CN113870082A

CN113870082A - Emergency information management system and method based on big data

Info

Publication number: CN113870082A
Application number: CN202111075553.XA
Authority: CN
Inventors: 颜学鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-14
Filing date: 2021-09-14
Publication date: 2021-12-31

Abstract

The application relates to an emergency information management system and method based on big data, wherein the system comprises an emergency information management platform and a plurality of intelligent wearable devices; the emergency information management platform comprises: the information storage module is used for receiving and storing the basic information and the data information of the tourists; the scheme generation module is used for analyzing the basic information of the tourists to generate a tourist monitoring scheme; the information analysis module is used for acquiring data information of the tourists detected by the intelligent wearable equipment worn by the tourists in real time, carrying out monitoring analysis according to a tourist monitoring scheme, and generating alarm information and sending the alarm information to a manager when abnormal data is found; the management terminal is used for browsing the basic information and the data information of the tourists after the scenic spot management personnel receive the alarm information; and the security broadcast module is used for broadcasting information to the scenic spot by the manager. The method and the device can effectively reduce the occurrence of unexpected conditions and achieve the effect of intelligent and efficient management of scenic spots.

Description

Emergency information management system and method based on big data

Technical Field

The application relates to the field of big data application, in particular to an emergency information management system and method based on big data.

Background

With the development of urbanization, the number of public places where large-scale personnel gather is increasing, and the number of public places such as hospitals, parks, tourist attractions and the like is increasing day by day according to the actual needs of people. Along with the gradual increase of public places, the difficulty and the low efficiency of management are followed to the gathering of a large amount of personnel, lead to the accident probability higher, and can't in time carry out emergency treatment when the unexpected situation takes place. With the development of market economy and the further improvement of living standard of people, basic living needs are met, and with the increase of festivals and holidays and the development of traffic, the willingness of people to travel is continuously rising, and the travel is gradually becoming a fashionable leisure and entertainment mode. Scenic spots have also evolved into many different kinds of scenic spots along with the explosive growth of the tourist industry. Tourist attraction refers to an area and place with tourism and related activities as main functions or one of the main functions, can meet tourism demands of tourists for visiting tourists, leisure vacation, recreation, fitness and the like, and is an independent management area provided with corresponding tourism facilities and providing corresponding tourism services. Tourist attractions mainly surround mountains, rivers, lakes, seas, temples, parks and the like.

Tourist attractions (tourist attacks) should have a uniform administration and a well-defined geographical area. Including scenic spot, the institute of culture and disposition, temple hall, tourism vacation district, nature protection area, theme park, forest park, geological park, amusement park, zoo, plantain and various tourist attractions such as industry, agriculture, trade, science and education, military affairs, sports, cultural art, study. Tourist attraction is the core element of tourism industry, is the main part composition of tourism product, is the central link in the tourism industry chain, is the attraction center of tourism consumption, is the radiation center of tourism industry face. However, with the vigorous development of the tourism industry, the scales of some known scenic spots are continuously enlarged, the number of visitors is also continuously increased, and with the continuous increase of the number of visitors, some problems come along with the increase of the number of visitors, how to efficiently and intelligently manage the visitors entering the scenic spots is a problem to be solved, how to effectively improve the management efficiency of the scenic spots on the premise of ensuring the playing experience of the visitors, and how to stop or reduce the occurrence of unexpected situations.

In view of the above-mentioned related technologies, the inventor believes that the existing tourist attraction lacks intelligent and efficient management of tourists when facing large-scale tourists, and is difficult to perform emergency treatment on an unexpected situation when the unexpected situation occurs.

Disclosure of Invention

In order to improve the problem that the intelligent and efficient management of tourists is lacked when large-scale tourists are faced in the existing tourist attraction, and the emergency treatment of the accident situation is difficult to carry out when the accident situation occurs, the application provides an emergency information management system and method based on big data.

In a first aspect, the application provides an emergency information management system based on big data, which adopts the following technical scheme:

an emergency information management system based on big data comprises an emergency information management platform and a plurality of intelligent wearable devices, wherein the intelligent wearable devices are in communication connection with the emergency information management platform;

the intelligent wearable equipment is used for acquiring data information of tourists and sending the data information to the emergency information management platform;

the emergency information management platform comprises:

the information storage module is used for receiving and storing the basic information and the data information of the tourists;

the scheme generation module is used for analyzing the basic information of the tourists to generate a tourist monitoring scheme;

the information analysis module is used for acquiring data information of the tourists detected by the intelligent wearable equipment worn by the tourists in real time, carrying out monitoring analysis according to a tourist monitoring scheme, and generating alarm information and sending the alarm information to a manager when abnormal data is found;

the management terminal is used for browsing the basic information and the data information of the tourists after the scenic spot management personnel receive the alarm information;

and the security broadcast module is used for broadcasting information to the scenic spot by the manager.

