CN117608437B - Travel demonstration method and system suitable for geological park - Google Patents

Abstract

The invention provides a travel display method and a travel display system suitable for geological parks, wherein the method comprises the following steps: generating virtual scenic spots corresponding to the tourist attractions, and establishing a corresponding relation between the virtual scenic spots and the simulation scenic spots; the method comprises the steps of obtaining a visiting position of a current visiting end, determining a current simulation scenic spot according to the visiting position, and sending a current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current visiting end; responding to the interaction of the current virtual area of the current tour end, marking the area of the current virtual area based on the preset color corresponding to the current tour end, and controlling an indicator lamp at the current simulation area with the corresponding relation with the current virtual area to indicate based on the preset color; and determining each path of simulated scenic spots based on the tour route of the current tour end in the simulated park, generating tour videos according to each path of simulated scenic spots, and sending the tour videos to the current tour end for display. The invention at least improves the tour efficiency.

Description

Travel demonstration method and system suitable for geological park

Technical Field

The invention relates to the technical field of data processing, in particular to a travel display method and system suitable for geological parks.

Background

The geological park (Geopark) is a unique natural area which is formed by taking geological remains landscape with special geological science significance, rare natural attribute and higher aesthetic appreciation value as a main body, integrating other natural landscapes with artificial landscapes, and provides people with sightseeing tour, vacation leisure, health care recuperation and cultural entertainment places with higher scientific tastes, and is a key protection area of the ecological environment of the geological remains landscape, and a base for geological science research and popularization.

The inventor finds that the existing geological park is often located far from the urban area, so that the tourists cannot conveniently visit the park, and therefore, the simulation park corresponding to the geological park can be imitated in the area close to the urban area for the tourists to visit; however, the simulation park and the geological park must have a certain distinction, so that if the tourist only makes a tour on the simulation park based on an off-line mode, the tourist may not have a good tour experience.

Disclosure of Invention

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a travel presentation method and system for a geological park that overcomes or at least partially solves the above problems.

According to one aspect of the present invention there is provided a travel presentation method for a geological park comprising the steps of:

generating virtual scenic spots corresponding to the tourist attractions in the geological park, and respectively establishing corresponding relations between the virtual scenic spots and the simulation scenic spots in the simulation park, wherein the simulation scenic spots in the simulation park are manufactured by carrying out preset scaling on the basis of the tourist attractions in the geological park;

acquiring the visiting position of a current visiting end in the simulation park in real time, determining a current simulation scenic spot where the current visiting end is located according to the visiting position, and sending a current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current visiting end based on the current simulation scenic spot;

responding to the interaction of the current tour end to a current virtual area in the current virtual scenic spot, marking the current virtual area based on a preset color corresponding to the current tour end, and controlling an indicator lamp at a current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color;

And determining each path of simulated scenic spots based on the tour route of the current tour end in the simulated park, generating tour videos according to each path of simulated scenic spots, and sending the tour videos to the current tour end for display.

Optionally, in the method according to the present invention, generating virtual attractions corresponding to the tourist attractions in the geological park, respectively, includes:

modeling is carried out based on all tourist attractions in the geological park, so as to obtain all scenic spot models respectively corresponding to all tourist attractions;

determining geologic model parts related to geologic areas in each scenic spot model respectively, and deleting other model parts except the geologic model parts from the scenic spot models to obtain each geologic scenic spot model;

uploading the geologic spot models to a digital twin space to obtain corresponding virtual scenic spots.

Optionally, in the method according to the present invention, a tour location of a current tour end in the simulated park is obtained in real time, a current simulated scenic spot where the current tour end is located is determined according to the tour location, and a current virtual scenic spot having a corresponding relationship with the current simulated scenic spot is sent to the current tour end based on the current simulated scenic spot, including:

Obtaining a top view of the simulation park, and dividing the top view according to the position of each simulation scenic spot in the simulation park to obtain each sightseeing area corresponding to each simulation scenic spot;

establishing a top view coordinate system with the center point of the top view as an origin, and acquiring each coordinate interval corresponding to each sightseeing area according to the top view coordinate system;

acquiring the tour position of the current tour end in the simulation park in real time, and acquiring corresponding tour coordinates in the upper view coordinate system according to the tour position;

comparing the tour coordinates with each coordinate interval, determining the coordinate interval in which the tour coordinates fall as a current coordinate interval, and determining the current simulation scenic spot where the current tour end is located according to the current coordinate interval;

marking the current simulation scenic spot in the upper view, and sending the marked upper view to the current tour terminal;

and responding to the interaction of the current tour end to the upper view, sending the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current tour end, and displaying.

Optionally, in the method according to the present invention, in response to the interaction of the current tour end with the current virtual area in the current virtual scenic spot, performing an area marking on the current virtual area based on a preset color corresponding to the current tour end, and controlling an indicator lamp at the current simulation area having a corresponding relationship with the current virtual area in the current simulation scenic spot to indicate based on the preset color, including:

According to each simulation area divided in advance in the simulation scenic spot, carrying out area division on the virtual scenic spot with a corresponding relation with the simulation scenic spot to obtain each virtual area corresponding to each simulation area respectively;

respectively adding preset contour lines to the contours of the virtual areas in response to the interaction of the current tour end with the current virtual scenic spots;

responding to the interaction of the current tour terminal to one of the virtual areas, and determining the virtual area as a current virtual area;

displaying the preset contour lines of the current virtual area based on the preset color corresponding to the current tour end, and deleting the preset contour lines of other virtual areas except the current virtual area;

and controlling an indicator lamp in the current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color.

Optionally, in the method according to the present invention, controlling the indicator light at the current simulation area having a correspondence with the current virtual area in the current simulation scenic spot indicates based on the preset color, and then further includes the following steps:

The method comprises the steps of calling an explanation data template, wherein the explanation data template comprises a voice explanation slot position and a text explanation slot position;

based on the current virtual area, acquiring area voice explanation data and area text explanation data corresponding to the current virtual area, filling the area voice explanation data into the voice explanation slot position, and filling the area text explanation data into the text explanation slot position to obtain an explanation data display area;

and sending the explanation data display area to the current tour terminal for display.

