CN110727751A - Scenic spot tourist delineation method and system based on real-name system - Google Patents

Abstract

The invention provides a scenic spot tourist delineation method based on real-name system, which comprises receiving a request sent by a user for delineating the position of a target tourist; the user provides identity information of the target visitor, wherein the identity information at least comprises an identity card number of the target visitor; comparing the identity information with an established set database to determine a sub-area where the target tourist is located; and calling head portrait information of the target tourist from the set database, comparing the head portrait information with the monitoring videos in the sub-areas, and defining the accurate position of the target tourist. The invention effectively utilizes the real-name system information of the tourists through a big data processing mode on the basis of real-name system ticket purchasing in the scenic spot, not only ensures the safety of the tourists in the scenic spot, but also further finishes the work of delineating and searching a certain tourist in the scenic spot, and provides a more convenient channel for searching people.

Description

Scenic spot tourist delineation method and system based on real-name system

Technical Field

The application relates to the technical field of information acquisition and processing, in particular to a scenic spot tourist delineation method and system based on a real-name system.

Background

Along with the further increase of the economy of China, the improvement of the living standard of people and the increase of legal festivals and holidays, the concept of tourism consumption of people is being changed, and the demand is continuously expanded. In the process that the tourism industry continuously enters the mature stage, relevant industries are promoted to continuously improve and perfect self facilities for better serving national economy, service quality is improved, and self competitiveness is improved. According to the measurement of China tourist institute (data center of culture and tourist department), 7.26 hundred million visitors in China are received in the national celebration period of 2018, and the increase is 9.43 percent on a same scale.

At present, in order to effectively improve the condition of poor experience of ticket buying in a queue in a busy season of travel, a real-name ticket buying system is implemented in many scenic spots in China. The scenic spot provides online real-name system reservation ticket buying channels for the tourists, so that the tourists can plan own trips conveniently, and the scenic spot can control the number of the tourists conveniently. Meanwhile, the safety factor of travel is improved by the real-name ticket purchasing, and the flooding of the high-price tickets sold in scenic spots by cattle is effectively controlled. From the aspect of scenic spots, by means of big data strength, the resource allocation efficiency is improved, the rationality of resource allocation is optimized, the visiting experience of a user is improved, and the safety of tourists is guaranteed on the basis of accurate verification of personal identities.

Therefore, from the aspect of big data processing, the real-name ticket purchasing of the scenic spot undoubtedly forms a huge database, and the functions of personnel delineation and searching in the scenic spot can be solved through an information data means. For example, the increase of the number of tourists increases the income and the output value of the tourism industry, but various hidden dangers are hidden behind the rising passenger flow, people are scattered firstly, and if in a special situation, such as a mobile phone is out of power, it is very difficult and time-consuming to find a fixed tourist in a scenic spot full of tourists.

Disclosure of Invention

Based on the above purpose, the present application provides a scenic spot visitor delineation method based on a real-name system, including:

s1: receiving a request from a user to define a location of a target guest,

s2: the user provides identity information of the target visitor, wherein the identity information at least comprises an identity card number of the target visitor;

s3: comparing the identity information with an established set database to determine a sub-area where the target tourist is located;

s4: and calling head portrait information of the target tourist from the set database, comparing the head portrait information with the monitoring videos in the sub-areas, and defining the accurate position of the target tourist.

In some embodiments, the collection database includes a one-to-one correspondence of information collections to each guest within a scenic spot; each information set comprises identity card information of a corresponding tourist, electronic ticket information and head portrait information collected when the tourist enters a scene area.

In some embodiments, the building of the aggregated database comprises the steps of:

s1: the tourist uses the identity card to purchase a ticket with a real name; at a ticket checking place of a scenic spot, acquiring head portrait information of the tourist through an image acquisition module;

s2: comparing the head portrait information with a ticket purchasing information database to find out the identity card information of the tourist;

s3: inputting electronic ticket information of the tourist, and generating set information corresponding to the tourist by using the identity card information of the tourist, the handheld electronic ticket information and the collected head portrait information;

s4: and collecting the set information of each tourist entering the scenic spot to form a set database corresponding to all the tourists in the scenic spot.

In some embodiments, the electronic ticket information is generated by embedding an RFID card into the electronic ticket through passive production and storing an identifier of the ticket.

In some embodiments, the scenic region is divided into a plurality of sub-regions according to different scenic spots, and ultrahigh frequency card readers are installed at the inlets and outlets of each sub-region, and the RFID cards are read through the card readers.

