CN115409655A - Scenic spot scheduling system and scheduling method based on 5G - Google Patents
Scenic spot scheduling system and scheduling method based on 5G Download PDFInfo
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- CN115409655A CN115409655A CN202211043716.0A CN202211043716A CN115409655A CN 115409655 A CN115409655 A CN 115409655A CN 202211043716 A CN202211043716 A CN 202211043716A CN 115409655 A CN115409655 A CN 115409655A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
- G06Q50/10—Services
- G06Q50/14—Travel agencies
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/06—Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
- G06Q10/063—Operations research, analysis or management
- G06Q10/0631—Resource planning, allocation, distributing or scheduling for enterprises or organisations
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A10/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE at coastal zones; at river basins
- Y02A10/40—Controlling or monitoring, e.g. of flood or hurricane; Forecasting, e.g. risk assessment or mapping
Abstract
A scenic spot scheduling system based on 5G comprises a dry set of monitoring camera devices, and further comprises a data acquisition unit, a data transmission unit, a management end data receiving unit, a management end database unit, a management end data analysis unit, a management end information pushing unit, a client end data receiving unit, a data interaction unit and a prompting unit which are arranged in a main control system of each monitoring camera device and in a registered tourist internet device and a scenic spot management side internet device; an application method of a scenic spot scheduling system based on 5G comprises four steps. When the pedestrian volume counted by the entrance of the scenic spot is too large, the prompt information can be timely pushed to the mobile phone of the tourist and the like, the number of the tourists rushing into the corresponding scenic spot in a short time is reduced, the tourism resources can be reasonably used, the management personnel can be prompted in the first time when the tourist falls down and has natural disasters, the management personnel can carry out rescue in a short time, and the hidden danger that the rescue and the injury expansion cannot be realized is reduced.
Description
Technical Field
The invention relates to the technical field of Internet application methods in the tourism industry and the like, in particular to a scenic spot scheduling system and a scenic spot scheduling method based on 5G.
Background
With the development of the internet technology, great progress of related industries such as the tourism industry is promoted, in the prior art, people can book entrance tickets of tourist attractions, book guesthouses in advance and the like on the premise of staying out, and great convenience is brought to travel of people.
Although the existing internet technology applied to the tourism industry and the like brings convenience to people, the internet technology is limited by technology, and more or less specific technical problems exist, for example, due to the fact that the number of visitors in a corresponding scenic spot cannot be counted, the visitors cannot be warned, and therefore people at one or more corresponding scenic spots in one scenic spot can be blocked in a short time, and bad tourism experience is brought to the visitors (and the number of visitors surge in a short time, and certain potential safety hazards also exist); on the contrary, the amount of people in the corresponding time periods of other scenic spots is rare, which is not beneficial to the reasonable distribution of the passenger personnel in the scenic spots, and more or less adverse effects can be caused to the effective utilization of the tourism resources. In addition, the prior art can not monitor the personal safety of the tourists in the scenic spots in real time, so that if personal safety accidents and the like happen to the tourists due to various accidents or the personal physical reasons, the tourists cannot be rescued at the first time, and the hidden danger that the injuries are aggravated exists. In summary, it is necessary to provide a system and a scheduling method capable of prompting tourists and tourists in the scenic spot, providing rationalization suggestions, and monitoring the safety of the tourists.
Disclosure of Invention
The invention provides a 5G-based scenic spot scheduling system and a scheduling method, aiming at overcoming the defects that the flow of people entering corresponding scenic spots cannot be reasonably arranged due to technical limitation, more tourists gushing into the corresponding scenic spots in a short time can bring adverse effects to tourism experience of the tourists, the safety of the tourists cannot be monitored, and if personal injury accidents of the tourists occur and the injuries of the tourists are aggravated when the tourists are not rescued in time, the invention can count the flow of people at the inlets of the corresponding scenic spots in real time based on AI technology, automatically push people flow data and reasonable suggestions to the tourists and a management party, prevent the crowds from being jammed to the corresponding scenic spots in a short time as much as possible, prompt the scenic spot management personnel to rescue and pay attention to the personal safety of the tourists at the first time when the tourists have personal injury accidents, and the tourists are prevented from being unable to deal with the rescues and being injured due to the rescued.
