CN108197683B - Scenic spot management system based on big data processing - Google Patents

Abstract

The invention discloses a scenic spot management system based on big data processing, which comprises a handheld mobile terminal, a fixed terminal and a background server, wherein the handheld mobile terminal, the fixed terminal and the background server are connected in pairs. According to the invention, the handheld mobile terminal, the fixed terminal and the background server are connected in pairs, so that the passenger flow between each scenic spot in the scenic area can be intelligently evacuated, meanwhile, through navigation guidance, the tourists can quickly know the passenger flow condition of each scenic spot and carry out intelligent navigation, so that the tourists can change the tour route in time and intelligently explain each scenic spot, the tour requirements of more people are met, and meanwhile, the health and the safety of the tourists are fully ensured by combining real-time health monitoring.

Description

Scenic spot management system based on big data processing

Technical Field

The invention belongs to the field of big data, and particularly relates to a scenic spot management system based on big data processing.

Background

The tourism industry has developed vigorously in recent years, and particularly some scenic spots and historical sites are always full of people. A large number of tourists are crowded in a hot spot area, and if the guide is improper, the trample accident is easily caused, and great pressure is brought to the safety management of scenic spots. Meanwhile, if the stream is not dredged properly and the scenic spot service measures are not in place, the image of the scenic spot is affected, and the attraction of the scenic spot is reduced.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides a scenic spot management system based on big data processing, which can automatically evacuate passengers according to the real-time passenger flow condition of the scenic spot, and simultaneously monitor the health of the tourists in real time to ensure the safety of the tourists.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a scenic spot management system based on big data processing comprises a handheld mobile terminal, a fixed terminal and a background server, wherein the handheld mobile terminal, the fixed terminal and the background server are connected in pairs;

the handheld mobile terminal takes a portable bracelet as a carrier and comprises a mobile processor, an infrared people number sensor, a radio frequency tag, a human health detection module, a tourist positioning module and a navigation information receiving module, wherein the infrared people number sensor, the radio frequency tag, the human health detection module, the tourist positioning module and the navigation information receiving module are connected with the mobile processor;

the infrared number sensor is used for sensing the number of people in a distance area around the tourist, dividing the sensed number of people by the sensing area of a personal area to obtain a local tourist density value, and then sending the local tourist density value to the mobile processor, wherein the sensing area of the personal area is a circular area taking the sensing distance of the infrared number sensor as the radius; the radio frequency tag is used for packaging the personal identity information of the tourist and the local tourist density value from the mobile processor to form tourist dynamic information and storing the tourist dynamic information; the human health detection module is used for detecting the real-time health information of the tourists and sending the real-time health information to the mobile processor; the tourist positioning module is used for detecting the real-time coordinate information of the tourist and sending the real-time coordinate information to the mobile processor; the navigation information receiving module is used for receiving data information from the background server and the fixed terminal; the mobile processor receives the real-time health information and the real-time coordinate information, packages the real-time health information and the real-time coordinate information and sends the real-time health information and the real-time coordinate information to the background server;

the fixed terminal comprises a scenic spot terminal arranged at each scenic spot of the scenic area, and the scenic spot terminal comprises a scenic spot processor, and a radio frequency identification module, a scenic spot publicity module and a scenic spot accommodation number presetting module which are connected with the scenic spot processor;

the radio frequency identification module is used for scanning and identifying the radio frequency tags of the tourists and sending the identified dynamic information of the tourists to the scene processor; the scenic spot propaganda module is used for carrying out voice recording on scenic spot propaganda information by workers, storing the scenic spot propaganda information and calling the scenic spot propaganda information in real time by the scenic spot processor, wherein the scenic spot propaganda information comprises historical culture information of scenic spots, the tour sequence of the scenic spots and the attention items of the scenic spots; the scenic spot accommodation people number presetting module is used for inputting a people number density peak value and a people number density reference value by a worker according to the actual accommodation people number and sending the people number density peak value and the people number density reference value to the scenic spot processor;

the background server comprises a background processor, a navigation notification module and a human health database, wherein the navigation notification module and the human health database are connected with the background processor;

the navigation notification module is used for sending navigation notification information to the navigation information receiving module; the human health database is used for storing a health information reference value and calling the health information reference value in real time by the background processor, and the health information reference value comprises all health index standard value reference intervals;

when the tourists approach to the scenic spot, the radio frequency identification module scans and identifies the radio frequency tags of the tourists and sends the identified dynamic information of the tourists to the scenic spot processor, at the moment, the scenic spot processor starts to receive the number density peak value and the number density reference value from the scenic spot accommodating number presetting module, and then the local tourist density value in the dynamic information of the tourists is compared with the number density reference value:

