KR20170049147A - Virtual reality travel system and method using 3-dimensional moving imgage files - Google Patents

Abstract

A virtual reality travel system and method using a 3D video file is disclosed. A moving picture file creating device for creating and uploading respective moving picture files by photographing roads, streets, and inside buildings of a real world at different incidence angles; A 3D video file is generated by synthesizing each video file created and uploaded by the video file creation device, and a 3D video file is provided for streaming the generated 3D video file in correspondence with a place in the real world or corresponding coordinates server; And a 3D moving picture file output device for receiving a 3D moving picture file of a location or coordinates of a real world selected by a user and outputting a 3D moving picture file in a moving direction selected by a user among the selected places, The 3D moving image file output device is configured in a goggle type to be worn on the head of the user and is configured to select the moving direction of the user by a gyro sensor or an acceleration sensor.

Description

TECHNICAL FIELD [0001] The present invention relates to a virtual reality travel system and method using a 3D video file,

The present invention relates to a virtual reality travel system and method, and more particularly, to a virtual reality travel system and method using a 3D video file.

In the past, various virtual experience services using virtual reality have been provided online. Registered Patent Publication No. 10-0359128 exemplifies this virtual reality service. Registration No. 10-0359128 discloses a service for searching a site that a user is searching for in a virtual reality space.

On the other hand, it is a service that displays actual distance images such as a conventional Google Map or Daum's Street View. Such a map-related service is configured to photograph a real distance using a camera and provide a distance image at a specific point.

However, in the conventional Google map or street view, the still images are photographed at a certain distance, and the user can view the still images continuously at a certain distance.

Google Maps or the next Street View is not configured to allow continuous viewing of videos, but consists mainly of outdoor still images or street still images that are not inside the building. In addition, these services do not provide detailed information on specific tourist attractions, museums, art galleries, restaurants, and the like.

Although there is an example in which detailed information on the real world is provided using the virtual reality service, it is only a degree of providing detailed information in connection with web information as shown in Patent Publication No. 10-0359128.

In this way, users want to obtain various information and tourist information about the real world more realistically. However, existing services are merely showing continuous still images continuously or intermittently, Of the total.

10-0359128

An object of the present invention is to provide a virtual reality travel system using a 3D video file.

It is another object of the present invention to provide a virtual reality traveling method using a 3D moving picture file.

The virtual reality traveling system using the 3D moving picture file according to the present invention may include a moving picture file generating device for photographing the roads, streets, and inside buildings of the real world at different incidence angles to generate and upload respective moving picture files; A 3D video file is generated by synthesizing each video file created and uploaded by the video file creation device, and a 3D video file is provided for streaming the generated 3D video file in correspondence with a place in the real world or corresponding coordinates server; And a 3D moving picture file output device for receiving the 3D moving picture file of the location or coordinates of the real world selected by the user and outputting the 3D moving picture file in the moving direction selected by the user among the selected places to the display .

Here, the 3D moving image file output device may be configured in a goggle type to be worn on the head of the user, and may be configured to select the moving direction of the user by a gyro sensor or an acceleration sensor.

At this time, the 3D moving picture file generating device photographs a predetermined restaurant or a tourist attraction existing in the real world together with a guide explaining the restaurant or a tourist attraction, .

The 3D movie file output device may be configured to pay a predetermined amount of money for the 3D movie file generated by synthesizing the movie file photographed together with the guide, and to output the corresponding 3D movie file when a predetermined amount is paid .

Meanwhile, the 3D moving picture file providing server may be configured such that, when different 3D moving picture file output apparatuses select the same place or coordinate, they are connected to each other to enable online conversation.

