CN107608522B - Method and system for customizing virtual motion scene by utilizing mobile device - Google Patents

Abstract

The invention discloses a method and a system for customizing a virtual motion scene by utilizing mobile equipment, wherein a user operates in an application through a mobile terminal, builds a motion scene required by the user and adds sound effect to form video data, the video data is uploaded to a server, the user carries the mobile equipment to a site of a reduction device and authorizes a control host of the reduction device by utilizing the mobile equipment, the control host obtains authority to download the video data, the control host processes and analyzes the video data, processes the audio and video data and obtains control parameters of a motion sensing device, and then images and sounds in the virtual motion scene and controls the motion sensing device to synchronously move, so that vivid motion feeling is simulated. The method has high autonomous operability and personalized degree, meets the personalized entertainment requirements of different users, and improves the playability resistance and the interestingness of the motion simulation system.

Description

Method and system for customizing virtual motion scene by utilizing mobile device

Technical Field

The present invention relates to the field of virtual reality technology, and more particularly, to a method and system for customizing a virtual motion scene using a mobile device.

Background

Virtual Reality (Virtual Reality) or 3D technology for short is increasingly used in the fields of video, movies, medicine, simulation training, or games. A three-dimensional virtual reality world can be generated by the aid of the 3D image and the posture sensor and the electronic computer equipment.

At present, scene presentation in virtual reality technology generally adopts a mode of combining a VR helmet and a body sensing device. The presentation mode combines audio-visual effect and body feeling, and the user can feel the movement of the body besides the audio-visual effect, so that the user can be more immersed in a virtual scene, the simulation fidelity of the presentation mode is high, and richer experience can be brought to the user. Therefore, motion simulation systems based on VR and body-sensing devices are gaining favor to more and more users.

However, in the existing motion simulation system, the virtual motion scene is designed by a special designer in advance, the user can only experience and simulate the motion in the preset virtual scene, and the user cannot customize the virtual motion scene according to own preference, so that the user loses interest in the same virtual motion scene after experiencing the scene for many times, and the playability and the interestingness of the motion simulation system are limited.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a method for customizing a virtual motion scene by utilizing mobile equipment, which can realize that a user customizes the virtual motion scene required by the user at the mobile equipment end and really restores the customized scene.

In order to achieve the purpose, the invention provides the following technical scheme:

a method for customizing a virtual motion scene with a mobile device, comprising the steps of:

s1, opening an application installed on mobile equipment, and registering an account;

s2, in application, a scene picture and an environmental sound effect of a basic frame are built by taking a timestamp as a reference, and a picture frame and an audio stream of a period of time are built to generate video data of the period of time;

s3, uploading the video data to a server;

s4, authorizing a control host of the scene restoration equipment by using the mobile equipment;

s5, downloading the video data uploaded by the account from the server by the authorized control host;

s6, the control host processes the downloaded video data, separates image data and sound data from the video data and calculates real-time control parameters of the motion sensing device;

and S7, respectively displaying images and sounds through the image display device and the sound restoration device, and synchronously sending the real-time control parameters to a controller of the motion sensing device to control the motion sensing device to synchronously execute corresponding actions.

By adopting the scheme, a user operates in an application through a mobile terminal, a motion scene required by the user is built and audio is added to form video data, the video data are uploaded to a server, the user carries a mobile device to a restoring device field and authorizes a control host of the restoring device by the mobile device, the control host can obtain authority to download the video data, the control host processes and analyzes the video data, manages the audio and video data and obtains control parameters of a motion sensing device, and then images and sounds in a virtual motion scene and controls the motion sensing device to move synchronously, so that vivid motion feeling is simulated.

As a preferable scheme: the real-time control parameter is calculated according to the position change of the reference object in the adjacent basic frame pictures.

By adopting the scheme, the calculated real-time control parameters can control the motion of the motion sensing device to be highly synchronous with the picture change in the virtual scene, so that the simulation fidelity is ensured.

