video.

In one possible design, each monitoring terminal respectively acquires a face contour image corresponding to each of a plurality of tourists in a corresponding monitoring area, a passenger flow label signal corresponding to each of the plurality of tourist terminals, and a thermal signal, and uploads the face contour image corresponding to each of the plurality of tourists, the passenger flow label signal corresponding to each of the plurality of tourist terminals, and the thermal signal as passenger flow information to a service terminal; the service terminal analyzes the passenger flow in the corresponding monitoring area according to the passenger flow information in each area; the passenger flow volume is the counted average value of the sum of the face contour images corresponding to the multiple tourists in the corresponding monitoring area, the passenger flow label signals corresponding to the multiple tourist terminals and the total number corresponding to the thermal signals.

A second aspect of an embodiment of the present invention provides a passenger flow data processing system, including: a plurality of monitoring terminals and service terminals;

the plurality of monitoring terminals are used for respectively acquiring passenger flow information in corresponding monitoring areas and respectively uploading the passenger flow information in each monitoring area to the service terminal;

the service terminal is used for screening the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow as a first target area according to the passenger flow information in each monitoring area;

and the service terminal is also used for sending the passenger flow information in each monitoring area to the tourist terminals in the first target area.

Therefore, the implementation of the embodiment of the invention has the following beneficial effects: each monitoring terminal in the plurality of monitoring terminals firstly respectively collects passenger flow information in a corresponding monitoring area and respectively uploads the passenger flow information in each monitoring area to the service terminal; then, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow according to the passenger flow information in each monitoring area as a first target area; and finally, the service terminal synchronously sends the passenger flow information in each monitoring area to the guest terminals in the first target area. By adopting the invention, the multiple devices in the Internet of things can cooperate with each other to obtain accurate passenger flow information, so that the passenger flow in each monitoring area can be balanced according to the passenger flow information, and the crowding density of personnel at each amusement project can be reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a passenger flow data processing method according to an embodiment of the present invention;

FIG. 2 is a flow chart of another passenger flow data processing method according to an embodiment of the present invention;

fig. 3 is a schematic flow chart of another passenger flow data processing method according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a passenger flow data processing system according to an embodiment of the present invention.

Detailed Description

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

The terms "including" and "having," and any variations thereof, in the description and claims of this invention and the above-described drawings are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

The passenger flow data processing method according to the embodiment of the present invention is executed by a computer program and can be executed on a computer system of von-Ruhman system. The computer program may be integrated into the application or may run as a separate tool-like application. The computer system can be terminal equipment such as a personal computer, a tablet computer, a notebook computer, a smart phone and the like.

The following are detailed below.

Referring to fig. 1, it is a schematic flow chart of a passenger flow data processing method according to an embodiment of the present invention, and as shown in fig. 1, the passenger flow data processing method at least includes:

step S101, each monitoring terminal in a plurality of monitoring terminals respectively collects passenger flow information in a corresponding monitoring area and respectively uploads the passenger flow information in each monitoring area to a service terminal;

specifically, each of the plurality of monitoring terminals may be configured to collect passenger flow volumes in corresponding monitoring areas and a plurality of facial contour passenger images that contribute to counting the passenger flow volumes or passenger flow label signals corresponding to the plurality of guest terminals, and use the number of guests and each facial contour image in each monitoring area as passenger flow information in each monitoring area, or use the number of guests and each passenger flow label signal in each monitoring area as passenger flow information in each area, and then upload the passenger flow information in each monitoring area to the service terminal by the plurality of monitoring terminals;

the passenger flow volume refers to the number of the tourists corresponding to the face contour image or the number of the signals corresponding to the passenger flow label signals.

Optionally, the passenger flow volume may also refer to a larger signal quantity of the signal quantity corresponding to the passenger flow label signal and the signal quantity corresponding to the thermal signal.

For example, taking 4 monitor terminals corresponding to 4 amusement projects in an amusement park as an example, the 4 monitor terminals are respectively an a monitor terminal, a B monitor terminal, a C monitor terminal and a D monitor terminal, and each monitor terminal corresponds to a monitor area, that is, the a monitor terminal is located at an area a position, the B monitor terminal is located at an area B position, the C monitor terminal is located at an area C position, and the D monitor terminal is located at an area D position. At this time, the specific conditions of the passenger flow information of each monitoring terminal at the corresponding four amusement projects (the spiral slide, the large pendulum bob, the magic bowl and the bumper car) are as follows, wherein the calculation of the passenger flow volume counts the number of the passengers in each monitoring area with the preset monitoring time length of 5 minutes, specifically, please refer to a statistical condition distribution table of the passenger flow information in each monitoring area counted by counting the facial profile image shown in table 1;

TABLE 1

As shown in table 1, the passenger flow volume collected by the monitoring terminal a corresponding to the spiral slide in the area a within 5 minutes is 60 persons; meanwhile, the passenger flow volume collected by the monitoring terminal A corresponding to the amusement item with the name of the large pendulum bob in the area B in 5 minutes reaches 35 persons; meanwhile, the passenger flow volume collected by the C monitoring terminal with the amusement project name of the magic bowl in the area C within 5 minutes is 10 people, but the passenger flow volume collected by the D monitoring terminal with the amusement project name of the bumper car in the area D within 5 minutes is 5 people; therefore, the passenger flow information in the monitoring area corresponding to the 4 amusement items (the spiral slide, the large pendulum bob, the magic bowl and the bumper car) is distributed unevenly, that is, too many people stay at the spiral slide in the area a, and less people stay at the bumper car in the area D.

