CN115629666A - Intelligent tourism platform system and method based on VR/AR virtual immersion technology - Google Patents

Abstract

The invention relates to the technical field of virtual immersion type tourism, in particular to a smart tourism platform system and a method based on VR/AR virtual immersion type technology, which comprises a control module, a VR scenic region video database, VR hardware equipment, an interaction module and a virtual engine, wherein the virtual engine is directly connected with the VR scenic region video database, the virtual engine is used for carrying out three-dimensional modeling on certain digital scenic region data in the VR scenic region video database, the interaction module is connected with the VR hardware equipment, a preset instruction is transmitted into the interaction module through the VR hardware equipment, the instruction is transmitted to the control module through the interaction module, the control module processes and transmits the interaction module, and the interaction module calls a preset interaction program to start related interaction animations in a VR video; deposit the video data who shoots actual scenic spot among the VR scenic spot video database, promote visitor's experience and feel, make wisdom tourism platform system perfect more, better service visitor to improve visitor's satisfaction.

Description

Intelligent tourism platform system and method based on VR/AR virtual immersion technology

Technical Field

The invention relates to the technical field of virtual immersion type tourism, in particular to a VR/AR virtual immersion type technology-based intelligent tourism platform system and a VR/AR virtual immersion type technology-based intelligent tourism platform method.

Background

With the development of economy, the progress of science and technology and the improvement of the living standard of people, tourism becomes one of the post industries in China and even in the world, and each country advocates to vigorously build the tourism industry in each urban area, and demands to plan ahead and actively butt joint according to local resource characteristics so as to continuously optimize the construction of the tourism industry. China has vast geographic resources and 5000-year cultural history, has rich scenic spots, cultural historic sites and intelligent tourism resources for development and development. The smart tourism is a brand-new tourism form which is supported by high technologies such as internet, cloud computing and the like, provides a comprehensive application platform of various public tourism services for the masses, tourism enterprises and tourism management departments through various service terminals such as smart phones, computers, touch screens and the like, combines emerging technologies such as internet of things, cloud computing, high-performance information processing and intelligent data mining with the tourism industry, enables tourism resources to be highly systematized and deeply developed and activated, and serves the social masses. Along with the development of mobile technology, the consumption habits of tourists are constantly changed, and smart tourism can bring great convenience to tourists, is increasingly favored by people, has become a necessary way for transformation, upgrading and continuous innovation of the tourism industry, and becomes a hotspot in a tourism system.

However, the current smart travel platform application is still in a primary stage, mainly relates to simple application, does not form a complete scale, is easy to cause poor travel experience, is not humanized enough, and has poor satisfaction of tourists, so that a new scheme is urgently needed to solve the technical problems.

Disclosure of Invention

The invention aims to provide an intelligent tourism platform system and an intelligent tourism platform method based on a VR/AR virtual immersion technology, so as to solve the problems in the background technology.

The technical scheme of the invention is as follows: a smart tourism platform system and a method based on VR/AR virtual immersion technology comprise a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine, wherein the virtual engine is directly connected with the VR scenic spot video database, the virtual engine is used for carrying out three-dimensional modeling on digital scenic spot data in the VR scenic spot video database, the interaction module is connected with the VR hardware equipment, a preset instruction is transmitted into the interaction module through the VR hardware equipment, the instruction is transmitted to the control module through the interaction module, the control module processes and transmits the interaction module, and the interaction module calls a preset interaction program to open related interaction animation in a VR video; and storing video data shot in the actual scenic spot in the VR scenic spot video database.

Preferably, the virtual engine three-dimensional modeling system further comprises a climate database, wherein the climate database is used for storing weather condition data corresponding to each VR scenic spot, the climate database is updated regularly, the climate data of the corresponding scenic spot in the climate database needs to be inquired when the virtual engine is modeled in a three-dimensional mode, and the model is rendered according to the actual climate data.

Preferably, the actual scenic spot is shot by using a camera to perform 3D scanning shooting on the environment.