The technical scheme adopted by the invention for solving the technical problems is as follows:
a scenic spot scheduling system based on 5G comprises a plurality of sets of monitoring camera devices which are arranged at the entrance of each scenic spot and at the road side of the scenic spot, and is characterized by further comprising a data acquisition unit, a data transmission unit, a management end data receiving unit, a management end database unit, a management end data analysis unit, a management end information pushing unit, a client end data receiving unit, a data interaction unit and a prompting unit; the data acquisition unit and the data transmission unit are application software units installed in a master control system of each monitoring camera device; the management terminal data receiving unit, the management terminal database unit, the management terminal data analysis unit, the management terminal information pushing unit and the prompting unit are application software units installed in scenic spot management side internet equipment, and the client terminal data receiving unit and the data interaction unit are application software units installed in registered tourist internet equipment; an application method of a scenic spot scheduling system based on 5G comprises the following steps: the system comprises a data acquisition unit, a management end data receiving unit, a data transmission unit and a data processing unit, wherein the data acquisition unit is arranged in a plurality of sets of monitoring camera devices at the entrance and the road side of each scenic spot in a scenic area, acquires tourist data and environmental data shot by a camera in real time, and transmits the data to the management end data receiving unit through the data transmission unit; and B: the management end data receiving unit receives the data and then outputs the people flow data and the body position data to the management end data analyzing unit; and C: the management terminal data analysis unit calls the data stored in the management terminal database unit, and when the number of tourists in the corresponding scenic spot is too many, the management terminal information push unit sends message prompts to the tourists not arriving at the corresponding scenic spot and gives reasonable suggestions for touring to other scenic spots; step D: after receiving suggestions of too much people flow of corresponding scenic spots and visiting to other scenic spots through the client data receiving unit, the tourists are arranged according to specific conditions, and too many tourists are prevented from being gushed into one scenic spot in a short time; step E: when the camera in the corresponding area shoots that there are mountain rock landslide, mud-rock flow, torrential flood probability in the periphery, the data analysis unit can in time carry out the position early warning to the visitor in the sight spot through the suggestion unit after data analysis, and the visitor can avoid the danger area, prevents the injury accident.
Furthermore, a plurality of sets of monitoring camera devices at the road sides of each scenic spot in the scenic spot are mainly installed in the area with potential safety hazards.
Further, the data transmission unit transmits data through a wireless mobile network.
Furthermore, the management-side database unit stores the maximum passenger flow data allowed to enter each scenic spot related to the scenic spot in unit time, and can count the passenger flow data of the tourists of the scenic spots in real time, and the data management-side personnel can modify the data.
Furthermore, the management-side data analysis unit can analyze whether the people flow data of the current scenic spot exceeds the standard or is lower than the set flow based on the data of the management-side database, and can analyze whether the person in the visual field range of the camera has injury probability data.
Furthermore, the client data receiving unit can receive the information pushed by the management end information pushing unit, the tourists can interact with the data receiving unit of the management end through the data interaction unit, and the tourists can be helped and prompted by management end personnel.
Furthermore, when the data analysis unit analyzes the corresponding scenic spot traffic data, whether the tourists have the possibility of being injured or not can be analyzed based on the body position data of the tourists and the background data of the ground, when the tourists become low and judge that the tourists are likely to fall down for a period of time, the tourists are judged to have the possibility of being injured when the ground background is red, and the tourists send prompt sounds when triggering threshold values in the data analysis unit, promote managers to screen timely and rescue on the spot if necessary.