In some embodiments, the sub-region collects surveillance videos through a mounted camera.

The application also provides a scenic spot tourist delineation system based on the real-name system, which comprises a collection database, a ticket purchasing information database, a ticket checking place portrait acquisition device, a ticket input device, a tourist position dynamic database and a cloud server;

the ticket checking place portrait acquisition device is used for acquiring portrait information of the tourists when the tourists enter a scenic spot and sending the portrait information to the cloud server;

the ticket buying information database is used for storing ticket buying information of ticket buying tourists, and the ticket buying information at least comprises identity card information and ticket buying time of the tourists;

the ticket information input device is used for inputting electronic ticket information held by a visitor and sending the ticket information to the cloud server;

the cloud server is used for receiving information and forming a set of information by the portrait information, the identity card information and the ticket information of each tourist;

the set database is used for storing set information of all tourists in the scenic spot;

and the tourist position dynamic database is used for storing the real-time position dynamic data of the tourists.

In some embodiments, the electronic ticket is provided with an RFID card for storing an identifier of the ticket to generate the electronic ticket information.

In some embodiments, the scenic spot is divided into a plurality of sub-areas, and ultrahigh frequency card readers are installed at the inlet and the outlet of each sub-area and used for reading RFID cards and sending the read information to the visitor location dynamic database.

In some embodiments, the system further comprises a plurality of cameras installed in the scenic region for collecting scene information of the sub-regions.

The scenic spot tourist delineation method based on the real-name system comprises the steps of receiving a request sent by a user for delineating the position of a target tourist; the user provides identity information of the target visitor, wherein the identity information at least comprises an identity card number of the target visitor; comparing the identity information with an established set database to determine a sub-area where the target tourist is located; and calling head portrait information of the target tourist from the set database, comparing the head portrait information with the monitoring videos in the sub-areas, and defining the accurate position of the target tourist.

The scenic spot tourist delineation system disclosed by the invention collects the portrait information of the tourists through the portrait collection device at the ticket checking place; storing the ticket buying information of the ticket buying tourist through a ticket buying information database; electronic ticket information held by a visitor is input through a ticket information input device, and the ticket information is sent to the cloud server; receiving information through a cloud server and forming the portrait information, the identity card information and the ticket information of each tourist into integrated information; aggregate information for all guests in the scenic spot is stored by an aggregate database. The invention effectively utilizes the real-name system information of the tourists through a big data processing mode on the basis of real-name system ticket purchasing in the scenic spot, not only ensures the safety of the tourists in the scenic spot, but also further finishes the work of delineating and searching a certain tourist in the scenic spot, and provides a more convenient channel for the tourists to walk away or search people.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a block diagram of a real-name system-based scenic spot visitor delineation method according to a first embodiment of the present application;

FIG. 2 is a block diagram of a set database establishment according to a second embodiment of the present application;

fig. 3 is a block diagram of a system for demarcating scenic spot visitors based on a real-name system according to a third embodiment of the present application;

fig. 4 is a schematic application diagram of a scenic spot tourist delineation system based on a real-name system according to a fourth embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the related invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

As shown in fig. 1, it is a block diagram of the scenic spot visitor delineation method based on the real name system in the present embodiment. The scenic spot tourist delineation method based on the real-name system disclosed by the embodiment comprises the steps of receiving a request for delineating the position of a target tourist, which is sent by a user; the user provides identity information of the target visitor, wherein the identity information at least comprises an identity card number of the target visitor; comparing the identity information with an established set database to determine a sub-area where the target tourist is located; and calling head portrait information of the target tourist from the set database, comparing the head portrait information with the monitoring videos in the sub-areas, and defining the accurate position of the target tourist.

The scenic spot tourist delineation method based on the real-name system disclosed by the embodiment effectively utilizes the real-name system information of the tourists, not only ensures the safety of the tourists in the scenic spot, but also further completes the delineation and searching work of a certain tourist in the scenic spot, and provides a more convenient channel for the tourists to walk away or search for people.

Example 2

The scenic spot tourist delineation method based on the real-name system disclosed by the embodiment comprises the steps of receiving a request for delineating the position of a target tourist, which is sent by a user, wherein the user provides identity information of the target tourist, and the identity information at least comprises an identity card number of the target tourist; comparing the identity information with an established set database to determine a sub-area where the target tourist is located;

and calling head portrait information of the target tourist from the set database, and comparing the head portrait information with the monitoring videos in the sub-areas to accurately position the target tourist.