Optionally, in the method according to the present invention, if the current tour end and the other tour ends interact with the same virtual area in the current virtual scenic spot within a preset time, each preset color of different colors corresponding to each tour end is obtained and forms a first color group;

controlling indicator lamps in a simulation area with a corresponding relation with the same virtual area to alternately indicate all preset colors in the first color group at preset frequency, and generating a color display instruction to send;

and the current tour end and the other tour ends respond to the received color display instruction, and alternately indicate the preset contour lines of the same corresponding virtual area to each preset color in the first color group at preset frequency.

Optionally, in the method according to the present invention, when determining that the current tour end moves from the current simulated scenic spot to other simulated scenic spots according to the tour position of the current tour end, deleting a preset color corresponding to the current tour end in the first color group to obtain a second color group;

controlling indicator lamps in a simulation area with a corresponding relation with the same virtual area to alternately indicate all preset colors in the second color group at preset frequency, and generating a color change instruction to send;

and the other tour ends respond to the received color change instruction and alternately indicate the preset contour lines of the corresponding same virtual area to each preset color in the second color group at preset frequency.

Optionally, in the method according to the present invention, generating a tour video according to each via-simulated scenic spot and sending the tour video to the current tour terminal includes:

acquiring a preset video template, wherein the preset video template comprises basic frame slots respectively corresponding to all the passing simulation scenic spots;

taking all the shot scenery spot images corresponding to all the passing simulation scenery spots in advance, and filling all the scenery spot images into corresponding basic frame slots;

When the current tour terminal performs the interaction on the passing virtual area in the passing virtual scenic spot corresponding to any passing simulation scenic spot, acquiring a blank frame slot, and inserting the blank frame slot into a basic frame slot corresponding to the passing simulation scenic spot;

filling a virtual image corresponding to the passing virtual region and a region image of a passing simulation region corresponding to the passing virtual region, which is shot in advance, into a corresponding blank frame slot;

and generating the tour video based on the filled basic frame slots and the blank frame slots, and sending the tour video to the current tour terminal.

Optionally, in the method according to the present invention, the tour video is generated based on the filled basic frame slots and blank frame slots and sent to the current tour terminal, and then further includes the following steps:

generating a video progress display layer according to the tour video;

filling each video frame forming the tour video into the video progress display layer according to the time sequence to form a video progress display area;

and responding to the interaction of the current tour terminal to the tour video, calling the video progress display area to display, and marking the outline of the video frame corresponding to each filled blank frame slot based on a preset color.

According to yet another aspect of the present invention there is provided a travel display system adapted for use in a geological park, comprising:

the generation module is configured to generate virtual scenic spots corresponding to the tourist attractions in the geological park respectively, and respectively establish corresponding relations between the virtual scenic spots and the simulation scenic spots in the simulation park, wherein the simulation scenic spots in the simulation park are manufactured by carrying out preset scaling on the basis of the tourist attractions in the geological park;

the sending module is configured to acquire the visiting position of the current visiting end in the simulation park in real time, determine the current simulation scenic spot of the current visiting end according to the visiting position, and send the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current visiting end based on the current simulation scenic spot;

the indication module is configured to respond to the interaction of the current tour end to a current virtual area in the current virtual scenic spot, perform area marking on the current virtual area based on a preset color corresponding to the current tour end, and control an indication lamp at a current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color;

And the video display module is configured to determine each path of simulated scenic spot based on the tour route of the current tour end in the simulated park, generate tour videos according to each path of simulated scenic spot and send the tour videos to the current tour end for display.

According to the travel demonstration method and system suitable for the geological park, through creating the virtual scenic spots corresponding to the tourist attractions in the geological park, when tourists visit the simulation scenic spots in the simulation park, the tourists can synchronously watch the corresponding virtual scenic spots based on the visit end, so that online visit and online downstream visit are respectively realized, and the visit experience of the tourists is improved; when a tourist is interested in a certain virtual area in the virtual scenic spot, the virtual area can be interacted through the tourist end, so that the current virtual area is marked with the area with the preset color, and the indicator lights at the simulation area corresponding to the virtual area are controlled to indicate based on the preset color, so that the tourist can find the corresponding simulation area in the simulation scenic spot to watch, and the tourist's convenience is improved; in addition, after the tourist finishes the tour, each path of simulated scenic spot can be determined based on the tour route, and corresponding tour videos are generated for the tourist to watch, so that the user experience of the tourist is further improved.

Drawings

FIG. 1 shows a schematic diagram of a computing device 100 according to one embodiment of the invention;

FIG. 2 illustrates a flow chart of a travel presentation method suitable for use in a geological park, according to another embodiment of the invention;

fig. 3 shows a block diagram of a travel presentation system suitable for use in a geological park according to yet another embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The geological park (Geopark) is a unique natural area which is formed by taking geological remains landscape with special geological science significance, rare natural attribute and higher aesthetic appreciation value as a main body, integrating other natural landscapes with artificial landscapes, and provides people with sightseeing tour, vacation leisure, health care recuperation and cultural entertainment places with higher scientific tastes, and is a key protection area of the ecological environment of the geological remains landscape, and a base for geological science research and popularization.

The inventor finds that the existing geological park is often located far from the urban area, so that the tourists cannot conveniently visit the park, and therefore, the simulation park corresponding to the geological park can be imitated in the area close to the urban area for the tourists to visit; however, the simulation park and the geological park must have a certain distinction, so that if the tourist only makes a tour on the simulation park based on an off-line mode, the tourist may not have a good tour experience.

The present inventors have proposed the present invention in order to solve the problems in the prior art described above. One embodiment of the present invention provides a travel presentation method suitable for a geological park, which may be performed in a computing device. FIG. 1 illustrates a block diagram of a computing device 100 according to one embodiment of the invention. As shown in FIG. 1, in a basic configuration 102, a computing device 100 typically includes a system memory 106 and one or more processors 104. The memory bus 108 may be used for communication between the processor 104 and the system memory 106.

Depending on the desired configuration, the processor 104 may be any type of processing including, but not limited to: microprocessor (μp), microcontroller (μc), digital information processor (DSP), or any combination thereof. The processor 104 may include one or more levels of caches, such as a first level cache 110 and a second level cache 112, a processor core 114, and registers 116. The example processor core 114 may include an Arithmetic Logic Unit (ALU), a Floating Point Unit (FPU), a digital signal processing core (DSP core), or any combination thereof. The example memory controller 118 may be used with the processor 104, or in some implementations, the memory controller 118 may be an internal part of the processor 104.