The invention has the beneficial effects that: the invention is based on AI artificial intelligence technology, can collect the people flow data of each scenic spot entrance, the visitor data of each scenic spot and the surrounding environment data in real time in application, and can push prompt information for the mobile phone of the visitor and the like in time when the people flow counted by the scenic spot entrance is overlarge, thus, the visitor who does not arrive at the scenic spot can travel to other scenic spots according to the needs, the defect that the tourist experience of the tourist is adversely affected by the scenic spot and crowd congestion caused by the overlarge number of visitors to the corresponding scenic spot in a short time is reduced, and the tourist resources can be reasonably used. According to the invention, when the falling body position of the tourist in the monitoring area changes and bloodstains exist on the ground, the management personnel can be prompted at the first time, and the management personnel can carry out rescue on site in a shorter time as far as possible, so that the hidden danger of the tourist caused by incapability of rescuing and injuring the tourist is reduced; and in the camera monitoring range, when probabilities of torrential flood, debris flow, collapse and the like exist around, the mobile phones of tourists in all scenic spots can push the site data with potential safety hazards at the first time, so that the tourists can avoid the areas and personal injury accidents are prevented. Based on the above, the invention has good application prospect.
Drawings
The invention is further illustrated by the following figures and examples.
FIG. 1 is a diagram of the software architecture of the present invention.
Detailed Description
As shown in fig. 1, a 5G-based scenic spot scheduling system includes a plurality of sets of monitoring camera devices installed at entrances of scenic spots and at road sides of scenic spots and having wireless data transmission functions, and further includes a data acquisition unit, a data transmission unit, a management end data receiving unit, a management end database unit, a management end data analysis unit, a management end information push unit, a client end data receiving unit, a client end data interaction unit, and a prompt unit; the data acquisition unit and the data transmission unit are application software units installed in a master control system of each monitoring camera device; the management terminal data receiving unit, the management terminal database unit, the management terminal data analysis unit, the management terminal information pushing unit and the prompt unit are application software installed in scenic spot management party internet equipment (such as a PC), and the client terminal data receiving unit and the client terminal data interaction unit are application software installed in registered tourist internet equipment (such as a smart phone); the data acquisition unit, the data transmission unit, the management end data receiving unit, the management end database unit, the management end data analysis unit, the management end information pushing unit and the prompting unit can realize interconnection through the Internet, and the management end data receiving unit, the management end database unit, the management end data analysis unit, the management end information pushing unit and the prompting unit can realize interconnection through the Internet and the client end data receiving unit and the client end data interaction unit.
Fig. 1 shows, a plurality of sets of surveillance camera head device that have wireless transmission data of each sight spot road side in scenic spot mainly install the region that has the potential safety hazard (for example, the small roadside in the mountain, can play good monitoring effect like this, when monitoring regional emergence personnel are injured, management end personnel can in time be rescued, can master particular case the very first time when taking place collapse, mud-rock flow, torrential flood). The data transmission unit transmits data through a wireless mobile network (construction and maintenance are more convenient). The management terminal database unit is internally stored with maximum passenger flow data allowed to enter each scenic spot relevant to the scenic spot in unit time, and can count the passenger flow data of a plurality of scenic spots in real time, and the data management terminal personnel can modify (more flexibly apply). The management-side data analysis unit can analyze whether the people flow data of the current scenic spot exceeds the standard or is lower than the set flow based on the data of the management-side database, and can analyze whether the person in the visual field range of the camera has injury probability data; the management terminal information pushing unit can push tourist suggestions of each scenic spot for the internet equipment of the registered passengers. The client data receiving unit can receive the excess of the corresponding scenic spot people flow and the current suggested tourist attraction information pushed by the management end information pushing unit.