Through adopting above-mentioned technical scheme, through the setting of emergent information management platform and intelligent wearing equipment, according to visitor's actual conditions after the basic information acquisition of the visitor who gets into the scenic spot, generate the visitor monitoring scheme that corresponds, realize that the pertinence is gathered and is monitored visitor's health data information, can in advance or in time discover visitor's health, be convenient for in time handle for visitor's the safety guarantee that provides, effectively reduced the emergence of unexpected situation, reach the effect of carrying out intelligent high efficiency management to the scenic spot.

Preferably, the scheme generation module comprises a scheme storage unit, a keyword marking unit and a scheme matching unit, the scheme storage unit is used for storing the tourist monitoring scheme to form a database, the keyword marking unit is used for extracting and analyzing basic information marks of the tourists to generate an age keyword, a gender keyword and a chronic disease keyword, and the scheme matching unit is used for matching the age keyword, the gender keyword and the chronic disease keyword extracted by the keyword marking unit in the scheme storage unit to generate the tourist monitoring scheme.

By adopting the technical scheme, through extracting the basic information of the tourists, the age keywords, the sex keywords and the chronic disease keywords are obtained and generated, the tourists monitoring scheme suitable for the tourists is obtained according to the ages of the tourists and the dynamic matching of the sex and the physical condition, if the user has the chronic medical history of hypertension, the matched tourists monitoring scheme can take the blood pressure monitoring of the user as a key item, and when the blood pressure data of the user is analyzed, the blood pressure monitoring mode of the hypertension chronic disease is also used, the monitoring is more intelligent and accurate, the intelligent processing of emergency information is realized, the safety guarantee is provided for the tourists by timely processing, the occurrence of unexpected conditions is effectively reduced, and the effect of carrying out intelligent high-efficiency management on scenic spots is achieved.

Preferably, the emergency information management platform further comprises a people flow management module, the people flow management module is used for detecting and predicting people flow data of each ornamental playing point in the scenic spot in real time and sending prompt information to managers when a large number of people are found to gather or are about to gather, the people flow management unit comprises a people flow detection unit and a people flow analysis unit, the people flow detection unit comprises a plurality of static people flow detection cameras and a plurality of dynamic people flow detection cameras, the plurality of static people flow detection cameras are arranged in each ornamental point and rest area in the scenic spot, and the plurality of dynamic people flow detection cameras are arranged above each road in the scenic spot; the people flow analysis unit is used for analyzing and counting the people flow and sending prompt information to managers when the people flow of a certain area exceeds a preset people flow threshold value A, and the flow analysis unit is also used for measuring and calculating the predicted people flow of each area of a scenic spot in a future period of time according to a preset people flow prediction calculation formula and sending the prompt information when the predicted people flow of the certain area is larger than the preset people flow threshold value A.

Through adopting above-mentioned technical scheme, through the setting of flow of people detecting element and flow of people analysis unit, realize monitoring and the prediction to the flow of people in each region in the scenic spot, and when a large amount of personnel gathering situations appear in certain regional flow of people surge, send tip information to managers, managers of being convenient for in time look over and add the personnel of dispatching and manage and the water conservancy diversion, scenic spot of being convenient for maintains the stability in each region, avoid appearing the phenomenon of unexpected situation because of the extensive gathering of personnel, reach the effect of carrying out intelligent high efficiency management to the scenic spot.

Preferably, the preset people flow prediction calculation formula specifically includes: y = A +

Wherein Y is the region

The predicted flow after a minute, a is the static flow of people in the area,

the predicted time period for predicting the flow of people is set by a manager,

the predicted time length of the moving of the dynamic pedestrian volume detection camera from the area is the dynamic pedestrian volume detection point of the ith road leading to the area,

the position of a dynamic pedestrian volume detection point, namely a dynamic pedestrian volume detection camera, of the ith road leading to the area

The dynamic human flow rate detected in a minute,

the predicted time length of the travel of the jth road leaving the area from the area to the dynamic pedestrian flow detection camera is obtained,

the distance of a dynamic pedestrian flow detection camera which is a dynamic pedestrian flow detection point of the jth road leaving the area is

Dynamic human flow measured in minutes.