According to another aspect of the present invention, there is provided a virtual reality moving method using a 3D moving picture file, wherein the moving picture file creating device captures the roads, streets, and interior of a real world at different incidence angles, step; The 3D video file providing server synthesizing each video file uploaded from the video file creating device to generate a 3D video file; The 3D moving picture file providing server storing the generated 3D moving picture file corresponding to a place or coordinates of a real world; Requesting the 3D moving picture file providing server to the 3D moving picture file providing server for a 3D moving picture file corresponding to a predetermined place or coordinate in the real world; The 3D moving picture file providing server searches for a 3D moving picture file of a predetermined place or coordinates of the real world requested by the 3D moving picture file output apparatus among the stored 3D moving picture files and transmits the 3D moving picture file to the 3D moving picture file output apparatus by streaming step; The 3D moving image file output apparatus streaming the 3D moving image file from the 3D moving image file providing server and outputting the 3D moving image file; Requesting, by the 3D moving picture file output apparatus, the 3D moving picture file in the moving direction selected by the user from the streaming-outputted 3D moving picture file to the 3D moving picture file providing server; The 3D video file providing server streaming the requested 3D video file to the 3D video file output device; And the 3D moving image file output device receives the 3D moving image file streaming and outputs the 3D moving image file.

At this time, the step of photographing the roads, streets and buildings of the real world at different incidence angles and generating and uploading the respective moving picture files at the different incidence angles may be performed by the moving picture file generating apparatus, Or when a tourist attraction is photographed, a guide describing the restaurant or tourist attraction may be taken together to generate the respective video file.

The step of requesting the 3D moving picture file providing apparatus to the 3D moving picture file providing server corresponding to a predetermined place or coordinates of the real world may be performed by the 3D moving picture file outputting apparatus for the corresponding restaurant or tourist spot When a guide describing the 3D video file is shot together and requests a synthesized 3D video file, the 3D video file may be configured to pay a predetermined amount for the 3D video file.

According to the virtual reality travel system and method using the above-described 3D moving picture file, not only the outdoor scenery and the streets of major tourist attractions, but also the indoor scenes of museums and restaurants, So that it is possible to more conveniently receive very realistic and vivid information about the place.

Particularly, it is possible to photograph the introduction scene of a guide directly in a museum or a restaurant, and to make detailed data about the place more easily and conveniently.

The user can select a moving direction in the virtual reality space in the 3D moving image and receive the streaming of the 3D moving image in the moving direction in real time so that the user can enjoy the realistic world where he / There is an effect that can go ahead and experience it without distinction.

On the other hand, since the user can directly create and upload a moving image, the user can introduce a menu for his / her own restaurant, introduce an interior, and the like, thereby allowing users around the world to directly introduce It has an effect that it can be provided in the real space and can be shared with each other.

1 is a block diagram of a virtual reality travel system using a 3D moving picture file according to an embodiment of the present invention.
FIG. 2 is a flowchart of a virtual reality traveling method using a 3D moving picture file according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail to the concrete inventive concept. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

The terms first, second, A, B, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a virtual reality travel system using a 3D moving picture file according to an embodiment of the present invention.

Referring to FIG. 1, a virtual reality tour system (hereinafter referred to as a 'virtual reality tour system') 100 using a 3D video file according to an embodiment of the present invention includes a video file generation device 110, A providing server 120 and a 3D moving picture file outputting apparatus 130.

The virtual reality travel system 100 is configured to provide a 3D moving image around the world in virtual reality in association with a map service. The user is configured to select the moving direction of the moving object on the virtual reality in real time and to receive / output the 3D moving image in the moving direction in real time.

The virtual reality travel system 100 can provide natural and vivid video information unlike the prior art. By providing the introduction of a guide to a specific place in a moving picture, a detailed and realistic description of the place can be provided I can hear reports.

Users can experience the pedestrian access to all pedestrians both inside and outside the world, without having to actually go there. Users can create and upload video images themselves, so when you want to introduce yourself to your own place, you can become a guide to your own place and put it in the video. This makes it possible for all users around the world to become suppliers of such virtual reality services, as well as to share detailed information.

