What functions does a smart scenic spot mainly include?

Cloud tourism, cloud exhibition, immersive performance and immersive amusement have become a trend of entertainment at present.

The scenic spot fully combines artificial intelligence, virtual reality and other technologies to digitize cultural tourism resources, so that tourists can get an immersive interactive experience before and after traveling. Comprehensive information, actual attendance history, clean hand load, nearby parking lot pressure, bus pressure near each door, crowd density, complaint reason analysis, today's incident handling, evacuation simulation, etc.

Modern scenic spots will bring more immersive interactive experiences to tourists after absorbing the achievements of information revolution (5G/6G), Internet revolution (Web 3.0), artificial intelligence revolution and virtual reality technology revolution including VR, AR and MR.

Enrolment statistics

Count the number of people who book tickets online, purchase tickets on site and leave the park respectively, and connect intelligent monitoring equipment and face recognition data to the visualization system to realize active security. Operation and maintenance can always pay attention to the tourist data in the visualization system, control the number of tourists in the park within a reasonable range, and meet the needs of operation and maintenance personnel such as real-time situation awareness, historical data review and comparison, and emergency treatment.

Toilet guide

In the 3D scene of the smart scenic spot, you can know the interface of people flow in public toilets and display the number of people in line. Count the number of users of men's toilets, women's toilets and barrier-free toilets; Load of public toilets in each area; History of environmental score; Environmental data such as nitrogen, temperature, humidity and PM2.5; Realize the digital management of scenic spots. Built by Hightopo visualization technology, it supports the integration of various video resources to form a unified video stream. Camera objects can be marked on 2D and 3D situation maps and associated with their video signal sources, and corresponding surveillance videos can be retrieved through scene interaction.

Historical records of the actual number of people entering the park

Realize the year-on-year, month-on-month and real-time data display of the daily average number of people entering the park. Graphical means clearly and effectively interpret and convey data information, which is helpful for us to discover the laws and characteristics and tap the value behind the data.

Manual net load

The progress bar shows the percentage of the load rate at the clean hands, and the operation and maintenance department can use the visual big screen to view the crowded location, and transmit the location information to the security personnel through wearable devices such as smart bracelets.

Bus pressure near each gate: make statistics on the bus situation near the scenic spot to facilitate tourists' travel.

Today's incident handling: counting the incidents that have been handled, to be distributed, discovered and to be dispatched to the police can evaluate the performance of scenic spot managers and optimize personnel management.

Cause analysis of complaints

The dynamic diagram shows the number of tour guide services, tour guide violations, traffic problems, facilities problems and tour group violations. Using rich charts, graphics and design elements, relatively complex and abstract data are displayed in a more intuitive way, which is convenient for scenic spot management.

thermodynamics figure

The crowd density in scenic spots is getting higher and higher, and group events are increasing day by day. The intensive flow of people has increased the management difficulty of security and service. Through the image recognition and analysis of multiple smart cameras, a complete heat map of the park can be formed. It indicates the concentration and congestion of people in a certain place in the park. There are many people in the red area and few tourists in the green area.

Crowd density analysis uses advanced target detection, identification, tracking and other technologies to count the number and density of people, monitor the safety of people in public places, and help us master the correct crowd density data and changing trends, so as to carry out reasonable safety management. Visual monitoring helps to monitor the passenger flow, and can establish a passenger flow early warning mechanism to effectively guide and evacuate the passenger flow beyond the carrying capacity of the scenic spot, and consider the evacuation route in advance.

The dynamic arrow points to the direction of the escape exit, which can simulate multiple evacuation routes, predict the time and calculate the best escape route. The scenic spot has the characteristics of high personnel density and complex terrain, which restores the real evacuation environment and situation and is highly consistent with the real situation of the scenic spot. Therefore, in the actual disaster escape, it can effectively improve the escape efficiency of tourists.

The layout of the digital twin Forbidden City Palace is antique, with magpies and flying white cranes as a foil to the classical style, combined with sci-fi color matching, the red brick and yellow tile Forbidden City tells the story of China's long history. Accessing VR equipment for sightseeing can achieve an immersive effect and bring an immersive experience.

On the Geographic Information System of Scenic Spots

It can make the ground objects in the three-dimensional scenic spot show more details. Three-dimensional scene data can be obtained by aerial photography modeling or manual modeling. Aerial photography modeling is stereo oblique shooting. There are many sensors on the plane or unmanned aerial vehicle, which shoot ground objects from four vertical directions, front, back, left and right, and collect data information. The three-dimensional model is obtained through processing operations such as correction, adjustment and multi-view image matching. Manual modeling is mainly based on a certain range of scene maps or CAD drawings combined with real photos.

The result data of aerial photography modeling has geographic coordinate system information and can be accurately matched with GIS. Manual modeling needs manual spatial correction and registration to match GIS. Yes. The osgb model data of aerial photography modeling has LOD, and the system can display LOD models with different accuracy according to the distance between users and the scene when browsing, thus improving the efficiency of data display and rendering.

The accuracy of aerial photography modeling is not as good as that of manual modeling. If you need to query, analyze and edit a simple model, you need to personalize the aerial photography, but it takes longer period and higher cost to repair it. Therefore, personalization is applied to key buildings or historical sites.