By adopting the technical scheme, the people flow analysis unit measures and calculates the future of each region of the scenic spot in real time through the preset people flow prediction calculation formula

And when the people flow data is greater than a preset threshold value, prompt information is sent to a manager, so that the manager can conveniently check the personnel distribution condition of the corresponding area in advance, the situation that the people are not rainy, silk and muzzle is achieved, and the management efficiency of the scenic spot is further improved.

Preferably, the security broadcast module comprises an input terminal and a plurality of output terminals, and the input terminal and the plurality of output terminals are connected with the management terminal and are distributed in each region of the scenic spot.

Through adopting above-mentioned technical scheme, through the setting of security broadcast module, be convenient for when the unexpected situation takes place, managers can in time broadcast and guide the visitor to carry out sparse or handle to the visitor, promotes emergent information management efficiency.

Preferably, intelligence wearing equipment includes controller, collection subassembly, communication subassembly and power supply unit all are connected with the controller, the controller passes through communication unit and emergent information management platform communication connection, the collection subassembly is used for gathering each item data information of user's health, power supply unit is used for supplying power for controller, collection subassembly, communication subassembly.

Through adopting above-mentioned technical scheme, gather user's data information through gathering the subassembly, like blood pressure data information, blood sugar data information, rhythm of the heart data information, blood oxygen data information, the emergent information management platform of being convenient for monitors visitor's health in real time, can in advance or in time discover visitor's health, be convenient for in time handle for visitor's the safety guarantee that provides, effectively reduced the emergence of unexpected situation, reach the effect of carrying out intelligent high efficiency management to the scenic spot.

Preferably, intelligence wearing equipment still includes locating component, locating component is connected with the controller, locating component is used for fixing a position the position information that obtains the visitor and sends to the controller to intelligence wearing equipment.

Through adopting above-mentioned technical scheme, through locating component's setting, the managers of being convenient for look over visitor's position, help managers to effectively manage the scenic spot, and the managers of being convenient for can in time confirm visitor's position when receiving alarm information, and the managers of being convenient for provides help for the visitor, and the unexpected incident is handled fast in help, has effectively promoted visitor's play and has experienced.

Preferably, the positioning assembly comprises a Beidou positioning unit and a GPS positioning unit, the Beidou positioning unit is used for continuously positioning the intelligent wearable device to generate position information of the tourist and sending the position information to the controller, the controller sends the position information of the tourist to the emergency information management platform in real time through the communication assembly, and the GPS positioning unit is used for positioning the intelligent wearable device at intervals of a certain time according to a preset time interval to generate the position information of the tourist; the controller compares the position information of the tourist generated by the GPS positioning unit and the position information of the tourist generated by the Beidou positioning unit, if the error between the position information of the tourist generated by the GPS positioning unit and the position information of the tourist generated by the Beidou positioning unit does not exceed a preset threshold value, the working state of the Beidou positioning unit is judged to be normal, and the controller continues to adopt the position information of the tourist generated by the Beidou positioning unit; if the error between the tourist position information generated by the GPS positioning unit and the tourist position information generated by the Beidou positioning unit exceeds a preset threshold value, the working state of the Beidou positioning unit is judged to be unknown, and at the moment, the controller continues to adopt the tourist position information generated by the Beidou positioning unit; meanwhile, the controller compares the position information of the tourists generated by the GPS positioning unit with the position information errors of the tourists generated by the Beidou positioning unit for multiple times according to a preset time interval, and judges that the Beidou positioning unit has a blind area fault when the number of times that the errors continuously exceed a preset threshold reaches a preset number threshold, and at the moment, the controller adopts the position information of the tourists generated by the GPS positioning unit.

By adopting the technical scheme, the verification of the position information of the tourist is realized through the arrangement of the Beidou positioning unit and the GPS positioning unit, the accuracy of the position information of the tourist is ensured, the position of the tourist can be quickly confirmed when an accident or emergency occurs, and help is provided for the tourist; the problem that Beidou positioning signals are weak and cannot be accurately positioned in some scenic spots due to geographical reasons is effectively avoided, and the accuracy of tourist position information is ensured.

Preferably, intelligence wearing equipment still includes the SOS button, the SOS button is connected with the controller, the SOS button is used for the user to seek help to the scenic spot managers when emergency appears.

Through adopting above-mentioned technical scheme, through the setting of SOS button, the visitor of being convenient for seeks help to the scenic spot when the unexpected situation needs help appearing, realizes the effective management to emergent information, reaches the effect of carrying out intelligent high efficiency management to the scenic spot.