Hereinafter, the detailed configuration will be described.

First, the moving picture file generating apparatus 110 may include a first camera module 111, a second camera module 112, and a moving picture file uploading module 113.

The moving picture file generating apparatus 110 may be configured to photograph the real world roads, distances, and inside buildings at different incident angles, and to generate and upload respective moving picture files.

The first camera module 111 and the second camera module 112 are configured to photograph a subject at an angle from each other, and the captured moving image is used for synthesizing a 3D moving image.

The first camera module 111 and the second camera module 112 may be configured in the form of a goggle that is worn on the head of a user and may be configured to easily photograph the user while walking around the inside of a road or a building .

The moving image file upload module 113 may be configured to synchronize the moving image photographed by the first camera module 111 and the second camera module 112 and upload the synchronized moving image to the 3D moving image file providing server 120. [ At this time, the first camera module 111 and the second camera module 112 may be configured to synchronize and upload the position information of the photographed point, respectively.

The 3D moving image file providing server 120 includes a moving image file receiving module 121, a moving image file combining module 122, a 3D moving image file mapping module 123, a 3D moving image file database 124, a 3D moving image file streaming module 125, A 3D video file search module 126 and a billing module 127. [

The 3D moving image file providing server 120 is configured to generate a 3D moving image file by combining the moving image files generated and uploaded by the moving image file generating apparatus 110 and provide the 3D moving image file to the user through a streaming or downloading method .

The moving image file receiving module 121 may receive the synchronized moving image file and the coordinates of the corresponding point in each frame, and the moving image file combining module 122 may synthesize the moving image file to generate the 3D moving image file.

The 3D movie file mapping module 123 can be configured to map the synthesized 3D movie file to the coordinates of each point on the map. And can be configured to immediately provide a 3D video frame at that point in association with a specific point on the map upon user ' s request.

The 3D movie file database 124 may be configured such that the 3D movie files synthesized by the movie file composing module 122 and the locations and coordinates of the corresponding points mapped by the 3D movie file mapping module 123 are stored in association with each other.

The 3D video file streaming module 125 may be configured to provide 3D video files of a specific place or coordinates in the real world according to a user's request. However, in such a case, all 3D video files within a predetermined radius may be downloaded in advance.

Here, the 3D moving image file streaming module 125 may be configured to provide a 3D moving image file in a specific moving direction requested by a user of the 3D moving image file output device 130 at a specific point in real time.

The 3D moving image file searching module 126 searches the 3D moving image file output device 130 for a 3D moving image file in a specific moving direction requested by the 3D moving image file output device 130, And to search the 3D movie file database 124 in real time for the movie file.

The 3D movie file retrieved from the 3D movie file search module 126 is streamed in real time through the 3D movie file streaming module 125.

The charging module 127 is a configuration for charging a user of the 3D moving image file output device 130 with respect to a specific 3D moving image file. The billing criterion may be configured to charge a user who uploads a 3D video file when he / she wants to charge or to charge a specific guide when he / she wants to bill for the introduction or explanation.

On the other hand, the billing module 127 may be configured to bill the countries other than the country where the user of the 3D video file output apparatus 130 is located.

The object and criteria for charging may vary depending on the setting.

Of course, if the user who uploaded the video file or the guide wants to provide unique unique information for billing, the 3D video file providing server 120 may be configured to distribute part of the payment amount to the user or the guide have.

Here, various 3D movie files may exist for specific coordinates or locations, and the user of the 3D movie file output device 130 may be configured to receive the streaming by selecting it. The uploading user can be configured to upload the feature or outline of the 3D video file of his or her own through the video file upload module 113 to the 3D video file providing server 120 and post it. For example, there may be an outline of whether a picture was taken in scenery or a picture of a menu or a price-oriented description in a restaurant. A user of the 3D moving image file output device 130 can view and select the 3D moving image file and receive the streaming.