Depending on the desired configuration, system memory 106 may be any type of memory including, but not limited to: volatile memory (such as RAM), non-volatile memory (such as ROM, flash memory, etc.), or any combination thereof. Physical memory in a computing device is often referred to as volatile memory, RAM, and data in disk needs to be loaded into physical memory in order to be read by processor 104. The system memory 106 may include an operating system 120, one or more applications 122, and program data 124. The application 122 is actually a plurality of program instructions for instructing the processor 104 to perform a corresponding operation. In some implementations, the application 122 may be arranged to execute instructions on an operating system by the one or more processors 104 using the program data 124 in some implementations. The operating system 120 may be, for example, linux, windows or the like, which includes program instructions for handling basic system services and performing hardware-dependent tasks. The application 122 includes program instructions for implementing various user-desired functions, and the application 122 may be, for example, a browser, instant messaging software, a software development tool (e.g., integrated development environment IDE, compiler, etc.), or the like, but is not limited thereto. When an application 122 is installed into computing device 100, a driver module may be added to operating system 120.

When the computing device 100 starts up running, the processor 104 reads the program instructions of the operating system 120 from the memory 106 and executes them. Applications 122 run on top of operating system 120, utilizing interfaces provided by operating system 120 and underlying hardware to implement various user-desired functions. When a user launches the application 122, the application 122 is loaded into the memory 106, and the processor 104 reads and executes the program instructions of the application 122 from the memory 106.

Computing device 100 also includes storage device 132, storage device 132 including removable storage 136 and non-removable storage 138, both removable storage 136 and non-removable storage 138 being connected to storage interface bus 134.

Computing device 100 may also include an interface bus 140 that facilitates communication from various interface devices (e.g., output devices 142, peripheral interfaces 144, and communication devices 146) to basic configuration 102 via bus/interface controller 130. The example output device 142 includes a graphics processing unit 148 and an audio processing unit 150. They may be configured to facilitate communication with various external devices such as a display or speakers via one or more a/V ports 152. Example peripheral interfaces 144 may include a serial interface controller 154 and a parallel interface controller 156, which may be configured to facilitate communication with external devices such as input devices (e.g., keyboard, mouse, pen, voice input device, touch input device) or other peripherals (e.g., printer, scanner, etc.) via one or more I/O ports 158. An example communication device 146 may include a network controller 160, which may be arranged to facilitate communication with one or more other computing devices 162 via one or more communication ports 164 over a network communication link.

The network communication link may be one example of a communication medium. Communication media may typically be embodied by computer readable instructions, data structures, program modules, and may include any information delivery media in a modulated data signal, such as a carrier wave or other transport mechanism. A "modulated data signal" may be a signal that has one or more of its data set or changed in such a manner as to encode information in the signal. By way of non-limiting example, communication media may include wired media such as a wired network or special purpose network, and wireless media such as acoustic, radio Frequency (RF), microwave, infrared (IR) or other wireless media. The term computer readable media as used herein may include both storage media and communication media.

Computing device 100 also includes a storage interface bus 134 that is coupled to bus/interface controller 130. The storage interface bus 134 is coupled to the storage device 132, and the storage device 132 is adapted to store data. An example storage device 132 may include removable storage 136 (e.g., CD, DVD, U disk, removable hard disk, etc.) and non-removable storage 138 (e.g., hard disk drive HDD, etc.).

In computing device 100 according to the present invention, application 122 includes a plurality of program instructions to perform method 200.

Fig. 2 illustrates a flow chart of a method 200 according to another embodiment of the invention, the method 200 being adapted to be performed in a computing device, such as the aforementioned computing device 100.

As shown in fig. 2, the method 200 is for implementing a travel presentation method applicable to a geological park, and begins with step S202, where the following are included in step S202: generating virtual scenic spots corresponding to the tourist attractions in the geological park, and respectively establishing corresponding relations between the virtual scenic spots and the simulation scenic spots in the simulation park, wherein the simulation scenic spots in the simulation park are manufactured by carrying out preset scaling on the basis of the tourist attractions in the geological park.

For example, in this embodiment, the simulated park may be constructed based on the geological park in the real environment, the simulated park is manufactured according to the preset scaling based on the geological park, the preset scaling may be 1:2 or 1:3, the simulated park may be an indoor park or an outdoor park, and each simulated scenic spot corresponding to each tourist attraction in the geological park is further provided in the simulated park, and the tourist may enter the simulated park to visit each simulated scenic spot to simulate the tourist attraction; in addition, in order to improve the ornamental value of the tourist, the server can be used for generating each virtual scenic spot corresponding to each tourist scenic spot in the geological park, and establishing a corresponding relation between each virtual scenic spot and each simulation scenic spot in the simulation park, so that the tourist can watch each virtual scenic spot based on the tourist end when visiting the simulation park, on-line visiting and off-line visiting are respectively realized, and the visiting experience of the tourist is improved; here, the guest terminal may be a terminal device with a communication function, such as a mobile phone, a computer, or smart glasses, which is held or worn by the guest.

It should be noted that the appearance of the virtual scenic spot is similar or the same as that of the tourist attraction; similarly, the appearances of the simulated scenery spot and the virtual scenery spot are similar or identical, and the "establishing the correspondence between each virtual scenery spot and each simulated scenery spot" can be understood as follows: and determining the virtual scenery spots with the same appearance as the simulation scenery spots to correspond to each other.

Further, the generating each virtual scenic spot corresponding to each tourist attraction in the geological park may further include the following steps:

modeling is carried out based on all tourist attractions in the geological park, so that all the scenic spot models corresponding to all the tourist attractions are obtained;

determining geologic model parts related to geologic areas in each scenic spot model respectively, and deleting other model parts except the geologic model parts from the scenic spot models to obtain each geologic scenic spot model;

uploading the geologic spot models to a digital twin space to obtain corresponding virtual scenic spots.

For example, in this embodiment, each scenic spot corresponds to each tourist spot, and at present, each tourist spot is often a natural landscape which is artificially developed later, so that the tourist spot may include a building or a modern facility which is artificially built later, and as the above, the geological park mainly takes a geological remains landscape with a certain scale and distribution range as a main body, so that each scenic spot model obtained by modeling can be processed based on the characteristics, other model parts of the scenic spot model, such as a building or a modern facility which is artificially built later, are deleted from the scenic spot model, only a geological model part related to a geological region is left, so as to obtain each corresponding geological scenic spot model, and each geological scenic spot model is uploaded to a digital twin space, so as to obtain each corresponding virtual scenic spot.