In a second aspect, the application provides an emergency information management method based on big data, which adopts the following technical scheme:

an emergency information management method based on big data comprises the following steps:

after basic information of the tourist is registered and intelligent wearable equipment is bound before the tourist enters a scenic spot, the intelligent wearable equipment is issued to the tourist for wearing;

the emergency information management platform analyzes the basic information of the tourists to generate a tourist monitoring scheme;

the intelligent wearable equipment collects data information of tourists in real time and sends the data information to the emergency information management platform;

the emergency information management platform monitors and analyzes data information of the tourists according to the tourists monitoring scheme, generates alarm information when abnormal data is found and sends the alarm information to a manager;

and when the tourist leaves the scene area, the intelligent wearable equipment is recovered and the tourist is reset to be unbound.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the emergency information management platform and the intelligent wearable equipment, after basic information of tourists entering a scenic spot is acquired, a corresponding tourist monitoring scheme is generated according to actual conditions of the tourists, the specific acquisition and monitoring of physical data information of the tourists are realized, the physical conditions of the tourists can be found in advance or in time, the safety guarantee can be provided for the tourists by timely processing, the occurrence of unexpected conditions is effectively reduced, and the effect of intelligent and efficient management of the scenic spot is achieved;

2. the people flow in each area in the scenic spot is monitored and predicted through the arrangement of the people flow detection unit and the people flow analysis unit, and when the people flow in a certain area is increased suddenly and a large number of people gather, prompt information is sent to a manager, so that the manager can check the people in time and add the people to manage and guide the people, the scenic spot can maintain the stability of each area conveniently, the phenomenon of unexpected conditions caused by large-scale gathering of the people is avoided, and the effect of intelligent and efficient management on the scenic spot is achieved;

3. the people flow analysis unit measures and calculates the future of each region of the scenic spot in real time through a preset people flow prediction calculation formula

The method comprises the steps of sending prompt information to managers when the traffic data is larger than a preset threshold value, so that the managers can check the personnel allocation condition of the corresponding area in advance, the situation that the people are not rainy, silk and muzzle is achieved, and the management efficiency of the scenic spot is further improved;

4. through the arrangement of the Beidou positioning unit and the GPS positioning unit, the position information of the tourist is verified, the accuracy of the position information of the tourist is ensured, the position of the tourist can be quickly confirmed when an accident or emergency occurs, and help is provided for the tourist; the problem that Beidou positioning signals are weak and cannot be accurately positioned in some scenic spots due to geographical reasons is effectively avoided, and the accuracy of tourist position information is ensured.

Drawings

FIG. 1 is a system block diagram of a big data-based emergency information management system according to an embodiment of the present application;

fig. 2 is a block diagram of a method for emergency information management based on big data in an embodiment of the present application.

Description of reference numerals: 1. an emergency information management platform; 11. an information storage module; 12. a scheme generation module; 121. a scheme storage unit; 122. a keyword labeling unit; 123. a scheme matching unit; 13. an information analysis module; 14. a management terminal; 15. a security broadcast module; 151. an input terminal; 152. an output terminal; 16. a people flow management module; 161. a human flow rate detection unit; 162. a human flow rate analysis unit; 163. a static people flow detection camera; 164. a dynamic pedestrian flow detection camera; 2. the intelligent wearable equipment; 21. a controller; 22. a collection assembly; 23. a communication component; 24. a power supply assembly; 25. a positioning assembly; 251. a Beidou positioning unit; 252. a GPS positioning unit; 26. a distress button.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses an emergency information management system based on big data. Referring to fig. 1, an emergent information management system based on big data, including emergent information management platform 1 and a plurality of intelligence wearing equipment 2, a plurality of intelligence wearing equipment 2 all with emergent information management platform 1 communication connection. The intelligent wearable device 2 is used for collecting data information of tourists and sending the data information to the emergency information management platform 1. The emergency information management platform 1 includes:

the information storage module 11 is used for receiving and storing the basic information and the data information of the tourists;

the scheme generating module 12 is used for analyzing the basic information of the tourists to generate a tourist monitoring scheme;

the information analysis module 13 is configured to obtain, in real time, guest data information detected by the smart wearable device 2 worn by the guest, perform monitoring analysis according to a guest monitoring scheme, and generate alarm information when abnormal data is found and send the alarm information to a manager;

the management terminal 14 is used for browsing the basic information and the data information of the tourists after the scenic spot management personnel receive the alarm information;

and the security broadcast module 15 is used for broadcasting information to scenic spots by managers. Through setting up of emergent information management platform 1 and intelligent wearing equipment 2, according to visitor's actual conditions after the basic information acquisition to the visitor who gets into the scenic spot, generate the visitor monitoring scheme that corresponds, realize that the pertinence is gathered and is monitored visitor's health data information, can in advance or in time discover visitor's health, be convenient for in time handle for visitor's the safety guarantee that provides, effectively reduced the emergence of unexpected situation, reach the effect of carrying out intelligent high efficiency management to the scenic spot.