if the local tourist density value is smaller than the number density reference value, the scene processor calls the scene propaganda information from the scene propaganda module and sends the scene propaganda information to the navigation information receiving module; if the local tourist density value is greater than or equal to the passenger density reference value and less than or equal to the passenger density peak value, the scene processor calls the scene propaganda information from the scene propaganda module and sends the scene propaganda information to the navigation information receiving module, and meanwhile, the scene processor sends the local tourist density value to the background processor; if the local tourist density value is larger than the number density peak value, the scene processor only sends the local tourist density value to the background processor;

after the background processor receives the local tourist density values of all scenic spots, the background processor starts to receive real-time health information and real-time coordinate information from the mobile processor, then the background processor sorts the local tourist density values of all the scenic spots according to the sequence from small to large, extracts the first three scenic spots as target scenic spots, packages and sends name information, target scenic spot position information and real-time coordinate information of the target scenic spots to the navigation notification module, at the moment, the navigation notification module carries out route planning according to the target scenic spot position information and the real-time coordinate information, packages and forms navigation notification information by packaging route navigation information after route planning and the name information of the target scenic spots, and then the navigation notification module sends the navigation notification information to the navigation information receiving module;

and after the background processor receives the real-time health information from the mobile processor, the background processor sends the real-time health information to the human health database for matching, if the real-time health information is coincident with the reference interval of the standard value of the health index, the background processor does not respond, otherwise, warning information is formed and fed back to the background processor for medical staff to check.

Furthermore, the navigation information receiving module is connected with the Bluetooth headset through the Bluetooth module.

Further, the human health detection module comprises a pulse sensor, a heartbeat sensor, a blood pressure sensor, a blood sugar sensor, a body temperature sensor and an electrocardiogram sensor.

Further, the navigation notification module carries out positioning navigation through an electronic map.

Furthermore, the background server is in data connection with the fixed terminal through a local area network, and the background server is in data connection with the handheld mobile terminal through a 4G network.

The invention has the beneficial effects that:

according to the invention, the handheld mobile terminal, the fixed terminal and the background server are connected in pairs, so that the passenger flow between each scenic spot in the scenic area can be intelligently evacuated, meanwhile, through navigation guidance, the tourists can quickly know the passenger flow condition of each scenic spot and carry out intelligent navigation, so that the tourists can timely change the tour route and intelligently explain each scenic spot, the tour requirements of more people are met, and meanwhile, the health and the safety of the tourists are fully ensured by combining with real-time health monitoring.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a block diagram of the system architecture 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.

As shown in fig. 1, the scenic spot management system based on big data processing includes a handheld mobile terminal, a fixed terminal, and a background server, where the handheld mobile terminal, the fixed terminal, and the background server are connected in pairs, the background server and the fixed terminal are connected by a local area network, and the background server and the handheld mobile terminal are connected by a 4G network.

The handheld mobile terminal takes a portable bracelet as a carrier and comprises a mobile processor, an infrared people number sensor, a radio frequency tag, a human health detection module, a tourist positioning module and a navigation information receiving module, wherein the infrared people number sensor, the radio frequency tag, the human health detection module, the tourist positioning module and the navigation information receiving module are connected with the mobile processor; the infrared number sensor is used for sensing the number of people in a distance area around the tourists, dividing the sensed number of people by the sensing area of a personal area to obtain a local tourist density value, and then sending the local tourist density value to the mobile processor, wherein the sensing area of the personal area is a circular area with the sensing distance of the infrared number sensor as the radius; the radio frequency tag is used for packaging the personal identity information of the tourist and the local tourist density value from the mobile processor to form tourist dynamic information and storing the tourist dynamic information; the human health detection module is used for detecting real-time health information of the tourists and sending the real-time health information to the mobile processor, and comprises a pulse sensor, a heartbeat sensor, a blood pressure sensor, a blood sugar sensor, a body temperature sensor and an electrocardiogram sensor; the tourist positioning module is used for detecting the real-time coordinate information of the tourist and sending the real-time coordinate information to the mobile processor; the navigation information receiving module is used for receiving data information from the background server and the fixed terminal and is connected with the Bluetooth headset through the Bluetooth module; and the mobile processor receives the real-time health information and the real-time coordinate information, packages the real-time health information and the real-time coordinate information and sends the real-time health information and the real-time coordinate information to the background server.