Step S102, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow according to the passenger flow information in each monitoring area as a first target area;

specifically, the service terminal establishes a one-to-one correspondence relationship between each monitoring area and each passenger flow information within a preset time length according to the passenger flow information in each monitoring area, extracts the passenger flow volume carried in each passenger flow information in each monitoring area respectively, screens target passenger flow information carrying the maximum passenger flow volume from each passenger flow information according to each passenger flow volume, and takes the monitoring area corresponding to the target passenger flow information as a first target area based on the one-to-one correspondence relationship between each monitoring area and each passenger flow information;

for example, the service terminal a receives passenger flow information (passenger flow volume carried in each piece of traffic information is 10, 15, 45) in 3 monitoring areas (a monitoring area, B monitoring area, and C monitoring area, respectively) within a unit time (for example, 1 minute), and at this time, the service terminal a establishes a one-to-one correspondence relationship between the 3 monitoring areas and each piece of passenger flow information (that is, passenger flow volume in the monitoring area a is 10, passenger flow volume in the monitoring area B is 15, and passenger flow volume in the monitoring area C is 45); meanwhile, the monitoring terminal a screens the passenger flow information carrying the maximum passenger flow volume from the passenger flow information as target passenger flow information (that is, the passenger flow information carrying 45 people as the target passenger flow information), and then, according to the one-to-one correspondence relationship between the monitoring areas and the passenger flow information, the monitoring area C corresponding to the target passenger flow information is used as a first target area.

Step S103, the service terminal sends the passenger flow information in each monitoring area to the guest terminal in the first target area;

optionally, the service terminal may send the passenger flow information in each monitoring area to a plurality of guest terminals in the first target area synchronously, so that the holder of each guest terminal can know the passenger flow information at the corresponding attraction in each monitoring area in time.

The guest terminal can be a personal computer, a tablet computer, a notebook computer, a smart phone or other wearable devices (e.g., smart band, body temperature sensor and other sensing devices) which can be used for sending sensing information; the sensing information comprises passenger flow label signals respectively corresponding to the guest terminals or wireless signals (such as Bluetooth signals) corresponding to the guest terminals;

the passenger flow label signal or the wireless signal can be used for representing a monitoring area where the tourist terminal is located currently, and can also be used for counting passenger flow in the monitoring area.

For example, there are 30 visitors in the first target area, and the 30 visitors respectively wear smart bracelets issued or purchased at the time of entering the garden and used for generating the passenger flow label signal, at this time, the service terminal respectively sends the received passenger flow information in each monitored area to the smart bracelets worn by the 30 visitors, so that the 30 visitors in the first target area can conveniently acquire the passenger flow information (which can also be understood as the passenger flow information) at the play items in each monitored area, thereby helping the 30 visitors to decide whether to continue to stay in the first target area carrying the maximum passenger flow according to the passenger flow of each area.

Optionally, in step S104, the guest terminal obtains, from the service terminal, a monitored area corresponding to the passenger flow information with the least passenger flow volume according to the passenger flow information in each monitored area, and uses the monitored area as a second target area, and displays a navigation route from the first target area to the second target area based on navigation map information in the amusement park;

specifically, the guest terminal may obtain, according to the guest flow information in each monitoring area, a monitoring area corresponding to the guest flow information carrying the minimum guest flow amount corresponding to the screen display area from the service terminal according to a click operation instruction when the guest terminal receives the click operation instruction to the screen display area corresponding to the attraction item displaying the minimum guest flow amount in the first target area, and use the monitoring area as a second target area, and display the navigation route from the first target area to the second target area based on the navigation map information in the attraction.

The click operation instruction refers to a click operation performed by the guest on a screen display area corresponding to a screen currently used by the guest terminal and displayed with the least guest amount, and the click operation includes but is not limited to: and various touch screen operations such as press operation, double-click operation or screen sliding operation. Generally, in a guest terminal (or called a mobile terminal) with a touch screen function, the structure of the touch screen includes at least three layers: the touch screen comprises a screen glass layer, a touch panel layer and a display panel layer. The screen glass layer is a protective layer, the touch panel layer is used for sensing touch operation of tourists, and the display panel layer is used for displaying a terrain image corresponding to a formed navigation route.

Optionally, after the guest terminal executes step S104, the service terminal may further execute a step of, when receiving a target teaching video request corresponding to an attraction in the second target area sent by the guest terminal, screening a target teaching video of the attraction located in the second target area from teaching videos corresponding to multiple attractions, and sending the target teaching video to the guest terminal, so that the guest terminal plays the target teaching video;

the teaching videos corresponding to the plurality of tourist projects can be related teaching video information collected by the monitoring terminals when the amusement projects located in the monitoring areas are used for the first time.