Preferably, the system further comprises a gyroscope module, and the gyroscope module is used for measuring the direction, the track and the acceleration of the movement of the user.

Preferably, the system also comprises a voice input module and a music generation module, wherein the voice input module is used for inputting external voice, and the music generation module is used for forming a natural response according to the specific position and environment of the scenic spot where the user is located and the input external voice; the music generation module can also generate sounds such as natural wind sounds.

Preferably, the platform system further comprises a favorite persistent database and a semantic analysis module, the voice input module is used for recording sound in real time, the semantic analysis module is transmitted through the control module for intelligent analysis, the semantic analysis module is used for analyzing the scenic spot coordinates of a user when the user generates sound, analyzing whether the user likes according to corresponding semantics, and storing the favorite persistent database, if the user likes, the three-dimensional modeling fineness of the same similar scene in the later period is improved or the favorite scenic spot recommendation system is formed.

Preferably, the method comprises the following steps,

s1: firstly, establishing a connection among a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine through the Internet, wherein the virtual engine carries out three-dimensional modeling on certain digital scenic spot data in the VR scenic spot video database, then the interaction module is connected with the VR hardware equipment, a preset instruction of the VR hardware equipment is transmitted into the interaction module and transmitted to the control module through the interaction module, and the control module processes and transmits the interaction module and calls a preset interaction program to start a related interaction animation in a VR video through the interaction module; then storing the video data shot by the actual scenic spot in a VR scenic spot video database;

s2: then storing the weather condition data corresponding to each VR scenic spot in a weather database, wherein the weather database can be updated regularly, and when a virtual engine is subjected to three-dimensional modeling, the weather data corresponding to the scenic spots can be inquired in the weather database, and the model is rendered according to the actual weather data;

s3: then, natural response is formed through a voice input module according to the specific position and environment of the scenic spot where the user is located and the input external voice; then the music generation module generates sounds such as natural wind sounds;

s4: and finally, the voice input module is used for recording the sound in real time, the semantic analysis module is transmitted through the control module for intelligent analysis, the scene coordinates of the user when the user generates the sound are analyzed through the semantic analysis module, whether the user likes or not is analyzed, and the favorite persistent database is stored, so that a favorite scene recommendation system is formed in the later period conveniently.

The invention provides a smart tourism platform system and a method based on VR/AR virtual immersion technology through improvement,

compared with the prior art, the method has the following improvements and advantages:

one is as follows: the invention carries out experience in advance on an actual scenic spot by arranging a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine, fully shows unique charm and culture of cities and scenic spots between virtual reality change and man-machine interaction, can conveniently check the real-time updating condition of the corresponding scenic spot by arranging the climate database, is used for inputting external voice through a voice input module, and is used for forming natural response according to the specific position and environment of the scenic spot where a user is located and the input external voice; the music generation module can also generate sounds such as natural wind, so that visitors can experience the beautiful scenery of scenic spots more immersive, the sounds are recorded in real time through the voice input module, the intelligent analysis is carried out through the control module transmission semantic analysis module, the semantic analysis module is used for analyzing the scenic spot coordinates where users are located when the sounds are produced, whether the users like the favorite is analyzed according to corresponding semantics, and a favorite persistence database is stored, if the users like the favorite, the three-dimensional modeling fineness of the same similar scenes in the later period is improved or forms a favorite scenic spot recommendation system, and the visitors can know which scenic spots which are popular more conveniently.

Detailed Description

The present invention is described in detail below, and technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a smart tourism platform system and a method based on VR/AR virtual immersion technology through improvement, and the technical scheme of the invention is as follows: a smart tourism platform system based on a VRAR virtual immersion technology comprises a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine, wherein the virtual engine is directly connected with the VR scenic spot video database, the virtual engine is used for carrying out three-dimensional modeling on digital scenic spot data in the VR scenic spot video database, the interaction module is connected with the VR hardware equipment, a preset instruction of the VR hardware equipment is transmitted into the interaction module, the instruction is transmitted to the control module through the interaction module, the control module processes and transmits the interaction module, the interaction module calls a preset interaction program to open related interaction animations in a VR video; the VR scenic spot video database stores video data shot of actual scenic spots, the actual scenic spots are shot in a mode of 3D scanning shooting of an environment through a camera, and the VR scenic spot video database further comprises a gyroscope module, and the gyroscope module is used for measuring the direction, the moving track and the acceleration of a user.