The fixed terminal comprises a scenic spot terminal arranged at each scenic spot of the scenic area, and the scenic spot terminal comprises a scenic spot processor, and a radio frequency identification module, a scenic spot publicity module and a scenic spot accommodation number presetting module which are connected with the scenic spot processor; the radio frequency identification module is used for scanning and identifying the radio frequency tags of the tourists and sending the identified dynamic information of the tourists to the scene processor; the scenic spot propaganda module is used for carrying out voice recording on scenic spot propaganda information by workers, storing the scenic spot propaganda information and calling the scenic spot propaganda information in real time by the scenic spot processor, wherein the scenic spot propaganda information comprises historical culture information of scenic spots, the tour sequence of the scenic spots and the attention items of the scenic spots; the scenic spot accommodation people number presetting module is used for enabling workers to input people number density peak values and people number density reference values according to actual accommodation people numbers and sending the people number density peak values and the people number density reference values to the scenic spot processor.

The background server comprises a background processor, a navigation notification module and a human health database, wherein the navigation notification module and the human health database are connected with the background processor; the navigation notification module is used for sending navigation notification information to the navigation information receiving module; the human health database is used for storing health information reference values and calling the health information reference values in real time by the background processor, and the health information reference values comprise all health index standard value reference intervals.

When the tourists approach to the scenic spot, the radio frequency identification module scans and identifies the radio frequency tags of the tourists and sends the identified dynamic information of the tourists to the scenic spot processor, at the moment, the scenic spot processor starts to receive the number density peak value and the number density reference value from the scenic spot accommodating number presetting module, and then the local tourist density value in the dynamic information of the tourists is compared with the number density reference value:

if the local tourist density value is smaller than the number density reference value, the scene processor calls the scene propaganda information from the scene propaganda module and sends the scene propaganda information to the navigation information receiving module; if the local tourist density value is greater than or equal to the passenger density reference value and less than or equal to the passenger density peak value, the scene processor calls the scene propaganda information from the scene propaganda module and sends the scene propaganda information to the navigation information receiving module, and meanwhile, the scene processor sends the local tourist density value to the background processor; if the local tourist density value is larger than the number density peak value, the scene processor only sends the local tourist density value to the background processor.

When the background processor receives the local tourist density values from each scenic spot, the background processor starts to receive the real-time health information and the real-time coordinate information from the mobile processor, then the background processor sorts the local tourist density values of all scenic spots according to the sequence from small to large, extracts the first three scenic spots as target scenic spots, then the background processor packages and sends the name information of the target sight spot, the position information of the target sight spot and the real-time coordinate information to the navigation notification module, at the moment, the navigation notification module carries out route planning according to the position information of the target sight spot and the real-time coordinate information, and packaging the route navigation information after route planning and the name information of the target scenic spot to form navigation notification information, then the navigation notification module sends the navigation notification information to the navigation information receiving module, and the navigation notification module carries out positioning navigation through the electronic map.

And after the background processor receives the real-time health information from the mobile processor, the background processor sends the real-time health information to the human health database for matching, if the real-time health information is coincident with the reference interval of the standard value of the health index, the background processor does not respond, otherwise, warning information is formed and fed back to the background processor for medical staff to check.

According to the invention, the handheld mobile terminal, the fixed terminal and the background server are connected in pairs, so that the passenger flow between each scenic spot in the scenic area can be intelligently evacuated, meanwhile, through navigation guidance, the tourists can quickly know the passenger flow condition of each scenic spot and carry out intelligent navigation, so that the tourists can timely change the tour route and intelligently explain each scenic spot, the tour requirements of more people are met, and meanwhile, the health and the safety of the tourists are fully ensured by combining with real-time health monitoring.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (5)

1. A scenic spot management system based on big data processing is characterized in that: the system comprises a handheld mobile terminal, a fixed terminal and a background server, wherein the handheld mobile terminal, the fixed terminal and the background server are connected in pairs;

the handheld mobile terminal takes a portable bracelet as a carrier and comprises a mobile processor, an infrared people number sensor, a radio frequency tag, a human health detection module, a tourist positioning module and a navigation information receiving module, wherein the infrared people number sensor, the radio frequency tag, the human health detection module, the tourist positioning module and the navigation information receiving module are connected with the mobile processor;