As a preferable scheme: the position change of the reference object is based on a three-dimensional coordinate system, a motion vector is obtained through the change of the three-dimensional coordinate system, and the real-time control parameters comprise speed control parameters obtained by dividing the motion vector by the time interval of adjacent basic frames.

By adopting the scheme, the calculated real-time control parameters have high accuracy, and the accuracy of motion control of the motion sensing device is ensured.

As a preferable scheme: and the mobile equipment authorizes the control host machine in a mode of scanning the two-dimensional code.

By adopting the scheme, the authorization is given to the control host by scanning the two-dimensional code, the account can be logged in on the control host after the control host is in the field, the operation is convenient and fast, and the safety of the account can be ensured.

As a preferable scheme: the scene picture comprises a landform model, a building model, an environment model and a weather model.

By adopting the scheme, the virtual scene can contain rich content and details, and the reality degree of the picture is improved.

As a preferable scheme: in application, the scene picture and the environmental sound effect of the basic frame are constructed through touch and drag modes.

By adopting the scheme, compared with a mode of peripheral input, the method builds the scene picture and the sound effect through the touch and drag operation mode, has higher operation efficiency, low learning cost, quick operation, convenience and rapidness.

As a preferable scheme: the server is a physical server or a cloud server.

Another objective of the present invention is to provide a system, by which a user can customize a virtual motion scene at a mobile device and restore the customized scene on site, so as to meet the personalized entertainment requirements of different users.

In order to achieve the purpose, the invention adopts the following technical scheme:

a system for customizing a virtual motion scene with a mobile device, comprising:

a mobile device including a touch screen and a camera, and loaded with an operating system that supports the application, and installed with the application;

the server provides a storage space and a downloading channel;

the control host is communicated with the server, downloads video data in the server, processes the video data to obtain image data and sound data, and calculates to obtain real-time control parameters;

the controller is in communication connection with the control host, receives the real-time control parameters sent from the control host and controls the motion of the somatosensory device according to the real-time control parameters;

the motion sensing device is controlled by the controller, has a plurality of motion dimensions, and is used for fixing a human body and driving the human body to move;

and the VR helmet is in communication connection with the control host and is used for receiving and restoring the image data and the sound data.

As a preferable scheme: the mobile device comprises a mobile phone and a tablet computer.

As a preferable scheme: the body sensing device comprises a body sensing seat and a mechanical arm.

Compared with the prior art, the invention has the advantages that: the user operates in the application through the mobile terminal, a motion scene required by the user is built and audio is added to form video data, the video data are uploaded to the server, the user carries the mobile device to the site of the restoring device and authorizes the control host of the restoring device through the mobile device, the control host can obtain authority to download the video data, the control host processes and analyzes the video data, the audio and video data are sorted out and control parameters of the motion sensing device are obtained, then, images and sounds in the virtual motion scene can be presented, the motion sensing device can be controlled to move synchronously, and therefore vivid motion feeling is simulated. The method has high autonomous operability and personalized degree, meets the personalized entertainment requirements of different users, and improves the playability resistance and the interestingness of the motion simulation system.

Drawings

FIG. 1 is a block flow diagram of the method;

fig. 2 is a topology diagram of the system.

Detailed Description

The first embodiment is as follows:

referring to fig. 1, a method for customizing a virtual motion scene using a mobile device includes the steps of:

s1, opening an application installed on mobile equipment, and registering an account;

users need to be equipped with mobile terminals that carry operating systems compatible with applications and provide hardware support. The method comprises the steps that a user firstly installs a special mobile terminal application on the mobile equipment, account registration is carried out after the application is opened, the application terminal is communicated with a rear server through a mobile terminal, a data table in the server records account information submitted by the user, and the server allocates a corresponding storage space to the account.