Referring to fig. 1, the scenario generation module 12 includes a scenario storage unit 121, a keyword labeling unit 122, and a scenario matching unit 123. The scenario storage unit 121 is used to store a guest monitoring scenario formation database. The keyword labeling unit 122 is configured to extract and analyze basic information labels of tourists to generate an age keyword, a gender keyword, and a chronic disease keyword. The plan matching unit 123 is configured to match the age keywords, the gender keywords, and the chronic disease keywords extracted by the keyword labeling unit 122 in the plan storage unit 121 to generate the guest monitoring plan. The method comprises the steps of extracting basic information of tourists, obtaining and generating age keywords, gender keywords and chronic disease keywords, and dynamically matching a tourist monitoring scheme suitable for the tourists according to the ages, the sexes and the physical conditions of the tourists. If the user has a chronic history of hypertension, the matched tourist monitoring scheme takes the blood pressure monitoring of the user as a key item, and when the blood pressure data of the user is analyzed, the monitoring is more intelligent and more accurate according to the blood pressure monitoring mode of the chronic diseases of hypertension. The realization is handled the intellectuality of emergency information, is convenient for in time handle and for visitor's the safety guarantee that provides, has effectively reduced the emergence of unexpected situation, reaches the effect of carrying out intelligent high efficiency management to the scenic spot.

Referring to fig. 1, the emergency information management platform 1 further includes a people flow management module 16. The people flow management module is used for detecting and predicting the people flow data of each ornamental playing point in the scenic spot in real time and sending prompt information to managers when a large number of people gather or a large number of people gather is about to occur. The people flow management unit includes a people flow rate detection unit 161 and a people flow rate analysis unit 162. The human traffic detection unit 161 includes a plurality of static human traffic detection cameras 163 and a plurality of dynamic human traffic detection cameras 164. A plurality of static people flow detection cameras 163 are arranged at each viewing point and rest area in the scenic spot, and a plurality of dynamic people flow detection cameras 164 are arranged above each road in the scenic spot. The people flow rate analysis unit 162 is used for analyzing and counting the people flow rate and sending prompt information to the manager when the people flow rate in a certain area exceeds a preset people flow rate threshold value a. The flow analysis unit is also used for measuring and calculating the predicted pedestrian flow of each region in the scenic spot in a future period of time according to a preset pedestrian flow prediction calculation formula, and sending prompt information when the predicted pedestrian flow of a certain region is larger than a preset pedestrian flow threshold value A. Through the setting of flow of people detecting element 161 and flow of people analysis element 162, realize monitoring and the prediction to the flow of people in each region in the scenic spot, and when a large amount of personnel gathering situations appear in certain regional flow of people surge, send tip information to managers, the managers of being convenient for in time look over and add the personnel of dispatching and manage and the water conservancy diversion, the scenic spot of being convenient for maintains the stability in each region, avoid appearing the phenomenon of unexpected situation because of personnel gather on a large scale, reach the effect of carrying out intelligent high efficiency management to the scenic spot.

Referring to fig. 1, the preset people flow prediction calculation formula specifically includes: y = A +

Wherein Y is the region

The predicted flow after a minute, a is the static flow of people in the area,

the predicted length of travel of the area for the dynamic traffic detection point for the ith road leading to the area or dynamic traffic detection camera 164 from the area,

the dynamic pedestrian volume detection point of the ith road leading to the area, namely the dynamic pedestrian volume detection camera 164 is close

The dynamic human flow rate detected in a minute,

the predicted time period for the dynamic traffic detection point for the jth road leaving the area i.e. the dynamic traffic detection camera 164 to travel from the area,

the dynamic pedestrian volume detection point of the jth road leaving the area, namely the dynamic pedestrian volume detection camera 164 is close

Dynamic human flow measured in minutes. The people flow rate analysis unit 162 calculates the people flow rate data of each region in the scenic spot in the future minute in real time through a preset people flow rate prediction calculation formula, and sends prompt information to the manager when the people flow rate data is larger than a preset threshold value, so that the manager can conveniently check the personnel distribution condition of the corresponding region in advance, the situation that the people are not rainy and mushy is achieved, and the management efficiency of the scenic spot is further improved.