On the other hand, such a 3D video file may be created for various purposes. For example, in the case of a house or house, if a user wants to sell it for sale, it can be used to post an introductory video about the house to the 3D movie file so that the user can live without visiting the house.

These 3D video files can be placed in a specific category of real estate sales so that users can easily search and view them.

You can also take a bicycle hiking course outdoors and shoot a 3D video file. In this case, the user can not directly set the moving direction, but can be configured to view only 3D video files in a predetermined direction.

Meanwhile, the 3D video file providing server 120 may be configured such that when different 3D movie file output apparatuses 130 select the same place or coordinate, they can mutually communicate online. In this case, at least two users can converse with each other, enjoy the place or spot in advance, and check the hiking course in advance.

If a user sells his or her home for sale, the owner and the user who visits the house can connect with each other in the virtual world to look around and share the conversation. For a restaurant or hotel, the restaurant or hotel manager can respond to and guide visitors to the virtual world in real time.

Next, the 3D movie file output device 130 is configured to include a location and movement direction request module 131, a 3D movie file stream output module 132, a movement direction selection sensor 133, and a payment module 134 .

The 3D moving image file streaming output module 132 of the 3D moving image file output device 130 receives the 3D moving image file of the location or coordinates of the real world selected by the user from the 3D moving image file providing server 120 and outputs the 3D moving image file to the display Lt; / RTI >

At this time, the location and moving direction request module 131 requests the 3D moving picture file providing server 120 to real-time the 3D moving picture file in the moving direction selected by the user in the 3D moving picture file or the place selected by the user . The 3D moving image file streaming output module 132 may be configured to receive the 3D moving image file in response to the 3D moving image stream and output the 3D moving image file.

The movement direction selection sensor 133 may be constituted by input / output means such as a mouse and a keyboard. However, if the 3D video file output device 130 is configured in the form of a goggle worn on the user's head, the direction of movement of the user may be selected by a direction sensor such as a gyro sensor or an acceleration sensor .

The payment module 134 may be configured to make a payment for the 3D movie file to be charged.

The 3D movie file to be charged may be configured to be streamed after payment by the payment module 134 in real time.

FIG. 2 is a flowchart of a virtual reality traveling method using a 3D moving picture file according to an embodiment of the present invention.

Referring to FIG. 2, the moving picture file generating apparatus 110 captures the roads, distances, and interior of the real world at different incidence angles, and generates and uploads the respective moving picture files (S101).

At this time, when the moving picture file generating apparatus 110 photographs a predetermined restaurant or a tourist spot existing in the real world, it captures a guide explaining the restaurant or a tourist attraction together and generates each moving picture file .

Next, the 3D moving image file providing server 120 combines the moving image files uploaded from the moving image file generating apparatus 110 to generate a 3D moving image file (S102).

Next, the 3D moving image file providing server 120 stores the generated 3D moving image file in correspondence with the place or coordinates of the real world (S103).

Next, the 3D moving image file output device 130 requests the 3D moving image file providing server 120 to provide a 3D moving image file corresponding to a predetermined place or coordinate in the real world (S104).

At this time, when the 3D moving picture file output device 130 requests a 3D moving picture file which is taken together with a guide explaining the restaurant or a tourist spot, Lt; / RTI >

Next, the 3D moving picture file providing server 120 searches the 3D moving picture file of a predetermined place or coordinates of the real world requested by the 3D moving picture file output device 130 from the 3D moving picture file stored in the 3D moving picture file providing server 120, 130 in step S105.

Next, the 3D moving image file output device 130 receives the 3D moving image file streaming from the 3D moving image file providing server 120, and outputs the 3D moving image file (S106).

Next, the 3D moving image file output apparatus 130 requests the 3D moving image file providing server 120 to move the 3D moving image file in the moving direction selected by the user in the streaming outputted 3D moving image file (S107).