It should be noted that, the above-mentioned distinction between the geologic model part and other model parts in the scenic spot model may be a manual distinction or a machine distinction based on big data; under the condition of adopting manual distinction, the server can send the corresponding scenic spot model to corresponding personnel to distinguish; under the condition of adopting machine distinction, a corresponding training model can be established based on the neural network learning model, the training model is trained to obtain a corresponding distinguishing model, and the server can send the corresponding scenic spot model to the distinguishing model to perform corresponding distinguishing operation; here, the neural network learning model is the prior art, and therefore, this embodiment is not described in detail.

In step S204, the following are included: and acquiring the tour position of the current tour end in the simulation park in real time, determining the current simulation scenic spot of the current tour end according to the tour position, and transmitting the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current tour end based on the current simulation scenic spot.

For example, in this embodiment, the current tourist end may integrate with a GPS positioning function, and the server acquires the tourist location of the current tourist end in real time by acquiring the positioning data output by the current tourist end, and because each simulated scenic spot in the simulated park is located in a corresponding area, the simulated scenic spot where the current tourist end is located may be determined based on the tourist location of the current tourist end, and the simulated scenic spot is determined as the current simulated scenic spot, and meanwhile, the corresponding current virtual scenic spot is sent to the current tourist end based on the current simulated scenic spot, so that the tourist can use the current tourist end to view the current virtual scenic spot.

Further, the foregoing "acquiring, in real time, the tour location of the current tour end in the simulation park, determining, according to the tour location, a current simulation scenic spot where the current tour end is located, and sending, to the current tour end, a current virtual scenic spot having a corresponding relationship with the current simulation scenic spot based on the current simulation scenic spot" may further include the following steps:

obtaining a top view of the simulation park, and dividing the top view according to the position of each simulation scenic spot in the simulation park to obtain each sightseeing area corresponding to each simulation scenic spot;

establishing a top view coordinate system taking the central point of the top view as an origin, and acquiring each coordinate interval corresponding to each sightseeing area according to the top view coordinate system;

acquiring the tour position of the current tour end in the simulation park in real time, and obtaining corresponding tour coordinates in an upper view coordinate system according to the tour position;

comparing the tour coordinates with each coordinate interval, determining the coordinate interval in which the tour coordinates fall as a current coordinate interval, and determining the current simulation scenic spot where the current tour end is located according to the current coordinate interval;

marking the current simulation scenic spot in the upper view, and sending the marked upper view to the current tour terminal;

And responding to the interaction of the current tour end to the upper view, sending the current virtual scenic spot with the corresponding relation with the current simulation scenic spot to the current tour end, and displaying.

For example, in this embodiment, when dividing a region of a simulated park, the server may first acquire a top view of the simulated park; then, dividing the upper view according to the positions of the simulated scenic spots in the upper view, so as to obtain each sightseeing area corresponding to each simulated scenic spot respectively; then, determining a center point of the upper view, and establishing an upper view coordinate system of the upper view by taking the center point as an origin; then, since each of the tour areas is located in the upper view, each coordinate section corresponding to each of the tour areas in the upper view may be acquired according to the obtained upper view coordinate system, wherein each coordinate section is composed of a plurality of coordinate points; then, determining the tour position of the current tour end in the simulation park according to the received positioning data of the current tour end, and acquiring corresponding tour coordinates in a top view coordinate system based on the tour position; then comparing the tour coordinate with a plurality of coordinate points in each coordinate interval, when the tour coordinate is the same as one coordinate point in a certain coordinate interval, determining that the tour coordinate falls into the coordinate interval, determining the coordinate interval as a current coordinate interval, and determining a simulated scenic spot corresponding to the current coordinate interval as a current simulated scenic spot; then, the current simulation scenic spot can be marked in the upper view, and the marked upper view is sent to the current tourist end, so that tourists can acquire own tourist positions in real time in the upper view and know the positions of other simulation scenic spots, the convenience of the tourists is improved, and the icons are arranged at the tourist positions in the upper view; finally, the current tour end can interact with the upper view, so that the server responds to the interaction, sends the current virtual scenery spot with the corresponding relation with the current simulation scenery spot to the current tour end, and displays the current virtual scenery spot at the current tour end.

Here, in one aspect, the marking of the current simulated sight in the top view may be an iconic marking, for example, by calling a sight icon for indicating a corresponding current simulated sight, and placing the sight at a position corresponding to the current simulated sight in the top view; on the other hand, the interaction of the current tour terminal to the upper view can be touch interaction, the tourist obtains the corresponding current virtual scenic spot to display in a touch manner, and similarly, the tourist can recall the upper view to display again based on the interaction.

In step S206, the following steps are included: and responding to the interaction of the current virtual area in the current virtual scenic spot by the current tour end, marking the area of the current virtual area based on the preset color corresponding to the current tour end, and controlling an indicator lamp at the current simulation area with the corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color.

For example, in this embodiment, if a guest has an interest in a certain virtual area in a current virtual scenic spot during the process of viewing the current virtual scenic spot, when the guest wants to know the corresponding position of the virtual area in the corresponding simulated scenic spot, the guest can interact with the current virtual area in the current virtual scenic spot based on the current tour end, and control the indicator light at the current simulated area, which has a corresponding relation with the current virtual area, in the current simulated scenic spot corresponding to the current virtual scenic spot to light up, so that the guest determines the position of the current simulated area based on the lighting up of the indicator light, thereby improving the tour efficiency and convenience of the guest.

In order to further improve the designability of the current simulation area, the current virtual area displayed at the tourist end can be marked based on the preset color corresponding to the current tourist end, meanwhile, the indicator lamps at the current simulation area corresponding to the current virtual area are controlled to indicate based on the preset color, so that the tourist can clearly light the current simulation area corresponding to the indicator lamps with the preset color to be the current virtual area corresponding to the tourist end, the purpose that the tourist can find the corresponding simulation area based on the preset color is finally achieved, and the tourist convenience is improved.

In each simulated scenic spot, a plurality of simulated areas may be predetermined, each of the simulated areas being an area having a sightseeing feature, for example, in a simulated scenic spot corresponding to a perigee ape site, an area where the ape skull is unearthed may be determined as a simulated area of the simulated scenic spot; in response, virtual areas corresponding to the plurality of simulation areas may be determined at the virtual sights.