Furthermore, the system also comprises a climate database, wherein the climate database is used for storing weather condition data corresponding to each VR scenic spot, the climate database is updated at regular time, the climate data corresponding to the scenic spot in the climate database needs to be inquired during the three-dimensional modeling of the virtual engine, the model is rendered according to the actual climate data, and the real-time updating condition of the corresponding scenic spot can be conveniently checked by setting the climate database.

The system further comprises a voice input module and a music generation module, wherein the voice input module is used for inputting external voice, and the music generation module is used for forming a natural response according to the specific position and environment of the scenic spot where the user is located and the input external voice; the music generation module can also generate sounds such as natural wind, and the like, so that visitors can experience the beautiful scenery of scenic spots more immersive, the platform system further comprises a favor persistence database and a semantic analysis module, the voice input module is used for recording the sounds in real time, and the semantic analysis module is transmitted through the control module to perform intelligent analysis, the semantic analysis module is used for analyzing the scenic spot coordinates where users are located when the sounds are generated, whether the users like according to corresponding semantic analysis and storing the favor persistence database, if the users like, the three-dimensional modeling fineness of the same similar scenes in the later period can be improved or form a favor scenic spot recommendation system, and the visitors can know which scenic spots more conveniently.

Further, the method comprises the following steps of,

s1: firstly, establishing a connection among a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine through the Internet, wherein the virtual engine carries out three-dimensional modeling on certain digital scenic spot data in the VR scenic spot video database, then the interaction module is connected with the VR hardware equipment, a preset instruction of the VR hardware equipment is transmitted into the interaction module and transmitted to the control module through the interaction module, and the control module processes and transmits the interaction module and calls a preset interaction program to start a related interaction animation in a VR video through the interaction module; then storing the video data shot by the actual scenic spot in a VR scenic spot video database;

s2: then storing the weather condition data corresponding to each VR scenic spot in a weather database, wherein the weather database can be updated regularly, and when a virtual engine is subjected to three-dimensional modeling, the weather data corresponding to the scenic spots can be inquired in the weather database, and the model is rendered according to the actual weather data;

s3: then forming a natural response according to the specific position and environment of the scenic spot where the user is located and the input external voice through the voice input module; then the music generation module generates sounds such as natural wind sounds;

s4: and finally, the voice input module is used for recording the sound in real time, the semantic analysis module is transmitted through the control module for intelligent analysis, the scene coordinates of the user when the user generates the sound are analyzed through the semantic analysis module, whether the user likes or not is analyzed, and the favorite persistent database is stored, so that a favorite scene recommendation system is formed in the later period conveniently.

The working principle is as follows: firstly, establishing a connection among a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine through the Internet, carrying out three-dimensional modeling on digital scenic spot data in the VR scenic spot video database by the virtual engine, connecting the interaction module with the VR hardware equipment, transmitting a preset instruction to the interaction module through the VR hardware equipment, transmitting the instruction to the control module through the interaction module, processing and transmitting the interaction module by the control module, and calling a preset interaction program by the interaction module to start a related interaction animation in a VR video; then storing the video data shot by the actual scenic spot in a VR scenic spot video database; then storing the weather condition data corresponding to each VR scenic spot in a weather database, wherein the weather database can be updated regularly, and when a virtual engine is subjected to three-dimensional modeling, the weather data corresponding to the scenic spots can be inquired in the weather database, and the model is rendered according to the actual weather data; then, natural response is formed through a voice input module according to the specific position and environment of the scenic spot where the user is located and the input external voice; then the music generation module generates sounds such as natural wind sounds; and finally, the voice input module is used for recording the sound in real time, the semantic analysis module is transmitted through the control module for intelligent analysis, the scene coordinates of the user when the user generates the sound are analyzed through the semantic analysis module, whether the user likes or not is analyzed, and the favorite persistent database is stored, so that a favorite scene recommendation system is formed in the later period conveniently.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A smart tourism platform system based on a VRAR virtual immersion technology is characterized by comprising a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine, wherein the virtual engine is directly connected with the VR scenic spot video database, the virtual engine is used for carrying out three-dimensional modeling on certain digital scenic spot data in the VR scenic spot video database, the interaction module is connected with the VR hardware equipment, a preset instruction of the VR hardware equipment is transmitted into the interaction module, the instruction is transmitted to the control module through the interaction module, the control module processes and transmits the interaction module, and the interaction module calls a preset interaction program to open related interaction animation in a VR video; and storing video data shot in the actual scenic spot in the VR scenic spot video database.