Therefore, each monitoring terminal in the plurality of monitoring terminals firstly respectively collects the passenger flow information in the corresponding monitoring area and respectively uploads the passenger flow information in each monitoring area to the service terminal; secondly, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow according to the passenger flow information in each monitoring area as a first target area; then, the service terminal synchronously sends the passenger flow information in each monitoring area to the guest terminals in the first target area; and finally, the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal according to the passenger flow information in each monitoring area, the monitoring area serves as a second target area, and a navigation route from the first target area to the second target area is displayed based on navigation map information in the amusement park. Therefore, the invention can enable the guest terminal in the first target area with the maximum guest flow to obtain the accurate guest flow information in each monitoring area by enabling the multiple monitoring terminals, the service terminal and the guest terminal in the internet of things to cooperate together, and can further obtain the monitoring area corresponding to the guest flow information with the minimum guest flow from the service terminal according to the guest flow information in each monitoring area as the second target area, and then the guest terminal can display the navigation route from the first target area to the second target area based on the navigation map information in the amusement park, thereby providing a method for balancing the guest flow when the guest flow is not uniformly distributed, and further reducing the crowding density of people in each monitoring area.

Further, please refer to fig. 2, which is a flowchart illustrating another passenger flow data processing method according to an embodiment of the present invention. As shown in fig. 2, the passenger flow data processing method at least includes:

step S201, each monitoring terminal in a plurality of monitoring terminals respectively collects face contour images respectively corresponding to a plurality of tourists in corresponding monitoring areas;

specifically, each monitoring terminal in the multiple monitoring terminals respectively collects a face contour image corresponding to at least one tourist in a corresponding monitoring area;

the face contour image is a face contour image corresponding to human five sense organ information (eyes, ears, mouth, nose and eyebrows) on each azimuth angle.

Step S202, each monitoring terminal respectively counts the number of tourists corresponding to the face contour image in each monitoring area, and the number of the tourists in each monitoring area and each face contour image are used as the passenger flow information in each monitoring area;

optionally, when the passenger flow information includes the face contour images corresponding to the multiple visitors, the passenger flow information may further include: and passenger flow label signals corresponding to the plurality of tourist terminals respectively, wherein the number of the tourists corresponding to the face outline image or the number of the signals corresponding to the passenger flow label number can be used for counting the passenger flow.

Step S203, each monitoring terminal respectively uploads the passenger flow information in each monitoring area to a service terminal;

specifically, please refer to the description of step S101 in the embodiment corresponding to fig. 1 for a specific implementation of steps S201 to S203, which is not further described herein.

Step S204, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow as a first target area according to the passenger flow information in each monitoring area;

specifically, the service terminal establishes a one-to-one correspondence relationship between each monitoring area and each passenger flow information within a preset time length according to the passenger flow information in each monitoring area, extracts the passenger flow volume carried in each passenger flow information in each monitoring area respectively, screens target passenger flow information carrying the maximum passenger flow volume from each passenger flow information according to each passenger flow volume, and takes the monitoring area corresponding to the target passenger flow information as a first target area based on the one-to-one correspondence relationship between each monitoring area and each passenger flow information;

specifically, please refer to the description of step S102 in the embodiment corresponding to fig. 1, which is not repeated here.

Step S205, the service terminal sends the passenger flow information in each monitoring area to the guest terminal in the first target area;

optionally, the service terminal may send the passenger flow information in each monitoring area to a plurality of guest terminals in the first target area synchronously, so that the holder of each guest terminal can know the passenger flow information at the corresponding attraction in each monitoring area in time.

The guest terminal can be a personal computer, a tablet computer, a notebook computer, a smart phone or other wearable devices (e.g., smart band, body temperature sensor and other sensing devices) which can be used for sending sensing information; the sensing information comprises passenger flow label signals respectively corresponding to the guest terminals or wireless signals (such as Bluetooth signals) corresponding to the guest terminals;

the passenger flow label signal or the wireless signal can be used for representing a monitoring area where the tourist terminal is located currently, and can also be used for counting passenger flow in the monitoring area.

Step S206, the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the least passenger flow from the service terminal according to the passenger flow information in each monitoring area as a second target area, and displays a navigation route from the first target area to the second target area based on navigation map information in the amusement park;

specifically, the guest terminal may obtain, according to the guest flow information in each monitoring area, a monitoring area corresponding to the guest flow information carrying the minimum guest flow amount corresponding to the screen display area from the service terminal according to a click operation instruction when the guest terminal receives the click operation instruction to the screen display area corresponding to the attraction item displaying the minimum guest flow amount in the first target area, and use the monitoring area as a second target area, and display the navigation route from the first target area to the second target area based on the navigation map information in the attraction.