Specifically, the set database comprises information sets corresponding to all tourists in the scenic spot one by one, and each information set comprises identity card information of the corresponding tourist, electronic ticket information and head portrait information collected when the tourist enters the scenic spot.

Specifically, as shown in fig. 2, the establishment of the set database includes the following steps:

s1: the tourist uses the identity card to purchase a ticket with a real name; at a ticket checking place of a scenic spot, acquiring head portrait information of the tourist through an image acquisition module;

s2: comparing the head portrait information with a ticket purchasing information database to find out the identity card information of the tourist;

s3: inputting electronic ticket information of the tourist, and generating set information corresponding to the tourist by using the identity card information of the tourist, the handheld electronic ticket information and the collected head portrait information;

s4: and collecting the set information of each tourist entering the scenic spot to form a set database corresponding to all the tourists in the scenic spot.

In an application example, the electronic ticket information may be a code of an electronic ticket, which is used as a unique identifier of each electronic ticket, specifically, an RFID card is embedded into the electronic ticket through passive manufacturing, a memory of the RFID card may reach 8KB, it is sufficient to store the code of each electronic ticket, and the stored code may be used as the unique identifier of the electronic ticket, which is used as the electronic ticket information, and forms a set with the identity card information of the guest and portrait information collected in the scene entering area, and stores the set in the set database.

Specifically, the scenic spot is divided into a plurality of sub-areas according to different scenic spots, and each sub-area is provided with a plurality of cameras for collecting scene information. And the ultrahigh frequency card reader is arranged at the inlet and the outlet of each subregion, the card reader can conveniently read all RFID card information at a distance of about 10 meters, when a target visitor enters a certain subregion, the card reader can easily read the RFID card carried by the target visitor, the subregion where the target visitor is located can be generally determined by judging the latest read position of the RFID card carried by the target visitor, then corresponding portrait information is called from the set database, the portrait information is compared with the monitoring video in the subregion, and the specific position of the target visitor can be efficiently determined.

Example 3

The embodiment discloses a scenic spot tourist delineation system based on a real-name system, which is shown in fig. 3. The system comprises a collection database, a ticket purchasing information database, a person image acquisition device at a ticket checking place, a ticket input device, a tourist position dynamic database and a cloud server; the ticket checking place portrait acquisition device is used for acquiring portrait information of the tourists when the tourists enter a scenic spot and sending the portrait information to the cloud server; the ticket buying information database is used for storing ticket buying information of ticket buying tourists, and the ticket buying information at least comprises identity card information and ticket buying time of the tourists;

the ticket information input device is used for inputting electronic ticket information held by a visitor and sending the ticket information to the cloud server; the cloud server is used for receiving information and forming a set of information by the portrait information, the identity card information and the ticket information of each tourist; and the set database is used for storing set information of all tourists in the scenic spot. The tourist position dynamic database is used for storing the real-time position dynamic data of the tourists

Specifically, the scenic spot is divided into a plurality of sub-areas, and ultrahigh frequency card readers are installed at an inlet and an outlet of each sub-area and used for reading RFID cards in electronic tickets, so that the sub-areas where target tourists are located can be fed back conveniently. And a camera is arranged in each sub-region and is used for acquiring scene information of each sub-region at any time.

In an application example, the tourists can purchase tickets through real names on the internet or ticket offices in scenic spots. After the tourist purchases the ticket, the information of the tourist's ID card information, ticket purchasing time, etc. is stored in the ticket purchasing information database. If the tourist buys the ticket on the network, the tourist can take the electronic ticket by taking the identity card after arriving at the scenic spot. And each electronic ticket is provided with an RFID card, the memory of the RFID card can reach 8KB, and different codes are stored in advance and used as the unique identifier of each electronic ticket.

Specifically, when the tourist enters the scene area with the taken electronic ticket, the tourist firstly passes through a ticket checking place. Specifically, ticket checking department installs portrait collection system and admission ticket and types the device, portrait collection system is right the visitor carries out the collection of head portrait information, and will head portrait information sends to high in the clouds server, admission ticket types the device and reads the handheld electron admission ticket information of visitor, and will electron admission ticket information send to visitor position dynamic database. Wherein the electronic ticket information may be a code stored by an RFID card of the electronic ticket.

After the cloud server receives the head portrait information of the tourist, the head portrait information of the tourist is compared with a ticket purchasing information database, and the identity card information of the tourist is screened out. And then, the cloud server forms a data set by the identity card information of the tourist, the portrait information collected by the ticket checking department and the input electronic ticket, and stores the data set in a set database.