Next, the 3D movie file providing server 120 streams the requested 3D movie file to the 3D movie file output device 130 (S108).

Next, the 3D moving image file output apparatus 130 receives the 3D moving image file streaming and outputs it (S109).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims. There will be.

110: Video file creation device
111: first camera module
112: Second camera module
113: Video file upload module
120: 3D video file providing server
121: Video file receiving module
122: Video file composition module
123: 3D movie file mapping module
124: 3D movie file database
125: 3D video file streaming module
126: 3D Video File Search Module
127: Charging module
130: 3D movie file output device
131: Place and direction request module
132: 3D movie file streaming output module
133: Movement direction selection sensor
134: Payment module

Claims (4)

A moving picture file creating device for creating and uploading respective moving picture files by photographing roads, streets, and inside buildings of a real world at different incidence angles;
A 3D video file is generated by synthesizing each video file created and uploaded by the video file creation device, and a 3D video file is provided for streaming the generated 3D video file in correspondence with a place in the real world or corresponding coordinates server;
And a 3D moving picture file output device for receiving a 3D moving picture file of a location or coordinates of a real world selected by a user and outputting a 3D moving picture file in a moving direction selected by a user among the selected places,
The 3D moving image file output apparatus includes:
And a goggle type worn on the head of the user, wherein the gyro sensor or the acceleration sensor selects the moving direction of the user. The method according to claim 1,
The 3D moving image file generation device may include a guide for describing a restaurant or a tourist spot when photographing a predetermined restaurant or a tourist attraction existing in the real world, And,
The 3D movie file output apparatus is configured to settle a predetermined amount of 3D movie file generated by synthesizing a moving picture file shot together with the guide, and to output the 3D movie file when a predetermined amount is paid,
Wherein the 3D moving picture file providing server connects the 3D moving picture file providing servers to each other so that online 3D conversation is possible when the 3D moving picture file outputting apparatuses select the same place or coordinates. system. A step of photographing a road, a street and a building inside the real world at different incidence angles to generate and upload respective video files;
The 3D video file providing server synthesizing each video file uploaded from the video file creating device to generate a 3D video file;
The 3D moving picture file providing server storing the generated 3D moving picture file corresponding to a place or coordinates of a real world;
Requesting the 3D moving picture file providing server to the 3D moving picture file providing server for a 3D moving picture file corresponding to a predetermined place or coordinate in the real world;
The 3D moving picture file providing server searches for a 3D moving picture file of a predetermined place or coordinates of the real world requested by the 3D moving picture file output apparatus among the stored 3D moving picture files and transmits the 3D moving picture file to the 3D moving picture file output apparatus by streaming step;
The 3D moving image file output apparatus streaming the 3D moving image file from the 3D moving image file providing server and outputting the 3D moving image file;
Requesting, by the 3D moving picture file output apparatus, the 3D moving picture file in the moving direction selected by the user from the streaming-outputted 3D moving picture file to the 3D moving picture file providing server;
The 3D video file providing server streaming the requested 3D video file to the 3D video file output device;
And the 3D moving picture file output device receives the 3D moving picture file streaming and outputs the 3D moving picture file. 4. The method of claim 3, wherein the moving picture file generating device captures the roads, distances, and interior of the real world at different incidence angles to generate and upload respective moving picture files,
When the moving picture file generating device photographs a predetermined restaurant or a tourist spot existing in the real world, the moving picture file generating device is configured to photograph a guide describing the restaurant or a tourist attraction together to generate a respective moving picture file,
Wherein the step of requesting the 3D moving picture file providing server to the 3D moving picture file providing server, which corresponds to a predetermined place or coordinates of the real world,
When the 3D moving picture file output device requests a 3D moving picture file taken together with a guide explaining the restaurant or tourist spot, the 3D moving picture file outputting device is configured to settle a predetermined amount of the 3D moving picture file A virtual reality travel method using a 3D video file as a feature.

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