The click operation instruction refers to a click operation performed by the guest on a screen display area corresponding to a screen currently used by the guest terminal and displayed with the least guest amount, and the click operation includes but is not limited to: and various touch screen operations such as press operation, double-click operation or screen sliding operation. Generally, in a guest terminal (or called a mobile terminal) with a touch screen function, the structure of the touch screen includes at least three layers: the touch screen comprises a screen glass layer, a touch panel layer and a display panel layer. The screen glass layer is a protective layer, the touch panel layer is used for sensing touch operation of tourists, and the display panel layer is used for displaying a terrain image corresponding to a formed navigation route.

Step S207, the tourist terminal sends a target teaching video request corresponding to the amusement item in the second target area to the service terminal;

specifically, the guest terminal located in the first target area may send, according to the downloading operation, a target teaching request corresponding to the attraction in the second target area to the service terminal when receiving a downloading operation performed by the current guest on the selection area corresponding to the attraction in the second target area.

Step S208, the service terminal screens target teaching videos of the amusement projects located in the second target area from teaching videos corresponding to the plurality of amusement projects according to the target teaching video requests, and sends the target teaching videos to the visitor terminal;

for example, when the visitor is currently at the spiral slide item in the first target area, 50 people are currently acquiring the passenger flow information in the first target area, and after looking forward and backward, the visitor feels that the visitor needs to wait for a longer time (about half an hour) before turning to the visitor. Then, the user prepares to go to a second target area with a small amount of passenger flow, but because the user has not played the item (for example, a large pendulum bob) before, the user can perform a downloading operation (for example, clicking a downloading button) in a selection area corresponding to the large pendulum bob in the current screen, at this time, the guest terminal corresponding to the current screen sends a target teaching request corresponding to the amusement item in the second target area to the service terminal according to the downloading operation performed by the current guest, so that the service terminal returns a target teaching video corresponding to the amusement item in the second target area according to the target teaching request.

And step S209, the tourist terminal plays the target teaching video.

Therefore, each monitoring terminal in the plurality of monitoring terminals firstly respectively collects the face contour images respectively corresponding to a plurality of tourists in the corresponding monitoring area, respectively counts the number of the tourists corresponding to the face contour images in each monitoring area, takes the number of the tourists in each monitoring area and each face contour image as the passenger flow information in each monitoring area, and secondly, uploads the passenger flow information in each monitoring area to the service terminal respectively; then, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow according to the passenger flow information in each monitoring area as a first target area; then, the service terminal synchronously sends the passenger flow information in each monitoring area to the guest terminals in the first target area; and finally, the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal according to the passenger flow information in each monitoring area, the monitoring area serves as a second target area, and a navigation route from the first target area to the second target area is displayed based on navigation map information in the amusement park. Therefore, the invention can enable the guest terminal in the first target area to obtain accurate passenger flow information in each monitoring area by enabling the multiple monitoring terminals, the service terminal and the guest terminal in the internet of things to cooperate together, and can further obtain the monitoring area corresponding to the passenger flow information with the least passenger flow from the service terminal as the second target area according to the passenger flow information in each monitoring area, and then the guest terminal can display the navigation route from the first target area to the second target area based on the navigation map information in the amusement park, thereby providing a method for balancing the passenger flow when the passenger flow is not uniformly distributed, and further reducing the crowding density of people in each monitoring area.

Further, please refer to fig. 3, which is a flowchart illustrating another passenger flow data processing method according to an embodiment of the present invention. As shown in fig. 3, the passenger flow data processing method at least includes:

step S301, each monitoring terminal in a plurality of monitoring terminals respectively collects passenger flow label signals corresponding to a plurality of guest terminals in a corresponding monitoring area, and respectively receives thermal signals uploaded correspondingly by each guest terminal in the corresponding monitoring area;

specifically, each monitoring terminal in the multiple monitoring terminals respectively acquires a passenger flow label signal corresponding to at least one guest terminal and a thermal signal corresponding to at least one guest terminal in a corresponding monitoring area;

wherein, the thermal signal may refer to a temperature signal, a skin impedance signal, etc. of the user.

The guest terminal can be a personal computer, a tablet computer, a notebook computer, a smart phone or other wearable devices (e.g., smart band, body temperature sensor and other sensing devices) which can be used for sending sensing information; the sensing information comprises passenger flow label signals corresponding to the guest terminals or wireless signals (such as Bluetooth signals) corresponding to the guest terminals;

the passenger flow label signal or the wireless signal can be used for representing a monitoring area where the tourist terminal is located currently, and can also be used for helping the service terminal to count the passenger flow in the monitoring area according to the corresponding signal quantity.

Step S302, each monitoring terminal respectively counts the number of signals corresponding to the passenger flow label signals in each monitoring area within a preset time length and the number of signals corresponding to each thermal power signal, compares the counted number of signals corresponding to the passenger flow label signals with the number of signals corresponding to each thermal power signal in each monitoring area, determines the larger number of signals after the numerical comparison as the total number of signals counted in the corresponding monitoring area, respectively uses each total number of signals as the number of visitors in each monitoring area, and uses the number of visitors in each monitoring area and each passenger flow label signal as the passenger flow information in each area;

optionally, when the passenger flow information includes passenger flow label signals corresponding to the plurality of guest terminals, the passenger flow information may further include: the collected face contour image signals corresponding to the multiple tourists respectively, namely the number of the tourists corresponding to the face contour image or the number of the signals corresponding to the passenger flow label number can be used for counting the passenger flow.