At least one indicator light can be correspondingly arranged at each simulation area in the simulation scenic spot, each indicator light can be used for displaying multiple colors so as to indicate the corresponding simulation area, each tour end can be correspondingly provided with a preset color, and the preset colors of each tour end are different; each tourist can interact with different or the same virtual areas based on the corresponding tourist ends respectively, and based on the preset colors corresponding to the tourist ends, the tourist can quickly learn each virtual area with the tourist characteristics corresponding to the virtual scenic spot, and the tourist convenience is improved.

Further, the foregoing "responding to the interaction of the current tour end with the current virtual area in the current virtual scenic spot, marking the current virtual area with an area based on a preset color corresponding to the current tour end, and controlling the indicator lamp at the current simulation area having a corresponding relationship with the current virtual area in the current simulation scenic spot to indicate based on the preset color" may further include the following steps:

dividing the virtual scenery spots with corresponding relation with the simulation scenery spots according to the pre-divided simulation areas in the simulation scenery spots to obtain virtual areas corresponding to the simulation areas respectively;

responding to the interaction of the current tour end with the current virtual scenic spot, and respectively adding preset contour lines to the contours of the virtual areas;

responding to the interaction of the current tour terminal to one of the virtual areas, and determining the virtual area as the current virtual area;

displaying the preset contour lines of the current virtual area based on the preset color corresponding to the current tour end, and deleting the preset contour lines of other virtual areas except the current virtual area;

and controlling the indicator lamps in the current simulation area with the corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color.

For example, in this embodiment, after a tourist interacts with a current virtual scenic spot through a current tourist end, a preset contour line can be added to the contour of each virtual area in the current virtual scenic spot, and the preset contour line can be a dotted line segment or a real line segment, so that marking of each virtual area can be realized, the tourist can quickly know which areas with the tourist characteristics are included in the current virtual scenic spot, when the tourist has interest in one of the virtual areas, the tourist can interact with the virtual area through the tourist end, the server determines the virtual area as the current virtual area, displays the preset contour line of the current virtual area based on a preset color corresponding to the current tourist end, and deletes the preset contour lines of other virtual areas, so that marking of the current virtual area is realized in the tourist end; meanwhile, the server controls the indicator lights at the simulation areas corresponding to the current virtual areas to indicate based on the preset color.

It should be noted that, the current tour end may perform touch interaction on the current virtual scenic spot and the current virtual area.

In further research, the inventor finds that when a plurality of tourist ends interact with the same virtual area at the same time, the tourists are interested in the same virtual area, but the inventor can know that one tourist end corresponds to one preset color, the preset outline line of the virtual area interacted by the tourist end is displayed based on the preset color, and the indicator lights in the corresponding simulation area are also displayed based on the preset color; therefore, when a plurality of tour ends interact with the same virtual area at the same time, the indicator lights at the simulation areas corresponding to the virtual areas may display a plurality of different preset colors, and interference may occur between the preset colors, so that a tourist cannot know whether the corresponding simulation areas correspond to the virtual areas which he wants to know according to the colors displayed by the indicator lights; for example: when the tour end a and the tour end B have interest in the same virtual area at the same time, the indicator lamp at the simulation area corresponding to the virtual area may be displayed as a mixed color of red and yellow, that is, orange, so that the preset colors corresponding to the tour end a and the tour end B are different.

In order to solve the above-described problem, in the present embodiment, the following steps are further included:

in a preset time, if the current tour end and other tour ends interact with the same virtual area in the current virtual scenic spot, acquiring preset colors of different colors corresponding to each tour end respectively and forming a first color group;

controlling indicator lamps in a simulation area with a corresponding relation with the same virtual area to alternately indicate all preset colors in the first color group at preset frequency, and generating a color display instruction to send;

and the current tour end and other tour ends respond to the received color display instruction, and alternately indicate the preset contour lines of the same corresponding virtual area to each preset color in the first color group at a preset frequency.

For example, in this embodiment, when the current tour end and other tour ends are interested in the same virtual area within a preset time and interact with each other, the preset colors corresponding to the current tour end and the other tour ends can be divided into a first color group, and the indicator lamps corresponding to the simulation areas alternately display the preset colors in the first color group in a preset frequency manner.

Further, in this embodiment, when the server determines that the current tour end moves from the current simulated scenic spot to other simulated scenic spots according to the tour position of the current tour end, it may be determined that the current tour end has completed the tour of the virtual area in the current simulated scenic spot, and at this time, the preset color corresponding to the current tour end in the first color group may be deleted, so as to obtain a second color group; then, the server can control the indicator lights at the simulation areas corresponding to the virtual areas to alternately indicate all preset colors in the second color group at preset frequencies, and generate corresponding color change instructions to send; and after receiving the color change instruction, the other tour ends alternately indicate the preset contour lines of the corresponding virtual areas to the preset colors in the second color group at preset frequencies, so that the updating of the indication lamp and the preset contour lines is realized.

For example, in order to deepen the knowledge of the tourists about each virtual area, the corresponding explanation content may be further added according to the characteristics of each virtual area, so the following steps may be further included after the above-mentioned "control the indicator lamp at the current simulation area having the correspondence with the current virtual area in the current simulation scenic spot" indicates based on the preset color:

The method comprises the steps of calling an explanation data template, wherein the explanation data template comprises a voice explanation slot position and a text explanation slot position;

based on the current virtual area, acquiring area voice explanation data and area text explanation data corresponding to the current virtual area, filling the area voice explanation data into the voice explanation slot position, and filling the area text explanation data into the text explanation slot position to obtain an explanation data display area;

and sending the explanation data display area to the current tour terminal for display.

For example, in this embodiment, an explanation data template may be preset, and corresponding regional speech explanation data and regional text explanation data may be preset for each virtual region, where the explanation data template includes corresponding speech explanation slots and text explanation slots; after the tourist interacts with the current virtual area based on the tour end, the regional voice explanation data and the regional text explanation data corresponding to the current virtual area can be obtained, the regional voice explanation data are filled into voice explanation slots in the explanation data template, and the regional text explanation data are filled into text explanation slots in the text explanation data template, so that a corresponding explanation data display area is obtained; and finally, the corresponding explanation data display area can be sent to the current tour terminal for display.

After the current tourist terminal obtains the corresponding explanation data display area, tourists can interact based on the current tourist terminal talkback explanation data display area, select to carry out the text explanation based on the text explanation slot position and/or select to carry out the speech explanation based on the speech explanation slot position, thereby know the explanation content corresponding to the current virtual area, know the relevant knowledge of the current virtual area more clearly, the degree of depth, improve tourist's browsing effect.