Referring to fig. 1, the security broadcast module 15 includes an input terminal 151 and a plurality of output terminals 152, and the input terminal 151 and the plurality of output terminals 152 are connected to the management terminal 14, and the plurality of output terminals 152 are distributed in each region of the scenic spot. Through the setting of security broadcast module 15, be convenient for when the unexpected situation takes place, managers can in time broadcast and guide the visitor to evacuate or handle to the visitor, promotes emergent information management efficiency.

Referring to fig. 1, intelligence wearing equipment 2 includes controller 21, collection subassembly 22, communication subassembly 23 and power supply unit 24, and collection subassembly 22, communication subassembly and power supply unit 24 all are connected with controller 21, and controller 21 passes through communication subassembly and emergent information management platform 1 communication connection, and collection subassembly 22 is used for gathering each item data information of user's health, and power supply unit 24 is used for supplying power for controller 21, collection subassembly 22, communication subassembly 23. In this embodiment, the intelligent wearable device 2 is an intelligent bracelet. Data information to the user is collected through collection component 22, like blood pressure data information, blood sugar data information, rhythm of the heart data information, blood oxygen data information, the emergent information management platform 1 of being convenient for monitors visitor's health in real time, can in advance or in time discover visitor's health, and the timely processing of being convenient for provides the safety guarantee for visitor, has effectively reduced the emergence of unexpected situation, reaches the effect of carrying out intelligent high efficiency management to the scenic spot.

Referring to fig. 1, the smart wearable device 2 further includes a positioning component 25, and the positioning component 25 is connected to the controller 21. The positioning component 25 is used for positioning the intelligent wearable device 2 to obtain the position information of the tourist and sending the position information to the controller 21. Through locating component 25's setting, the administrator of being convenient for looks over visitor's position, helps managers to effectively manage the scenic spot, and the administrator of being convenient for can in time confirm visitor's position when receiving alarm information, and the administrator of being convenient for provides help for the visitor, and the unexpected incident is handled fast in help, has effectively promoted visitor's play and has experienced.

Referring to fig. 1, the positioning assembly 25 includes a big dipper positioning unit 251 and a GPS positioning unit 252, the big dipper positioning unit 251 is used for continuously positioning the intelligent wearable device 2 to generate the position information of the tourist and send the position information to the controller 21, and the controller 21 sends the position information of the tourist to the emergency information management platform 1 through the communication assembly in real time. The GPS positioning unit 252 is configured to position the smart wearable device 2 at preset time intervals at certain intervals to generate position information of the visitor. The controller 21 compares the position information of the tourist generated by the positioning of the GPS positioning unit 252 with the position information of the tourist generated by the beidou positioning unit 251, and if the error between the position information of the tourist generated by the positioning of the GPS positioning unit 252 and the position information of the tourist generated by the beidou positioning unit 251 does not exceed a preset threshold value, the controller 21 determines that the beidou positioning unit 251 is in a normal working state, and the controller 21 continues to adopt the position information of the tourist generated by the beidou positioning unit 251. If the error between the tourist position information generated by the positioning of the GPS positioning unit 252 and the tourist position information generated by the beidou positioning unit 251 exceeds the preset threshold, it is determined that the working state of the beidou positioning unit 251 is unknown, and at this time, the controller 21 continues to use the tourist position information generated by the beidou positioning unit 251. Meanwhile, the controller 21 compares the position information of the tourist generated by the GPS positioning unit 252 with the position information error of the tourist generated by the beidou positioning unit 251 for multiple times according to a preset time interval, and when the number of times that the error continuously exceeds a preset threshold reaches a preset number threshold, the controller 21 judges that the beidou positioning unit 251 has a blind area fault, and at this time, the controller 21 adopts the position information of the tourist generated by the GPS positioning unit 252. Through the arrangement of the Beidou positioning unit 251 and the GPS positioning unit 252, the position information of the tourist is verified, the accuracy of the position information of the tourist is ensured, the position of the tourist can be quickly confirmed when an unexpected situation or an emergency situation occurs, and help is provided for the tourist; the problem that Beidou positioning signals are weak and cannot be accurately positioned in some scenic spots due to geographical reasons is effectively avoided, and the accuracy of tourist position information is ensured.

Referring to fig. 1, the intelligent wearable device 2 further includes a distress button 26, the distress button 26 is connected to the controller 21, and the distress button 26 is used for a user to call for help from a scene manager when an emergency occurs. Through the setting of SOS button 26, the visitor of being convenient for seeks help to the scenic spot when the unexpected situation needs help appearing, realizes the effective management to emergent information, reaches the effect of carrying out intelligent high efficiency management to the scenic spot.