The system for delineating tourists in the scenic spot based on the real-name system disclosed by the embodiment takes the identity card information of each tourist in the scenic spot, the handheld electronic ticket information and the portrait information collected before entering the scenic spot as a set through the establishment of the set database, so that other two pieces of information corresponding to the handheld electronic ticket information can be easily found out through any one of the information, and the operation of conveniently delineating the positions of the tourists is realized; after the sub-area range where the tourists are located is defined, the investigation range of monitoring camera shooting is reduced, the efficiency of the tourist definition is improved, and much useless work is reduced.

Example 4

As shown in fig. 4, the present embodiment discloses a practical application scenario of a scenic spot tourist delineation system based on a real-name system. The scenic spot tourist delineation system based on the real-name system comprises a set database, a ticket purchasing information database, a person image acquisition device at a ticket checking place, a ticket input device, a tourist position dynamic database and a cloud server; the ticket checking place portrait acquisition device is used for acquiring portrait information of the tourists when the tourists enter a scenic spot and sending the portrait information to the cloud server;

the ticket buying information database is used for storing ticket buying information of ticket buying tourists, and the ticket buying information at least comprises identity card information and ticket buying time of the tourists; the ticket information input device is used for inputting electronic ticket information held by a visitor and sending the ticket information to the cloud server; the cloud server is used for receiving information and forming a set of information by the portrait information, the identity card information and the ticket information of each tourist; and the set database is used for storing set information of all tourists in the scenic spot. The tourist position dynamic database is used for storing the real-time position dynamic data of the tourists

In an application example, a tourist can buy tickets in a real-name mode through Internet ticketing and manual ticketing, and a ticketing department establishes ticket buying information of the tourist into a ticket buying information database. Specifically, if a tourist purchases tickets through the internet, the tourist needs to go to a ticket office to receive electronic tickets after arriving at a scenic spot, each electronic ticket is provided with an RFID card, the memory of the RFID card can reach 8KB, and the RFID card is enough to store a unique identifier of the electronic ticket, and the identifier can be a code established for each electronic ticket so as to distinguish each electronic ticket. After the tourists get the electronic entrance tickets, the electronic entrance ticket information of each tourist is different, so that the tourists can be easily identified through the electronic entrance ticket information.

In the application example, as shown in fig. 4, the scene area is divided into four sub-areas a-D, and ultrahigh frequency card readers are installed at the inlet and the outlet of each sub-area, as shown by the shaded part in fig. 4. Specifically, the position of the card reader is not specifically limited, and different sub-areas are divided according to the characteristics of different scenic spots, and the card reader is installed at a position allowed by conditions, as long as the purpose of reading the electronic ticket information of the visitor is achieved.

The card reader can conveniently read all RFID card information of a distance of about 10 meters, when a target visitor enters a certain subarea, the card reader can easily read the RFID card carried by the target visitor and send the read electronic ticket information to the visitor position dynamic database. The position dynamic database can store all dynamic position information read by the RFID card carried by the tourist, and the latest position is found to help determine the sub-area where the tourist is located.

Specifically, the tourist can enter the scenic spot after receiving the electronic ticket, and identity authentication and ticket checking are firstly carried out at a ticket checking place. The ticket checking department comprises a ticket checking department portrait acquisition device and a ticket input device, wherein the portrait acquisition device is used for acquiring the head portrait information of the tourist and transmitting the head portrait information to the cloud server; the ticket input device is used for reading the electronic ticket information held by the tourist, namely reading the unique identifier of the electronic ticket, and transmitting the unique identifier to the cloud server. After the cloud server receives the head portrait information, the head portrait information is compared with a ticket purchasing information database to find out the identity card information of the tourist; and then, the cloud server forms a set corresponding to the tourist with the identity card information of the tourist, the collected head portrait information and the electronic ticket information, and sends or stores the set to a set database. Specifically, the collection of the set information is performed for each visitor entering the scenic spot, and the set database stores the set information corresponding to each visitor in the scenic spot.