S2, in application, a scene picture and an environmental sound effect of a basic frame are built by taking a timestamp as a reference, and a picture frame and an audio stream of a period of time are built to generate video data of the period of time;

after the account registration is successful, the user can select 'setting up a scene' in the application, the application enters a scene setting interface, a material library is arranged in the scene setting interface, and the material library comprises various constituent factors of scene pictures, such as a landform model, an environment model, a building model and a weather model. The whole landform model comprises plain, mountain and river; the environment model comprises a plant model, an animal model, a stone model, an artificial appliance model, a sound effect model and the like; the building models comprise a residential model, a factory building model, a park model, an amusement park model and the like; the weather model comprises a rainfall model, a wind blowing model, a lightning model, a snowfall model, a sand model and the like.

The first step of building a scene by using a geomorphic model is to click the geomorphic model in an expanded material library, select a required geomorphic model from a geomorphic model column, drag the selected geomorphic model to a main interface for editing a scene picture, and build the whole geomorphic model in a three-dimensional coordinate system; and then, the needed building model, environment model and weather model can be added into the geomorphic model of the main interface in a clicking and dragging mode, and the building model and the environment model added into the geomorphic model exist in a three-dimensional coordinate system in the geomorphic model in a three-dimensional coordinate system, so that the positions of the total building model and the environment model of the geomorphic model can be uniquely determined, a picture of a basic frame is formed, and the picture of the frame is clicked and stored.

In the picture of editing the next basic frame, on the basis of the previous basic frame, a user can adjust the orientation of the geomorphic model in the picture in a three-dimensional coordinate system in a touch and drag mode, the orientations of each building model and each environment model attached to the geomorphic model synchronously change, after the orientation is adjusted, the user can add a new building model and a new environment model again in the newly appeared visual field range of the geomorphic model, a new basic frame picture is formed after the addition is finished, in the new basic frame picture, the coordinates of the center point of the geomorphic model and the coordinates of the building model and the environment model attached to the previous picture are changed, and the frame picture is clicked and stored.

After the user stores enough basic frame pictures, the user can select to add a weather model and a sound effect model, and the video data can be obtained after storage.

S3, uploading the video data to a server;

and the user clicks the 'uploading video data' in the operation interface of the application, and the application uploads the video data to the server through the mobile terminal. The server here may be a physical server and a cloud server.

S4, authorizing a control host of the scene restoration equipment by using the mobile equipment;

when a user arrives at a scene restoration site with a mobile terminal, the application needs to be opened, the scanning two-dimensional code is clicked, the camera of the mobile terminal is called by the application to shoot the two-dimensional code of the scene restoration site, an authorization operation page is popped up after the application successfully identifies the two-dimensional code, the authorization is clicked, and at this moment, the control host obtains the authorization of an account.

S5, downloading the video data uploaded by the account from the server by the authorized control host;

and after the authorization is successful, the control host downloads the video data uploaded to the server by the account from the server.

S6, the control host processes the downloaded video data, separates image data and sound data from the video data and calculates real-time control parameters of the motion sensing device;

the control host is provided with software for carrying out reduction operation, separates image data and sound data from the video data, and respectively sends image signals and audio signals to on-site image presentation equipment and sound reduction equipment; meanwhile, the control host selects two adjacent basic frame pictures in the image data, selects the same reference object, namely the same model, from the two basic frame pictures, and reads the coordinates of the reference object in the two pictures, for example, the coordinates of the reference object in the previous basic frame picture are (X1, Y1, Z1), the coordinates of the reference object in the next basic frame picture are (X2, Y2, Z2), the motion vector of the reference object is (X2-X1, Y2-Y1, Z2-Z1), the interval time of the two basic frame pictures is t (the value of t depends on the playing speed of the basic frame pictures), the motion speed of the motion sensing device in the three-dimensional direction can be obtained by dividing the motion vector by the interval time t, and the motion speed in the three-dimensional direction is the real-time control parameter of the motion sensing device.