Step S303, each monitoring terminal respectively uploads the passenger flow information in each area to a service terminal;

specifically, please refer to the description of step S101 in the embodiment corresponding to fig. 1 for a specific implementation manner of steps S301 to S303, which is not further described herein.

Step S304, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow according to the passenger flow information in each monitoring area as a first target area;

specifically, the service terminal establishes a one-to-one correspondence relationship between each monitoring area and each passenger flow information within a preset time length according to the passenger flow information in each monitoring area, extracts the passenger flow volume carried in each passenger flow information in each monitoring area respectively, screens target passenger flow information carrying the maximum passenger flow volume from each passenger flow information according to each passenger flow volume, and takes the monitoring area corresponding to the target passenger flow information as a first target area based on the one-to-one correspondence relationship between each monitoring area and each passenger flow information;

specifically, please refer to the description of step S102 in the embodiment corresponding to fig. 1, which is not repeated here.

Step S305, the service terminal sends the passenger flow information in each monitoring area to the guest terminal in the first target area;

optionally, the service terminal may send the passenger flow information in each monitoring area to a plurality of guest terminals in the first target area synchronously, so that the holder of each guest terminal can know the passenger flow information at the corresponding attraction in each monitoring area in time.

The guest terminal can be a personal computer, a tablet computer, a notebook computer, a smart phone or other wearable devices (e.g., smart band, body temperature sensor and other sensing devices) which can be used for sending sensing information; the sensing information comprises passenger flow label signals respectively corresponding to the guest terminals or wireless signals (such as Bluetooth signals) corresponding to the guest terminals;

the passenger flow label signal or the wireless signal can be used for representing a monitoring area where the tourist terminal is located currently, and can also be used for counting passenger flow in the monitoring area.

Step S306, the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal according to the passenger flow information in each monitoring area, the monitoring area serves as a second target area, and a navigation route from the first target area to the second target area is displayed based on navigation map information in the amusement park;

specifically, the guest terminal may obtain, according to the guest flow information in each monitoring area, a monitoring area corresponding to the guest flow information carrying the minimum guest flow amount corresponding to the screen display area from the service terminal according to a click operation instruction when the guest terminal receives the click operation instruction to the screen display area corresponding to the attraction item displaying the minimum guest flow amount in the first target area, and use the monitoring area as a second target area, and display the navigation route from the first target area to the second target area based on the navigation map information in the attraction.

The click operation instruction refers to a click operation performed by the guest on a screen display area corresponding to a screen currently used by the guest terminal and displayed with the least guest amount, and the click operation includes but is not limited to: and various touch screen operations such as press operation, double-click operation or screen sliding operation. Generally, in a guest terminal (or called a mobile terminal) with a touch screen function, the structure of the touch screen includes at least three layers: the touch screen comprises a screen glass layer, a touch panel layer and a display panel layer. The screen glass layer is a protective layer, the touch panel layer is used for sensing touch operation of tourists, and the display panel layer is used for displaying a terrain image corresponding to a formed navigation route.

Step S307, the tourist terminal sends a target teaching video request corresponding to the amusement item in the second target area to the service terminal;

specifically, the guest terminal located in the first target area may send, according to the downloading operation, a target teaching request corresponding to the attraction in the second target area to the service terminal when receiving a downloading operation performed by the current guest on the selection area corresponding to the attraction in the second target area.

Step S308, the service terminal screens target teaching videos of the amusement projects located in the second target area from teaching videos corresponding to the plurality of amusement projects according to the target teaching video requests, and sends the target teaching videos to the tourist terminal;

step S309, the tourist terminal plays the target teaching video.

Therefore, it can be seen that, each monitoring terminal in the plurality of monitoring terminals firstly respectively collects passenger flow label signals and thermal signals corresponding to a plurality of guest terminals in a corresponding monitoring area, respectively counts the number of signals corresponding to the passenger flow label signals and the number of signals corresponding to each thermal signal in each monitoring area within a preset time period, and takes the greater number of the number of signals corresponding to the passenger flow label signals and the number of signals corresponding to each thermal signal as the total number of signals in the corresponding monitoring area, respectively takes each total number of signals as the number of guests in each monitoring area, and takes the number of guests in each monitoring area and each passenger flow label signal as the passenger flow information in each area; secondly, the plurality of monitoring terminals respectively upload the passenger flow information in each monitoring area to the service terminal; then, the service terminal screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow according to the passenger flow information in each monitoring area as a first target area; then, the service terminal synchronously sends the passenger flow information in each monitoring area to the guest terminals in the first target area; and finally, the tourist terminal acquires the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal according to the passenger flow information in each monitoring area, the monitoring area serves as a second target area, and a navigation route from the first target area to the second target area is displayed based on navigation map information in the amusement park. Therefore, the invention can enable the guest terminal in the first target area to obtain accurate passenger flow information in each monitoring area by enabling the multiple monitoring terminals, the service terminal and the guest terminal in the internet of things to cooperate together, and can further obtain the monitoring area corresponding to the passenger flow information with the minimum passenger flow from the service terminal according to the passenger flow information in each monitoring area as the second target area, and then the guest terminal can display the navigation route from the first target area to the second target area based on the navigation map information in the amusement park, thereby providing a method for balancing the passenger flow in each monitoring area when the passenger flow is not uniformly distributed, and further reducing the crowding density of people in each monitoring area.