In one application, the method for demarcating tourists in scenic spots comprises the following steps:

s1: receiving a request sent by a user for delineating the position of a target tourist B, wherein the user can be a scenic spot worker, and a tourist A requests the scenic spot worker to help to find a wandering tourist B and provides identity card information of the tourist B, such as an identity card number of the tourist B or a name of the tourist B or a home address on an identity card, to the worker;

s2: after receiving the user request, the cloud server compares the identity information of the target visitor B provided by the user with the set database, and firstly determines the electronic ticket information of the target visitor B;

s3: after the entrance ticket information is determined, the cloud server searches the latest position of the entrance ticket information from a tourist position dynamic database, and then a subarea B where the target tourist B is located is defined;

s4: and the cloud server calls the monitoring video of the sub-area B, compares the monitoring video with the head portrait information of the target tourist B and further determines the accurate position of the target tourist B.

Specifically, each sub-area A-D in the scenic spot is provided with a camera so as to acquire scene information of each sub-area. In particular, the amount of the solvent to be used,

according to the real-name system-based tourist delineation system disclosed by the embodiment, through the establishment of the set database, the identity card information of each tourist in a scenic spot, the handheld electronic ticket information and the portrait information collected before entering the scenic spot are taken as a set, so that other two pieces of information corresponding to the handheld electronic ticket information can be easily found out through any one of the pieces of information, and the operation of conveniently delineating the positions of the tourists is realized; after the sub-area range where the tourists are located is defined, the investigation range of monitoring camera shooting is reduced, the efficiency of the tourist definition is improved, and much useless work is reduced.

The foregoing description is only exemplary of the preferred embodiments of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the spirit of the invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (10)

1. A scenic spot tourist delineation method based on a real-name system is characterized by comprising the following steps:

s1: receiving a request sent by a user for delineating the position of a target tourist;

s2: the user provides identity information of the target visitor, wherein the identity information at least comprises an identity card number of the target visitor;

s3: comparing the identity information with an established set database to determine a sub-area where the target tourist is located;

s4: and calling head portrait information of the target tourist from the set database, comparing the head portrait information with the monitoring videos in the sub-areas, and defining the accurate position of the target tourist.

2. The method of claim 1, wherein the collection database includes a one-to-one correspondence of information collections to each guest within a scenic spot; each information set comprises identity card information of a corresponding tourist, electronic ticket information and head portrait information collected when the tourist enters a scene area.

3. The method according to claim 2, wherein the establishing of the collection database comprises the steps of:

s1: the tourist uses the identity card to purchase a ticket with a real name; at a ticket checking place of a scenic spot, acquiring head portrait information of the tourist through an image acquisition module;

s2: comparing the head portrait information with a ticket purchasing information database to find out the identity card information of the tourist;

s3: inputting electronic ticket information of the tourist, and generating set information corresponding to the tourist by using the identity card information of the tourist, the handheld electronic ticket information and the collected head portrait information;

s4: and collecting the set information of each tourist entering the scenic spot to form a set database corresponding to all the tourists in the scenic spot.

4. A method according to claim 3, characterized by embedding an RFID card in the electronic ticket by passive production and storing the identifier of the ticket, generating the electronic ticket information.

5. The method as claimed in claim 4, wherein the scenic spot is divided into several sub-areas according to different scenic spots, and ultrahigh frequency card readers are installed at the inlet and outlet of each sub-area, and the RFID card is read through the card readers.

6. The method of claim 5, wherein the sub-area is monitored video captured by a mounted camera.

7. The scenic spot tourist delineation system based on the real-name system is characterized by comprising a collection database, a ticket purchasing information database, a person image acquisition device at a ticket checking place, a ticket input device, a tourist position dynamic database and a cloud server;

the ticket checking place portrait acquisition device is used for acquiring portrait information of the tourists when the tourists enter a scenic spot and sending the portrait information to the cloud server;

the ticket buying information database is used for storing ticket buying information of ticket buying tourists, and the ticket buying information at least comprises identity card information and ticket buying time of the tourists;

the ticket information input device is used for inputting electronic ticket information held by a visitor and sending the ticket information to the cloud server;

the cloud server is used for receiving information and forming a set of information by the portrait information, the identity card information and the ticket information of each tourist;

the set database is used for storing set information of all tourists in the scenic spot;

and the tourist position dynamic database is used for storing the real-time position dynamic data of the tourists.

8. The system of claim 7, wherein the electronic ticket is provided with an RFID card for storing an identifier of the ticket to generate the electronic ticket information.

9. The system as claimed in claim 8, wherein the scenic spot is divided into several sub-areas, and ultrahigh frequency card readers are installed at the entrance and exit of each sub-area for reading RFID cards and sending the read information to the visitor location dynamic database.

10. The system of claim 9, further comprising a plurality of cameras mounted within the scenic region for capturing scene information of the sub-regions.

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