The embodiment of the application also discloses an emergency information management method based on the big data. Referring to fig. 2, an emergency information management method based on big data includes the following steps:

s1, collecting information binding intelligent wearable equipment 2: after basic information of the tourist is registered and the intelligent wearable device 2 is bound before the tourist enters the scenic spot, the intelligent wearable device 2 is issued to the tourist to be worn;

s2, generating a tourist monitoring scheme: the emergency information management platform 1 analyzes and generates a tourist monitoring scheme according to the basic information of the tourist;

s3, collecting data information of the tourists in real time: the intelligent wearable device 2 collects data information of tourists in real time and sends the data information to the emergency information management platform 1;

s4, monitoring and analyzing the data information of the tourists: the emergency information management platform 1 monitors and analyzes data information of the tourists according to the tourists monitoring scheme, generates alarm information when abnormal data is found, and sends the alarm information to a manager;

s5, resetting and unbinding the intelligent wearable device: when the tourist leaves the scene area, the intelligent wearable device 2 is recovered and the resetting and unbinding are carried out. Through setting up of emergent information management platform 1 and intelligent wearing equipment 2, according to visitor's actual conditions after the basic information acquisition to the visitor who gets into the scenic spot, generate the visitor monitoring scheme that corresponds, realize that the pertinence is gathered and is monitored visitor's health data information, can in advance or in time discover visitor's health, be convenient for in time handle for visitor's the safety guarantee that provides, effectively reduced the emergence of unexpected situation, reach the effect of carrying out intelligent high efficiency management to the scenic spot.

The embodiment of the present application further discloses a computer-readable storage medium, which stores a computer program that can be loaded by a processor and executed in the method as described above, and the computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims

1. The emergency information management system based on big data is characterized by comprising an emergency information management platform (1) and a plurality of intelligent wearable devices (2), wherein the intelligent wearable devices (2) are in communication connection with the emergency information management platform (1);

the intelligent wearable device (2) is used for collecting data information of tourists and sending the data information to the emergency information management platform (1);

the emergency information management platform (1) comprises:

the information storage module (11) is used for receiving and storing the basic information and the data information of the tourists;

the scheme generation module (12) is used for analyzing the basic information of the tourists to generate a tourist monitoring scheme;

the information analysis module (13) is used for acquiring tourist data information detected by the intelligent wearable device (2) worn by the tourist in real time, carrying out monitoring analysis according to a tourist monitoring scheme, and generating alarm information and sending the alarm information to a manager when abnormal data is found;

the management terminal (14) is used for browsing the basic information and the data information of the tourists after the scenic spot management personnel receive the alarm information;

and the security broadcast module (15) is used for broadcasting information to scenic spots by managers.

2. The big data-based emergency information management system according to claim 1, wherein: the scheme generation module (12) comprises a scheme storage unit (121), a keyword marking unit (122) and a scheme matching unit (123), wherein the scheme storage unit (121) is used for storing the tourist monitoring scheme to form a database, the keyword marking unit (122) is used for extracting and analyzing basic information marks of tourists to generate an age keyword, a gender keyword and a chronic disease keyword, and the scheme matching unit (123) is used for matching the age keyword, the gender keyword and the chronic disease keyword extracted by the keyword marking unit (122) in the scheme storage unit (121) to generate the tourist monitoring scheme.

3. The big data-based emergency information management system according to claim 1, wherein: the emergency information management platform (1) further comprises a people flow management module (16), the people flow management module is used for detecting and predicting people flow data of each viewing and playing point in a scenic spot in real time and sending prompt information to managers when a large number of people gather or are about to appear, the people flow management unit comprises a people flow detection unit (161) and a people flow analysis unit (162), the people flow detection unit (161) comprises a plurality of static people flow detection cameras (163) and a plurality of dynamic people flow detection cameras (164), the plurality of static people flow detection cameras (163) are arranged at each viewing and playing point and rest area in the scenic spot, and the plurality of dynamic people flow detection cameras (164) are arranged above each road in the scenic spot; the people flow analysis unit (162) is used for analyzing and counting the people flow and sending prompt information to managers when the people flow of a certain area exceeds a preset people flow threshold value A, and the flow analysis unit is also used for measuring and calculating the predicted people flow of each area of a scenic spot for a period of time in the future according to a preset people flow prediction calculation formula and sending prompt information when the predicted people flow of the certain area is larger than the preset people flow threshold value A.