Further, please refer to fig. 4, which is a schematic structural diagram of a passenger flow data processing system according to an embodiment of the present invention. As shown in fig. 4, the passenger flow data processing system 1 at least includes: a plurality of monitor terminals 10, service terminals 20 and guest terminals 30;

the plurality of monitoring terminals 10 are configured to collect passenger flow information in corresponding monitoring areas, and upload the passenger flow information in each monitoring area to the service terminal 20;

specifically, each of the plurality of monitoring terminals 10 may be configured to collect passenger flow information in a corresponding monitoring area, where the passenger flow information includes: the face contour images corresponding to the multiple tourists and the passenger flow label signals corresponding to the multiple tourist terminals respectively, and then the multiple monitoring terminals 10 can further upload the passenger flow information in each monitoring area to the service terminal respectively;

optionally, when the passenger flow information is face contour images corresponding to a plurality of visitors respectively, the plurality of monitoring terminals 10 are further configured to collect the face contour images corresponding to the plurality of visitors respectively in the corresponding monitoring areas respectively, count the number of visitors corresponding to the face contour images in each monitoring area respectively, and use the number of visitors in each monitoring area and each face contour image as the passenger flow information in each monitoring area;

further, the plurality of monitoring terminals 10 are further configured to upload the passenger flow information in each monitoring area to the service terminal.

Optionally, when the passenger flow information is passenger flow label signals corresponding to a plurality of guest terminals, the plurality of monitoring terminals 10 are further configured to collect passenger flow label signals corresponding to the plurality of guest terminals in corresponding monitoring areas respectively, receive thermal signals uploaded by the guest terminals in the corresponding monitoring areas respectively, count the number of signals corresponding to the passenger flow label signals in the monitoring areas within a preset time period and the number of signals corresponding to the thermal signals respectively, perform numerical comparison between the counted number of signals corresponding to the passenger flow label signals and the number of signals corresponding to the thermal signals in each monitoring area, determine the larger number of signals after the numerical comparison as the counted total number of signals in the corresponding monitoring area, use each total number of signals as the number of guests in each monitoring area respectively, and use the number of guests in each monitoring area and each passenger flow label signal as the passenger flow information in each area;

further, the plurality of monitoring terminals 10 are further configured to upload the passenger flow information in each area to a service terminal;

the number of the tourists corresponding to the face contour image or the number of the signals corresponding to the passenger flow label number can be used for representing the number of the tourists corresponding to each monitoring area.

Specifically, please refer to the statistical condition distribution table for the passenger flow information in each monitoring area shown in table 1; as shown in table 1, the passenger flow volume collected by the monitoring terminal a corresponding to the spiral slide serving as the name of the amusement item in the area a within 5 minutes is 60 persons; meanwhile, the passenger flow volume collected by the monitoring terminal A corresponding to the amusement item with the name of the large pendulum bob in the area B in 5 minutes reaches 35 persons; meanwhile, the passenger flow volume collected by the C monitoring terminal with the amusement project name of the magic bowl in the area C within 5 minutes is 10 people, but the passenger flow volume collected by the D monitoring terminal with the amusement project name of the bumper car in the area D within 5 minutes is 5 people; therefore, the passenger flow information in the monitoring area corresponding to the 4 amusement items (the spiral slide, the large pendulum bob, the magic bowl and the bumper car) is distributed unevenly, that is, too many people stay at the spiral slide in the area a, and less people stay at the bumper car in the area D.

The service terminal 20 is configured to screen a monitoring area corresponding to passenger flow information carrying a maximum passenger flow volume as a first target area according to the passenger flow information in each monitoring area;

specifically, the service terminal 20 establishes a one-to-one correspondence relationship between each monitoring area and each piece of passenger flow information within a preset time period according to the passenger flow information in each monitoring area, extracts the passenger flow volume carried in each piece of passenger flow information in each monitoring area, screens target passenger flow information carrying the maximum passenger flow volume from each piece of passenger flow information according to each piece of passenger flow volume, and takes the monitoring area corresponding to the target passenger flow information as a first target area based on the one-to-one correspondence relationship between each monitoring area and each piece of passenger flow information;

specifically, the determination of the first target area in each monitoring area by the service terminal 20 may refer to the description of step S102 in the embodiment corresponding to fig. 1, and is not described herein again.

The service terminal 20 is further configured to send the passenger flow information in each monitoring area to the guest terminal in the first target area;

optionally, the service terminal 20 may be configured to send the passenger flow information in each monitoring area to a plurality of guest terminals in the first target area synchronously, so that the holder of each guest terminal can know the passenger flow information at the corresponding attraction in each monitoring area in time.