In step S208, the following are included: and determining each path of simulated scenic spots based on the tour route of the current tour end in the simulated park, generating tour videos according to each path of simulated scenic spots, and sending the tour videos to the current tour end for display.

For example, in this embodiment, a tourist may visit itself in the simulation park according to his own situation, each tourist may have a corresponding different visit route, in order to summarize the overall visit situation of the tourist, each route simulation scenic spot traversed by the tourist may be determined based on the visit route of the current tourist end in the simulation park, and a corresponding visit video is generated according to each route simulation scenic spot and sent to the current tourist end, and the current tourist end may review the current visit process of the simulation park by watching the visit video, thereby improving user experience.

Further, the above-mentioned "generating a tour video according to each path simulated scenic spot and sending the tour video to the current tour terminal" may further include the following steps:

acquiring a preset video template, wherein the preset video template comprises basic frame slots respectively corresponding to the passed simulation scenic spots;

taking all the shot scenery spot images corresponding to all the passing simulation scenery spots in advance, and filling all the scenery spot images into corresponding basic frame slots;

when the current tour terminal performs the interaction on the passing virtual area in the passing virtual scenic spot corresponding to any passing simulation scenic spot, acquiring a blank frame slot position, and inserting the blank frame slot position into a basic frame slot position corresponding to the passing simulation scenic spot;

filling a virtual image corresponding to the passing virtual region and a region image of a passing simulation region corresponding to the passing virtual region, which is shot in advance, into a corresponding blank frame slot;

and generating a tour video based on the filled basic frame slots and the blank frame slots, and sending the tour video to the current tour terminal.

For example, in this embodiment, a preset video template may be preset, where the preset video template includes a basic frame slot, where the basic frame slot is mainly used to insert each scenic spot image corresponding to each passing through simulation scenic spot, so the number of basic frame slots is the same as the number of passing through simulation scenic spots, where each scenic spot image may be photographed in advance, and by using the current tour end to sequentially insert the corresponding scenic spot image into the corresponding basic frame slot, so that each simulation scenic spot that the current tour end has browsed may be briefly displayed.

Further, if the current tour terminal performs the interaction on the virtual passing areas in the virtual passing points corresponding to any one of the virtual passing points, that is, when the preset contour lines of the virtual passing areas are displayed based on the corresponding preset colors and the indicator lamps at the virtual passing areas corresponding to the virtual passing areas are indicated based on the preset colors, the process is determined to be an important tour process; at the moment, a corresponding blank frame slot position is obtained, and the blank frame slot position is inserted into a basic frame slot position corresponding to the passing simulation scenic spot; then filling the virtual image corresponding to the passing virtual area and the area image of the passing simulation area corresponding to the passing virtual area, which is shot in advance, into the corresponding blank frame slot; and finally, generating corresponding tour videos based on the filled basic frame slots and the blank frame slots, thereby realizing the recording of important tour contents in the tour process and further improving the user experience of tourists.

It should be noted that, the above "inserting the blank frame slot into the basic frame slot corresponding to the via simulated scenery spot" may be understood as: the blank frame slot is inserted between the basic frame slot corresponding to the passing simulation scenic spot and the basic frame slot positioned behind the basic frame slot corresponding to the passing simulation scenic spot, so that when a tourist watches the tour video based on the current tour end, the tourist can watch the corresponding passing simulation scenic spot first and then watch the corresponding passing simulation area in the passing simulation scenic spot, thereby improving the watching effect of the tourist and further improving the user experience of the tourist.

Furthermore, in order to improve the viewing effect of the video, the method for generating the video based on the filled basic frame slots and the blank frame slots and transmitting the video to the current video terminal may further include the following steps:

generating a video progress display layer according to the tour video;

filling each video frame forming the tour video into a video progress display layer according to the time sequence to form a video progress display area;

and responding to the interaction of the current tour terminal to the tour video, retrieving a video progress display area for display, and marking the outline of the video frame corresponding to each filled blank frame slot based on a preset color.

For example, in this embodiment, a corresponding video progress display area may be generated based on the tourist video, where the video progress display area may be called and displayed based on the current interaction of the tourist terminal with the tourist video, where each video frame that constitutes the tourist video is included in the video progress display area, and each video progress display area further includes a progress indicator that moves with the playing time, and during the process of watching the tourist video, the tourist may determine the playing progress of the tourist video by the real-time position of the progress indicator, and may also change the playing position of the tourist video by interacting with the progress indicator; meanwhile, the outline of the video frame corresponding to the blank frame slot position filled with the area image passing through the simulation area in the video progress display area can be marked based on the preset color, so that a tourist can conveniently find the corresponding playing position to play, and the watching experience of the tourist is further improved.

It should be noted that, the current tour terminal may interact with the tour video and/or the progress indicator based on a touch manner.

In summary, in the method for displaying a travel suitable for a geological park provided in this embodiment, by creating virtual scenic spots corresponding to the tourist attractions in the geological park, when a tourist visits the virtual scenic spots in the virtual park, the tourist can synchronously view the corresponding virtual scenic spots based on the tourist ends, thereby respectively realizing online tourist and online tourist downstream tourist, and improving the tourist experience; when a tourist is interested in a certain virtual area in the virtual scenic spot, the virtual area can be interacted through the tourist end, so that the current virtual area is marked with the area with the preset color, and the indicator lights at the simulation area corresponding to the virtual area are controlled to indicate based on the preset color, so that the tourist can find the corresponding simulation area in the simulation scenic spot to watch, and the tourist's convenience is improved; in addition, after the tourist finishes the tour, each path of simulated scenic spot can be determined based on the tour route, and corresponding tour videos are generated for the tourist to watch, so that the user experience of the tourist is further improved.