the infrared number sensor is used for sensing the number of people in a distance area around the tourist, dividing the sensed number of people by the sensing area of a personal area to obtain a local tourist density value, and then sending the local tourist density value to the mobile processor, wherein the sensing area of the personal area is a circular area taking the sensing distance of the infrared number sensor as the radius; the radio frequency tag is used for packaging the personal identity information of the tourist and the local tourist density value from the mobile processor to form tourist dynamic information and storing the tourist dynamic information; the human health detection module is used for detecting the real-time health information of the tourists and sending the real-time health information to the mobile processor; the tourist positioning module is used for detecting the real-time coordinate information of the tourist and sending the real-time coordinate information to the mobile processor; the navigation information receiving module is used for receiving data information from the background server and the fixed terminal; the mobile processor receives the real-time health information and the real-time coordinate information, packages the real-time health information and the real-time coordinate information and sends the real-time health information and the real-time coordinate information to the background server;

the fixed terminal comprises a scenic spot terminal arranged at each scenic spot of the scenic area, and the scenic spot terminal comprises a scenic spot processor, and a radio frequency identification module, a scenic spot publicity module and a scenic spot accommodation number presetting module which are connected with the scenic spot processor;

the radio frequency identification module is used for scanning and identifying the radio frequency tags of the tourists and sending the identified dynamic information of the tourists to the scene processor; the scenic spot propaganda module is used for carrying out voice recording on scenic spot propaganda information by workers, storing the scenic spot propaganda information and calling the scenic spot propaganda information in real time by the scenic spot processor, wherein the scenic spot propaganda information comprises historical culture information of scenic spots, the tour sequence of the scenic spots and the attention items of the scenic spots; the scenic spot accommodation people number presetting module is used for inputting a people number density peak value and a people number density reference value by a worker according to the actual accommodation people number and sending the people number density peak value and the people number density reference value to the scenic spot processor;

the background server comprises a background processor, a navigation notification module and a human health database, wherein the navigation notification module and the human health database are connected with the background processor;

the navigation notification module is used for sending navigation notification information to the navigation information receiving module; the human health database is used for storing a health information reference value and calling the health information reference value in real time by the background processor, and the health information reference value comprises all health index standard value reference intervals;

when the tourists approach to the scenic spot, the radio frequency identification module scans and identifies the radio frequency tags of the tourists and sends the identified dynamic information of the tourists to the scenic spot processor, at the moment, the scenic spot processor starts to receive the number density peak value and the number density reference value from the scenic spot accommodating number presetting module, and then the local tourist density value in the dynamic information of the tourists is compared with the number density reference value:

if the local tourist density value is smaller than the number density reference value, the scene processor calls the scene propaganda information from the scene propaganda module and sends the scene propaganda information to the navigation information receiving module; if the local tourist density value is greater than or equal to the passenger density reference value and less than or equal to the passenger density peak value, the scene processor calls the scene propaganda information from the scene propaganda module and sends the scene propaganda information to the navigation information receiving module, and meanwhile, the scene processor sends the local tourist density value to the background processor; if the local tourist density value is larger than the number density peak value, the scene processor only sends the local tourist density value to the background processor;

after the background processor receives the local tourist density values of all scenic spots, the background processor starts to receive real-time health information and real-time coordinate information from the mobile processor, then the background processor sorts the local tourist density values of all the scenic spots according to the sequence from small to large, extracts the first three scenic spots as target scenic spots, packages and sends name information, target scenic spot position information and real-time coordinate information of the target scenic spots to the navigation notification module, at the moment, the navigation notification module carries out route planning according to the target scenic spot position information and the real-time coordinate information, packages and forms navigation notification information by packaging route navigation information after route planning and the name information of the target scenic spots, and then the navigation notification module sends the navigation notification information to the navigation information receiving module;

and after the background processor receives the real-time health information from the mobile processor, the background processor sends the real-time health information to the human health database for matching, if the real-time health information is coincident with the reference interval of the standard value of the health index, the background processor does not respond, otherwise, warning information is formed and fed back to the background processor for medical staff to check.

2. The big data processing-based scenic spot management system according to claim 1, wherein: the navigation information receiving module is connected with the Bluetooth headset through the Bluetooth module.

3. The big data processing-based scenic spot management system according to claim 1, wherein: the human health detection module comprises a pulse sensor, a heartbeat sensor, a blood pressure sensor, a blood sugar sensor, a body temperature sensor and an electrocardiogram sensor.

4. The big data processing-based scenic spot management system according to claim 1, wherein: and the navigation notification module carries out positioning navigation through an electronic map.

5. The big data processing-based scenic spot management system according to claim 1, wherein: the background server is in data connection with the fixed terminal through a local area network, and the background server is in data connection with the handheld mobile terminal through a 4G network.

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