4. The emergency information management system based on big data according to claim 3, wherein the preset people flow prediction calculation formula is specifically: y = A +

Wherein Y is the region

The predicted flow after a minute, a is the static flow of people in the area,

the predicted time length of the moving pedestrian volume detection camera (164) from the area is the moving detection point of the ith road leading to the area,

the position of a dynamic pedestrian flow detection point, namely a dynamic pedestrian flow detection camera (164) of the ith road leading to the area is close to

The dynamic human flow rate detected in a minute,

the predicted time length of the travel of the jth road leaving the area from the area, namely the dynamic pedestrian volume detection camera (164),

the distance of a dynamic pedestrian flow detection camera (164) which is a dynamic pedestrian flow detection point of the jth road leaving the area is

Dynamic human flow measured in minutes.

5. The big data-based emergency information management system according to claim 1, wherein: the security broadcast module (15) comprises an input terminal (151) and a plurality of output terminals (152), wherein the input terminal (151) and the output terminals (152) are connected with the management terminal (14) in a plurality of ways, and the output terminals (152) are distributed in all regions of a scenic spot.

6. The big data-based emergency information management system according to claim 1, wherein: intelligence wearing equipment (2) include controller (21), collection subassembly (22), communication subassembly (23) and power supply unit (24), collection subassembly (22), communication subassembly and power supply unit (24) all are connected with controller (21), controller (21) pass through communication subassembly and emergent information management platform (1) communication connection, collection subassembly (22) are used for gathering each item data information of user's health, power supply unit (24) are used for supplying power for controller (21), collection subassembly (22), communication subassembly (23).

7. The big-data-based emergency information management system according to claim 6, wherein: intelligence wearing equipment (2) still include locating component (25), locating component (25) are connected with controller (21), locating component (25) are used for fixing a position intelligence wearing equipment (2) and obtain visitor's positional information and send controller (21).

8. The big-data-based emergency information management system according to claim 7, wherein: the positioning assembly (25) comprises a Beidou positioning unit (251) and a GPS positioning unit (252), the Beidou positioning unit (251) is used for continuously positioning the intelligent wearable device (2) to generate position information of the tourist and sending the position information to the controller (21), the controller (21) sends the position information of the tourist to the emergency information management platform (1) through the communication assembly in real time, and the GPS positioning unit (252) is used for positioning the intelligent wearable device (2) at intervals of a certain time according to preset time intervals to generate the position information of the tourist; the controller (21) compares the tourist position information generated by the GPS positioning unit (252) through positioning with the tourist position information generated by the Beidou positioning unit (251), if the error between the tourist position information generated by the GPS positioning unit (252) through positioning and the tourist position information generated by the Beidou positioning unit (251) does not exceed a preset threshold value, the Beidou positioning unit (251) is judged to work normally, and the controller (21) continues to adopt the tourist position information generated by the Beidou positioning unit (251); if the error between the tourist position information generated by the GPS positioning unit (252) and the tourist position information generated by the Beidou positioning unit (251) exceeds a preset threshold value, the working state of the Beidou positioning unit (251) is determined to be unknown, and at the moment, the controller (21) continues to adopt the tourist position information generated by the Beidou positioning unit (251); meanwhile, the controller (21) compares the position information of the tourists generated by the GPS positioning unit (252) with the position information error of the tourists generated by the Beidou positioning unit (251) for multiple times according to a preset time interval, when the number of times that the error continuously exceeds a preset threshold reaches a preset number threshold, the controller (21) judges that a blind area fault exists in the Beidou positioning unit (251), and at the moment, the controller (21) adopts the position information of the tourists generated by the GPS positioning unit (252).

9. The big-data-based emergency information management system according to claim 7, wherein: the intelligent wearable device (2) further comprises a help-seeking button (26), the help-seeking button (26) is connected with the controller (21), and the help-seeking button (26) is used for a user to seek help from a scenic spot manager in case of emergency.

10. An emergency information management method based on big data is characterized by comprising the following steps:

after basic information of the tourist is registered and the intelligent wearable device (2) is bound before the tourist enters the scenic spot, the intelligent wearable device (2) is distributed to the tourist to be worn;

the emergency information management platform (1) analyzes the basic information of the tourists to generate a tourist monitoring scheme;

the intelligent wearable device (2) collects data information of tourists in real time and sends the data information to the emergency information management platform (1);

the emergency information management platform (1) monitors and analyzes data information of the tourists according to a tourist monitoring scheme, generates alarm information when abnormal data is found, and sends the alarm information to a manager;

when the tourist leaves the scene area, the intelligent wearable device (2) is recovered and the resetting and unbinding are carried out.