Yet another embodiment of the present invention provides a travel display system adapted for use in a geological park, fig. 3 being a block diagram of its corresponding apparatus, comprising:

the generation module is configured to generate virtual scenic spots corresponding to the tourist attractions in the geological park respectively, and respectively establish corresponding relations between the virtual scenic spots and the simulation scenic spots in the simulation park, wherein the simulation scenic spots in the simulation park are manufactured by carrying out preset scaling on the basis of the tourist attractions in the geological park;

the sending module is configured to acquire the visiting position of the current visiting end in the simulation park in real time, determine the current simulation scenic spot of the current visiting end according to the visiting position, and send the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current visiting end based on the current simulation scenic spot;

the indication module is configured to respond to the interaction of the current virtual area in the current virtual scenic spot by the current tour end, perform area marking based on a preset color corresponding to the current tour end on the current virtual area, and control an indication lamp at the current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color;

And the video display module is configured to determine each path of simulated scenic spots based on the tour route of the current tour end in the simulated park, generate tour videos according to each path of simulated scenic spots and send the tour videos to the current tour end for display.

The various techniques described herein may be implemented in connection with hardware or software or, alternatively, with a combination of both. Thus, the methods and apparatus of the present invention, or certain aspects or portions of the methods and apparatus of the present invention, may take the form of program code (i.e., instructions) embodied in tangible media, such as removable hard drives, U-drives, floppy diskettes, CD-ROMs, or any other machine-readable storage medium, wherein, when the program is loaded into and executed by a machine, such as a computer, the machine becomes an apparatus for practicing the invention.

In the case of program code execution on programmable computers, the computing device will generally include a processor, a storage medium readable by the processor (including volatile and non-volatile memory and/or storage elements), at least one input device, and at least one output device. Wherein the memory is configured to store program code; the processor is configured to perform the method of the invention in accordance with instructions in said program code stored in the memory.

By way of example, and not limitation, readable media comprise readable storage media and communication media. The readable storage medium stores information such as computer readable instructions, data structures, program modules, or other data. Communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media. Combinations of any of the above are also included within the scope of readable media.

In the description provided herein, algorithms and displays are not inherently related to any particular computer, virtual system, or other apparatus. Various general-purpose systems may also be used with examples of the invention. The required structure for a construction of such a system is apparent from the description above. In addition, the present invention is not directed to any particular programming language. It should be appreciated that the teachings of the present invention as described herein may be implemented in a variety of programming languages and that the foregoing description of specific languages is provided for disclosure of preferred embodiments of the present invention.

In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be construed as reflecting the intention that: i.e., the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Those skilled in the art will appreciate that the modules or units or components of the devices in the examples disclosed herein may be arranged in a device as described in this embodiment, or alternatively may be located in one or more devices different from the devices in this example. The modules in the foregoing examples may be combined into one module or may be further divided into a plurality of sub-modules.

Those skilled in the art will appreciate that the modules in the apparatus of the embodiments may be adaptively changed and disposed in one or more apparatuses different from the embodiments. The modules or units or components of the embodiments may be combined into one module or unit or component and, furthermore, they may be divided into a plurality of sub-modules or sub-units or sub-components. Any combination of all features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or units of any method or apparatus so disclosed, may be used in combination, except insofar as at least some of such features and/or processes or units are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features but not others included in other embodiments, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the following claims, any of the claimed embodiments can be used in any combination.

Furthermore, some of the embodiments are described herein as methods or combinations of method elements that may be implemented by a processor of a computer system or by other means of performing the functions. Thus, a processor with the necessary instructions for implementing the described method or method element forms a means for implementing the method or method element. Furthermore, the elements of the apparatus embodiments described herein are examples of the following apparatus: the apparatus is for carrying out the functions performed by the elements for carrying out the objects of the invention.

As used herein, unless otherwise specified the use of the ordinal terms "first," "second," "third," etc., to describe a general object merely denote different instances of like objects, and are not intended to imply that the objects so described must have a given order, either temporally, spatially, in ranking, or in any other manner.

While the invention has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of the above description, will appreciate that other embodiments are contemplated within the scope of the invention as described herein. Furthermore, it should be noted that the language used in the specification has been principally selected for readability and instructional purposes, and may not have been selected to delineate or circumscribe the inventive subject matter. Accordingly, many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the appended claims. The disclosure of the present invention is intended to be illustrative, but not limiting, of the scope of the invention, which is defined by the appended claims.

Claims (9)

1. A method for displaying a travel suitable for a geological park, comprising the steps of:

generating virtual scenic spots corresponding to the tourist attractions in the geological park, and respectively establishing corresponding relations between the virtual scenic spots and the simulation scenic spots in the simulation park, wherein the simulation scenic spots in the simulation park are manufactured by carrying out preset scaling on the basis of the tourist attractions in the geological park;

acquiring the visiting position of a current visiting end in the simulation park in real time, determining a current simulation scenic spot where the current visiting end is located according to the visiting position, and sending a current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current visiting end based on the current simulation scenic spot;

responding to the interaction of the current tour end to a current virtual area in the current virtual scenic spot, marking the current virtual area based on a preset color corresponding to the current tour end, and controlling an indicator lamp at a current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color;

determining all the path simulation scenic spots based on the tour route of the current tour end in the simulation park, generating tour videos according to all the path simulation scenic spots, and sending the tour videos to the current tour end for display;

The method for acquiring the tour location of the current tour end in the simulation park in real time, determining the current simulation scenic spot of the current tour end according to the tour location, and sending the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current tour end based on the current simulation scenic spot comprises the following steps:

obtaining a top view of the simulation park, and dividing the top view according to the position of each simulation scenic spot in the simulation park to obtain each sightseeing area corresponding to each simulation scenic spot;

establishing a top view coordinate system with the center point of the top view as an origin, and acquiring each coordinate interval corresponding to each sightseeing area according to the top view coordinate system;

acquiring the tour position of the current tour end in the simulation park in real time, and acquiring corresponding tour coordinates in the upper view coordinate system according to the tour position;

comparing the tour coordinates with each coordinate interval, determining the coordinate interval in which the tour coordinates fall as a current coordinate interval, and determining the current simulation scenic spot where the current tour end is located according to the current coordinate interval;

marking the current simulation scenic spot in the upper view, and sending the marked upper view to the current tour terminal;

And responding to the interaction of the current tour end to the upper view, sending the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current tour end, and displaying.

2. The method for displaying a travel suitable for a geological park according to claim 1, wherein,

generating virtual attractions respectively corresponding to the tourist attractions in the geological park, comprising:

modeling is carried out based on all tourist attractions in the geological park, so as to obtain all scenic spot models respectively corresponding to all tourist attractions;

determining geologic model parts related to geologic areas in each scenic spot model respectively, and deleting other model parts except the geologic model parts from the scenic spot models to obtain each geologic scenic spot model;

uploading the geologic spot models to a digital twin space to obtain corresponding virtual scenic spots.