As shown in fig. 1, an application method of a 5G-based scenic spot scheduling system includes the following steps (1): the tourists log in the scenic spot website to register, the registered information comprises names, addresses, telephone numbers and telephone numbers of emergency contacts, the registered telephone numbers are mainly used for the tourists to receive prompt messages such as short messages and the like and are beneficial to the contact between a scenic spot manager and the tourists, and the tourists can complete reservation of entrance tickets, hotels, guest rooms and the like of the scenic spots on the website after registering; in order to prevent unnecessary interference to the tourists, the system automatically does not push contents such as short messages for the mobile phones of the tourists any more after the tickets of the corresponding scenic spots are expired. (2) The data acquisition unit arranged in a plurality of sets of monitoring camera devices at the entrance and road side of each scenic spot in the scenic area collects data of tourists shot by the cameras in real time, and preliminarily arranges and classifies the data (classifies the data with abnormal body position and ground background color and the data of pedestrian flow entering the scenic spots normally, and the acquired data also comprises body position picture data of guests and ground background color picture data) and transmits the data to the management terminal data receiving unit in a wireless mode through the data transmission unit. (3) The management end data receiving unit receives the data and then outputs the pedestrian volume data and the body position data after the data classification to the management end data analysis unit; the data receiving unit can store the received data, and therefore subsequent workers can conveniently know various data in the scenic spot unit time. (4) The management terminal data analysis unit calls the data stored in the management terminal database unit as a comparison basis, and when the number of tourists in the corresponding scenic spot is too many, the management terminal information push unit sends message prompts to the mobile phones of the tourists and the like who have not arrived at the corresponding scenic spot, and reasonable suggestions for visiting other scenic spots are given. (5) After receiving the suggestions of excessive traffic of corresponding scenic spots and visiting to other scenic spots, the registered tourists can arrange according to specific conditions to prevent too many tourists from flooding into one scenic spot in a short time. (6); the registered tourists can interact with the data receiving unit of the management end through the data interaction unit, so that the tourists can be helped and prompted by personnel at the management end (for example, the tourists need to know corresponding data of scenic spots or need to be helped when sudden diseases and the like occur). When the data analysis unit analyzes corresponding scenic spot people flow data, whether the probability that the tourist is injured exists or not can be analyzed based on the position data of the tourist and the background data of the ground, when the position of the tourist becomes low for a period of time (for example, the position of the tourist in a picture is lower than the normal position for more than 10 seconds), the probability that the tourist is likely to fall down is judged, when the background of the ground is red (for example, the tourist falls down and bleeds), the probability that the tourist is injured is judged, and when a threshold value (with position abnormal data and ground background color abnormal color data in the trigger data analysis unit) is given out, a prompt sound is given out, a manager is promoted to screen timely, and if necessary, rescue is carried out on site (7): step E: when the camera in the corresponding area shoots that there is mountain landslide, mud-rock flow, torrential flood probability in the periphery, the data analysis unit can in time carry out the position early warning to the visitor in the sight spot through the suggestion unit after data analysis, and the visitor can avoid the danger area, prevents the injury accident.
As shown in fig. 1, according to the invention, based on the AI artificial intelligence technology, the people flow data of each entrance of the scenic spots and the data of the tourists in each scenic spot can be collected in real time in the application, when the people flow counted by the scenic spot entrance is too large, prompt information can be pushed for the mobile phones of the tourists and the like in time, so that the tourists who do not arrive at the scenic spot can travel to other scenic spots as required, the defect that the tourism experience of the tourists is adversely affected due to the congestion of the scenic spot and the crowd caused by too many corresponding scenic spots gushes of the tourists in a short time is reduced, and the tourism resources can be reasonably used. In the invention, when the positions of tourists falling down in a monitoring area are changed and bloodstains are found on the ground, the management personnel can be prompted at the first time, and the management personnel can carry out rescue on the site in a shorter time as far as possible, so that the hidden danger of the expansion of injuries caused by incapability of rescuing the tourists is reduced; and in the camera monitoring range, when probabilities of torrential flood, debris flow, collapse and the like exist around, the site data with potential safety hazards can be pushed for all mobile phones of tourists in scenic spots at the first time through the prompting unit, so that the tourists can avoid the areas and personal injury accidents are prevented.
While there have been shown and described what are at present considered to be the essential features of the invention and advantages thereof, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Furthermore, it should be understood that although the present specification describes embodiments, these embodiments are not intended to encompass only a single embodiment, and such description is merely for clarity, and those skilled in the art will be able to refer to the specification as a whole, and the embodiments may be suitably combined to form other embodiments as will be appreciated by those skilled in the art.