2. The intelligent tourism platform system based on the VRAR virtual immersion technology as claimed in claim 1, further comprising a climate database, wherein the climate database is used for storing weather condition data corresponding to each VR scenic spot, the climate database is updated regularly, and when the virtual engine is modeled in three dimensions, the climate data corresponding to the scenic spot in the climate database needs to be queried, and the model is rendered according to actual climate data.

3. The VRAR virtual immersion technology-based intelligent tourism platform system as claimed in claim 1, wherein the actual scenic spot is shot by 3D scanning of the environment with a camera.

4. The intelligent tourism platform system based on VRAR virtual immersion technology as claimed in claim 1 further comprising a gyroscope module for determining the direction, the track of movement and the acceleration of the user.

5. The intelligent tourism platform system based on VRAR virtual immersion technology as claimed in claim 1, further comprising a voice input module for inputting external voice and a music generation module for forming a natural response according to the specific location and environment of the user in the scenic spot and according to the input external voice; the music generation module can also generate sounds such as natural wind sounds.

6. The intelligent tourism platform system based on the VRAR virtual immersion technology as claimed in claim 1, wherein the platform system further comprises a preference persistence database and a semantic analysis module, wherein the voice input module is used for recording voice in real time and transmitting the semantic analysis module through the control module for intelligent analysis, the semantic analysis module is used for analyzing coordinates of scenic spots where users are located when the users generate voice, analyzing whether the users like according to corresponding semantics and storing the analyzed coordinates into the preference persistence database, and if the users like, the fineness of three-dimensional modeling of the same similar scenes in the later period is improved or the preference scenic spot recommendation system is formed.

7. The intelligent tourism platform method based on VRAR virtual immersive technology of any of claims 1-6, wherein: comprises the following steps of (a) carrying out,

s1: firstly, establishing a connection among a control module, a VR scenic spot video database, VR hardware equipment, an interaction module and a virtual engine through the Internet, wherein the virtual engine carries out three-dimensional modeling on certain digital scenic spot data in the VR scenic spot video database, then the interaction module is connected with the VR hardware equipment, a preset instruction of the VR hardware equipment is transmitted into the interaction module and transmitted to the control module through the interaction module, and the control module processes and transmits the interaction module and calls a preset interaction program to start a related interaction animation in a VR video through the interaction module; then storing the video data shot by the actual scenic spot in a VR scenic spot video database;

s2: then storing the weather condition data corresponding to each VR scenic spot in a weather database, wherein the weather database can be updated regularly, and when a virtual engine is subjected to three-dimensional modeling, the weather data corresponding to the scenic spots can be inquired in the weather database, and the model is rendered according to the actual weather data;

s3: then, natural response is formed through a voice input module according to the specific position and environment of the scenic spot where the user is located and the input external voice; then the music generation module generates sounds such as natural wind sounds;

s4: and finally, the voice input module is used for recording voice in real time, the semantic analysis module is transmitted through the control module for intelligent analysis, the scene coordinates of the user when the voice is generated are analyzed through the semantic analysis module, whether the user likes or not is analyzed, and the favorite scene coordinates are stored in the favorite persistent database, so that a favorite scene recommendation system can be conveniently formed in the later stage.