3. The method for displaying a travel suitable for a geological park according to claim 1, wherein,

responding to the interaction of the current tour end to the current virtual area in the current virtual scenic spot, marking the current virtual area based on the preset color corresponding to the current tour end, controlling an indicator lamp at the current simulation area with the corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color, and comprising the following steps:

According to each simulation area divided in advance in the simulation scenic spot, carrying out area division on the virtual scenic spot with a corresponding relation with the simulation scenic spot to obtain each virtual area corresponding to each simulation area respectively;

respectively adding preset contour lines to the contours of the virtual areas in response to the interaction of the current tour end with the current virtual scenic spots;

responding to the interaction of the current tour terminal to one of the virtual areas, and determining the virtual area as a current virtual area;

displaying the preset contour lines of the current virtual area based on the preset color corresponding to the current tour end, and deleting the preset contour lines of other virtual areas except the current virtual area;

and controlling an indicator lamp in the current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color.

4. The method for displaying a travel in a geological park according to claim 3, wherein,

and controlling an indicator lamp at a current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color, and then further comprising the following steps:

The method comprises the steps of calling an explanation data template, wherein the explanation data template comprises a voice explanation slot position and a text explanation slot position;

based on the current virtual area, acquiring area voice explanation data and area text explanation data corresponding to the current virtual area, filling the area voice explanation data into the voice explanation slot position, and filling the area text explanation data into the text explanation slot position to obtain an explanation data display area;

and sending the explanation data display area to the current tour terminal for display.

5. The method for displaying a travel in a geological park according to claim 3, wherein,

in a preset time, if the current tour end and other tour ends interact with the same virtual area in the current virtual scenic spot, acquiring preset colors of different colors corresponding to each tour end respectively and forming a first color group;

controlling indicator lamps in a simulation area with a corresponding relation with the same virtual area to alternately indicate all preset colors in the first color group at preset frequency, and generating a color display instruction to send;

and the current tour end and the other tour ends respond to the received color display instruction, and alternately indicate the preset contour lines of the same corresponding virtual area to each preset color in the first color group at preset frequency.

6. The method for displaying a travel in a geological park according to claim 5, wherein,

when determining that the current tour end moves from the current simulation scenic spot to other simulation scenic spots according to the tour position of the current tour end, deleting the preset color corresponding to the current tour end in the first color group to obtain a second color group;

controlling indicator lamps in a simulation area with a corresponding relation with the same virtual area to alternately indicate all preset colors in the second color group at preset frequency, and generating a color change instruction to send;

and the other tour ends respond to the received color change instruction and alternately indicate the preset contour lines of the corresponding same virtual area to each preset color in the second color group at preset frequency.

7. The method for displaying a travel suitable for a geological park according to claim 1, wherein,

generating a tour video according to each path simulation scenic spot and sending the tour video to the current tour terminal, wherein the tour video comprises:

acquiring a preset video template, wherein the preset video template comprises basic frame slots respectively corresponding to all the passing simulation scenic spots;

Taking all the shot scenery spot images corresponding to all the passing simulation scenery spots in advance, and filling all the scenery spot images into corresponding basic frame slots;

when the current tour terminal performs the interaction on the passing virtual area in the passing virtual scenic spot corresponding to any passing simulation scenic spot, acquiring a blank frame slot, and inserting the blank frame slot into a basic frame slot corresponding to the passing simulation scenic spot;

filling a virtual image corresponding to the passing virtual region and a region image of a passing simulation region corresponding to the passing virtual region, which is shot in advance, into a corresponding blank frame slot;

and generating the tour video based on the filled basic frame slots and the blank frame slots, and sending the tour video to the current tour terminal.

8. The method for displaying a travel in a geological park according to claim 7, wherein,

generating the tour video based on the filled basic frame slots and blank frame slots, and sending the tour video to the current tour terminal, and then further comprising the following steps:

generating a video progress display layer according to the tour video;

filling each video frame forming the tour video into the video progress display layer according to the time sequence to form a video progress display area;

And responding to the interaction of the current tour terminal to the tour video, calling the video progress display area to display, and marking the outline of the video frame corresponding to each filled blank frame slot based on a preset color.

9. A travel display system adapted for use in a geological park, comprising:

the generation module is configured to generate virtual scenic spots corresponding to the tourist attractions in the geological park respectively, and respectively establish corresponding relations between the virtual scenic spots and the simulation scenic spots in the simulation park, wherein the simulation scenic spots in the simulation park are manufactured by carrying out preset scaling on the basis of the tourist attractions in the geological park;

the sending module is configured to acquire the visiting position of the current visiting end in the simulation park in real time, determine the current simulation scenic spot of the current visiting end according to the visiting position, and send the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current visiting end based on the current simulation scenic spot;

the indication module is configured to respond to the interaction of the current tour end to a current virtual area in the current virtual scenic spot, perform area marking on the current virtual area based on a preset color corresponding to the current tour end, and control an indication lamp at a current simulation area with a corresponding relation with the current virtual area in the current simulation scenic spot to indicate based on the preset color;

The video display module is configured to determine each path of simulated scenic spots based on the tour route of the current tour end in the simulated park, generate tour videos according to each path of simulated scenic spots and send the tour videos to the current tour end for display;

the method for acquiring the tour location of the current tour end in the simulation park in real time, determining the current simulation scenic spot of the current tour end according to the tour location, and sending the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current tour end based on the current simulation scenic spot comprises the following steps:

obtaining a top view of the simulation park, and dividing the top view according to the position of each simulation scenic spot in the simulation park to obtain each sightseeing area corresponding to each simulation scenic spot;

establishing a top view coordinate system with the center point of the top view as an origin, and acquiring each coordinate interval corresponding to each sightseeing area according to the top view coordinate system;

acquiring the tour position of the current tour end in the simulation park in real time, and acquiring corresponding tour coordinates in the upper view coordinate system according to the tour position;

comparing the tour coordinates with each coordinate interval, determining the coordinate interval in which the tour coordinates fall as a current coordinate interval, and determining the current simulation scenic spot where the current tour end is located according to the current coordinate interval;

Marking the current simulation scenic spot in the upper view, and sending the marked upper view to the current tour terminal;

and responding to the interaction of the current tour end to the upper view, sending the current virtual scenic spot with a corresponding relation with the current simulation scenic spot to the current tour end, and displaying.