The guest terminal 30 may be a personal computer, a tablet computer, a notebook computer, a smart phone, or other wearable devices (e.g., a smart band, a body temperature sensor, etc.) that can be used to send sensing information; the sensing information comprises passenger flow label signals respectively corresponding to the guest terminals or wireless signals (such as Bluetooth signals) corresponding to the guest terminals;

the passenger flow tag signal or the wireless signal may be used to represent a monitoring area where the guest terminal 30 is currently located, and may also be used to count the passenger flow volume in the monitoring area.

For example, 60 visitors exist in the first target area, and the 60 visitors respectively wear smart bracelets which are issued when entering the amusement park and used for generating the passenger flow label signals, at this time, the service terminal 20 respectively sends the received passenger flow information in each monitored area to the smart bracelets which are worn by the 60 visitors, so that the 60 visitors in the first target area can conveniently and intelligently obtain the passenger flow information (which can also be understood as the people flow information) at the amusement items in each monitored area, thereby helping the 60 visitors in the first target area to decide whether to continue to stay in the first target area carrying the maximum passenger flow according to the current specific position condition.

The tourist terminal 30 is configured to obtain, from the service terminal 20, a monitoring area corresponding to passenger flow information with a minimum passenger flow volume according to the passenger flow information in each monitoring area, as a second target area, and display a navigation route from the first target area to the second target area based on navigation map information in the amusement park;

specifically, when receiving a click operation instruction of a guest to a screen display area corresponding to an amusement item displaying the minimum guest volume in the first target area according to the guest flow information in each monitoring area, the guest terminal 30 may obtain, from the service terminal 20, a monitoring area corresponding to the screen display area and carrying the guest flow information of the minimum guest volume according to the click operation instruction, use the monitoring area as a second target area, and display a navigation route from the first target area to the second target area based on navigation map information in the amusement park.

The click operation instruction refers to a click operation performed by the guest on a screen display area corresponding to a currently used screen of the guest terminal 30, where the screen display area is displayed with the least amount of guests, and the click operation includes but is not limited to: and various touch screen operations such as press operation, double-click operation or screen sliding operation. Generally, in a guest terminal (or called a mobile terminal) with a touch screen function, the structure of the touch screen includes at least three layers: the touch screen comprises a screen glass layer, a touch panel layer and a display panel layer. The screen glass layer is a protective layer, the touch panel layer is used for sensing touch operation of tourists, and the display panel layer is used for displaying a terrain image corresponding to a formed navigation route.

Optionally, the service terminal 20 is further configured to, when a target teaching video request corresponding to an attraction in the second target area and sent by the guest terminal 30 is received, filter a target teaching video of the attraction located in the second target area from teaching videos corresponding to multiple attractions, and send the target teaching video to the guest terminal 30, so that the guest terminal 30 plays the target teaching video;

the teaching videos corresponding to the plurality of tourist projects can be related teaching video information collected by the monitoring terminals when the amusement projects located in the monitoring areas are used for the first time.

Therefore, it can be seen that each of the plurality of monitoring terminals 10 firstly respectively collects the passenger flow information in the corresponding monitoring area, and respectively uploads the passenger flow information in each monitoring area to the service terminal; secondly, the service terminal 20 screens the monitoring area corresponding to the passenger flow information carrying the maximum passenger flow volume as a first target area according to the passenger flow information in each monitoring area; then, the service terminal 20 synchronously sends the passenger flow information in each monitoring area to the guest terminals in the first target area; finally, the guest terminal 30 obtains the monitored area corresponding to the passenger flow information with the minimum passenger flow from the service terminal 20 according to the passenger flow information in each monitored area, and uses the monitored area as a second target area, and displays a navigation route from the first target area to the second target area based on the navigation map information in the amusement park. Therefore, according to the invention, through the mutual cooperation among the plurality of monitoring terminals, the service terminal and the guest terminals in the internet of things, the guest terminal 30 in the first target area with the maximum guest flow rate can acquire accurate guest flow information in each monitoring area, and further according to the guest flow information in each monitoring area, the monitoring area corresponding to the guest flow information with the minimum guest flow rate can be acquired from the service terminal 20 as the second target area, and then, the guest terminal 30 can display the navigation route from the first target area to the second target area based on the navigation map information in the amusement park, so as to provide a method for balancing the guest flow rate when the guest flow distribution is not uniform, so as to further reduce the crowding density of people in each monitoring area.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (8)

1. A passenger flow data processing method, comprising:

each monitoring terminal in the plurality of monitoring terminals respectively collects passenger flow label signals corresponding to each guest terminal in the plurality of guest terminals in the corresponding monitoring area and respectively uploads the passenger flow label signals in each monitoring area to the service terminal, the number of signals corresponding to the passenger flow label signals in the monitoring area is used for counting the passenger flow in the monitoring area, and the passenger flow label signals are used for representing the monitoring area where the guest terminal is currently located;

the service terminal screens the monitoring area corresponding to the maximum passenger flow according to the passenger flow label signal corresponding to the tourist terminal in each monitoring area to be used as a first target area;

the service terminal sends the passenger flow information in each monitoring area to the guest terminal in the first target area;

when the guest terminal in the first target area detects a click operation instruction, acquiring a monitoring area corresponding to the guest information with the least guest volume from the service terminal as a second target area according to the guest information in each monitoring area;

the guest terminal positioned in the first target area sends a target teaching video request corresponding to the amusement item in the second target area to the service terminal;

the service terminal screens target teaching videos of the amusement projects located in the second target area from teaching videos corresponding to the plurality of amusement projects according to the target teaching video requests, and sends the target teaching videos to the visitor terminals located in the first target area;

and the guest terminal positioned in the first target area plays the target teaching video.