Claims (7)
1. A scenic spot scheduling system based on 5G comprises a plurality of sets of monitoring camera devices which are arranged at the entrance of each scenic spot and at the road side of the scenic spot, and is characterized by further comprising a data acquisition unit, a data transmission unit, a management end data receiving unit, a management end database unit, a management end data analysis unit, a management end information pushing unit, a client end data receiving unit, a data interaction unit and a prompting unit; the data acquisition unit and the data transmission unit are application software units installed in a master control system of each monitoring camera device; the management terminal data receiving unit, the management terminal database unit, the management terminal data analysis unit, the management terminal information pushing unit and the prompting unit are application software units installed in scenic spot management party internet equipment, and the client terminal data receiving unit and the data interaction unit are application software units installed in registered visitor internet equipment; an application method of a scenic spot scheduling system based on 5G comprises the following steps: the data acquisition unit is arranged in a plurality of sets of monitoring camera devices at the entrance and road side of each scenic spot in the scenic area, collects tourist data and environmental data shot by the cameras in real time, transmits the data to the data receiving unit of the management end through the data transmission unit, and the collected data also comprises the body position of the guest and the ground background color picture data; and B, step B: the management end data receiving unit receives the data and then outputs the people flow data and the body position data to the management end data analysis unit; step C: the management terminal data analysis unit calls the data stored in the management terminal database unit, and when the number of tourists in the corresponding scenic spot is too many, the management terminal information push unit sends message prompts to the tourists not arriving at the corresponding scenic spot and gives reasonable suggestions for touring to other scenic spots; step D: after receiving suggestions of too much people flow of corresponding scenic spots and visiting to other scenic spots through the client data receiving unit, the tourists are arranged according to specific conditions, and too many tourists are prevented from being gushed into one scenic spot in a short time; and E, step E: when the camera in the corresponding area shoots that there is mountain landslide, mud-rock flow, torrential flood probability in the periphery, the data analysis unit can in time carry out the position early warning to the visitor in the sight spot through the suggestion unit after data analysis, and the visitor can avoid the danger area, prevents the injury accident.
2. The 5G-based scenic spot scheduling system of claim 1, wherein a plurality of sets of monitoring camera devices at the road side of each scenic spot are mainly installed in areas with potential safety hazards.
3. The 5G-based scenic spot scheduling system of claim 1, wherein the data transmission unit transmits data through a wireless mobile network.
4. The 5G-based scenic spot scheduling system as claimed in claim 1, wherein the management-side database unit stores therein maximum traffic data allowed to enter each scenic spot associated with the scenic spot per unit time, and can count the data of the traffic of visitors of a plurality of scenic spots in real time, and the data management-side personnel can modify the data.
5. The 5G-based scenic spot scheduling system as claimed in claim 1, wherein the management-side data analysis unit can analyze whether the traffic data of the current scenic spot exceeds a predetermined traffic or is lower than the predetermined traffic based on the data in the management-side database, and can analyze whether there is a risk of injury data for people in the field of view of the camera.
6. The application method of the 5G-based scenic spot scheduling system as claimed in claim 1, wherein the client data receiving unit can receive information pushed by the management-side information pushing unit, the tourists can interact with the management-side data receiving unit through the data interaction unit, and the tourists can be assisted and prompted by management-side personnel.
7. The application method of the 5G-based scenic spot scheduling system as claimed in claim 1, wherein the data analysis unit analyzes the traffic data of the corresponding scenic spot persons, and simultaneously analyzes whether the probability of injury of the tourists exists or not based on the position data of the tourists and the background data of the ground, determines that the tourists are likely to fall down when the body of the tourists becomes low for a period of time, determines that the probability of injury of the tourists exists when the background of the ground becomes red, and gives a prompt sound when triggering a threshold value in the data analysis unit, so as to promote managers to screen in time and carry out rescue on site if necessary.
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