2. The method of claim 1,

the passenger flow information includes: the system comprises face contour images corresponding to a plurality of tourists and passenger flow label signals corresponding to a plurality of tourist terminals respectively; the passenger flow volume is the number of signals corresponding to the passenger flow tag number.

3. The method according to claim 1 or 2, wherein each of the plurality of monitoring terminals respectively collects a passenger flow tag signal corresponding to each of the plurality of guest terminals in a corresponding monitoring area, and respectively uploads the passenger flow tag signals in each monitoring area to the service terminal, and the method comprises:

each monitoring terminal in the plurality of monitoring terminals respectively collects passenger flow label signals corresponding to a plurality of tourist terminals in a corresponding monitoring area, and respectively receives thermal signals uploaded correspondingly by each tourist terminal in the corresponding monitoring area;

the monitoring terminals respectively count the number of signals corresponding to the passenger flow label signals and the number of signals corresponding to the thermal signals in each monitoring area within a preset time length, numerically compare the counted number of signals corresponding to the passenger flow label signals with the number of signals corresponding to the thermal signals in each monitoring area, determine the larger number of signals after numerical comparison as the total number of signals counted in the corresponding monitoring area, respectively use the total number of signals as the number of tourists in each monitoring area, and use the number of the tourists in each monitoring area and each passenger flow label signal as the passenger flow information in each area;

and the monitoring terminals respectively upload the passenger flow label signals in the areas to the service terminal.

4. The method according to claim 1, wherein after the service terminal sends the passenger flow information in each monitoring area to the guest terminal in the first target area, the method further comprises:

and the tourist terminal positioned in the first target area acquires navigation map information in the amusement park, and displays a navigation route from the first target area to the second target area based on the navigation map information in the amusement park.

5. A passenger flow data processing system, comprising: a plurality of monitoring terminals and service terminals;

the system comprises a plurality of monitoring terminals, a service terminal and a plurality of monitoring terminals, wherein the monitoring terminals are used for respectively acquiring passenger flow label signals corresponding to each of a plurality of tourist terminals in corresponding monitoring areas and respectively uploading the passenger flow label signals in each monitoring area to the service terminal, the number of signals corresponding to the passenger flow label signals in the monitoring areas is used for counting the passenger flow in the monitoring areas, and the passenger flow label signals are used for representing the monitoring areas where the tourist terminals are located currently;

the service terminal is used for screening the monitoring area corresponding to the maximum passenger flow according to the passenger flow label signal corresponding to the tourist terminal in each monitoring area to be used as a first target area;

the service terminal is also used for sending the passenger flow information in each monitoring area to the guest terminals in the first target area;

when the guest terminal in the first target area detects a click operation instruction, acquiring a monitoring area corresponding to the guest information with the least guest volume from the service terminal as a second target area according to the guest information in each monitoring area;

the guest terminal positioned in the first target area sends a target teaching video request corresponding to the amusement item in the second target area to the service terminal;

the service terminal screens target teaching videos of the amusement projects located in the second target area from teaching videos corresponding to the plurality of amusement projects according to the target teaching video requests, and sends the target teaching videos to the visitor terminals located in the first target area;

and the guest terminal positioned in the first target area plays the target teaching video.

6. The system of claim 5,

the passenger flow information includes: the system comprises face contour images corresponding to a plurality of tourists and passenger flow label signals corresponding to a plurality of tourist terminals respectively; the passenger flow volume is the number of signals corresponding to the passenger flow tag number.

7. The system of claim 5 or 6,

the plurality of monitoring terminals are further used for respectively acquiring passenger flow label signals corresponding to a plurality of guest terminals in corresponding monitoring areas and thermal signals uploaded by the guest terminals, respectively counting the number of signals corresponding to the passenger flow label signals and the number of signals corresponding to the thermal signals in each monitoring area within a preset time length, numerically comparing the counted number of signals corresponding to the passenger flow label signals with the number of signals corresponding to the thermal signals in each monitoring area, and determining the larger number of signals after numerical comparison as the total number of signals counted in the corresponding monitoring area; respectively taking the total amount of each signal as the number of tourists in each monitoring area, and taking the number of the tourists in each monitoring area and each passenger flow label signal as passenger flow information in each area;

the plurality of monitoring terminals are further used for respectively uploading the passenger flow label signals in each area to the service terminal.

8. The system of claim 5, further comprising a guest terminal;

the tourist terminal is further used for acquiring navigation map information in the amusement park and displaying a navigation route from the first target area to the second target area based on the navigation map information in the amusement park.

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