And S7, respectively displaying images and sounds through the image display device and the sound restoration device, and synchronously sending the real-time control parameters to a controller of the motion sensing device to control the motion sensing device to synchronously execute corresponding actions.

The image presentation equipment displays image signals sent by the control host, the sound reduction equipment reduces sound signals sent by the control host, so that a user can generate audio-visual feeling on a reduction site, meanwhile, the control host sends calculated real-time control parameters to the controller, the controller controls motion of the motion sensing device, the motion of the motion sensing device is synchronous with direction change of a model in an image picture, and vivid simulated motion feeling is created.

Example two:

referring to fig. 2, a system for customizing a virtual motion scene using a mobile device, includes:

the mobile device can be a mobile phone or a tablet personal computer, comprises a touch screen, a baseband processor, a camera, a storage module, a communication module, a loading operating system supporting the application and an installation application;

the server provides a storage space and a downloading channel;

the control host computer is a field control computer, is communicated with the server, is provided with restoring software, obtains video data in the server after authorization, processes the data to obtain image data and sound data and calculates to obtain real-time control parameters;

the controller is a PLC controller, is in communication connection with the control host, receives the real-time control parameters sent from the control host and controls the motion of the somatosensory device according to the real-time control parameters;

the motion sensing device is controlled by the controller, has a plurality of motion dimensions, is used for fixing a human body and driving the human body to move, and can be a motion sensing seat or a mechanical arm;

and the VR helmet is in communication connection with the control host and is used for receiving and restoring the image data and the sound data.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (7)

1. A method for customizing a virtual motion scene by using a mobile device is characterized by comprising the following steps:

s1, opening an application installed on mobile equipment, and registering an account;

s2, in application, a scene picture and an environmental sound effect of a basic frame are set up by taking a timestamp as a reference, and a picture frame and video data of an audio stream generation time period are set up for a period of time; the scene picture comprises a landform model, a building model, an environment model and a weather model;

s3, uploading the video data to a server;

s4, authorizing a control host of the scene restoration equipment by using the mobile equipment;

s5, downloading the video data uploaded by the account from the server by the authorized control host;

s6, the control host processes the downloaded video data, separates image data and sound data from the video data and calculates real-time control parameters of the motion sensing device; the real-time control parameters are calculated according to the position change of the reference object in the adjacent basic frame pictures; the position change of the reference object is based on a three-dimensional coordinate system, a motion vector is obtained through the change of the three-dimensional coordinate system, and the real-time control parameters comprise speed control parameters obtained by dividing the motion vector by the time interval of adjacent basic frames; the control host is provided with software for carrying out reduction operation, separates image data and sound data from the video data, and respectively sends image signals and audio signals to on-site image presentation equipment and sound reduction equipment; meanwhile, the control host selects two adjacent basic frame pictures in the image data, selects the same reference object, namely the same model, from the two basic frame pictures, reads the coordinates of the reference object in the two pictures, the coordinates of the reference object in the former basic frame picture are (X1, Y1, Z1), the coordinates of the reference object in the latter basic frame picture are (X2, Y2, Z2), the motion vector of the reference object is (X2-X1, Y2-Y1, Z2-Z1), the interval time of the two basic frame pictures is t (the value of t depends on the playing speed of the basic frame pictures), the motion speed of the motion sensing device in the three-dimensional direction can be obtained by dividing the motion vector by the interval time t, and the motion speed in the three-dimensional direction is the real-time control parameter of the motion sensing device;

and S7, respectively displaying images and sounds through the image display device and the sound restoration device, and synchronously sending the real-time control parameters to a controller of the motion sensing device to control the motion sensing device to synchronously execute corresponding actions.

2. The method of customizing a virtual motion scene using a mobile device of claim 1, wherein: and the mobile equipment authorizes the control host machine in a mode of scanning the two-dimensional code.

3. The method of customizing a virtual motion scene using a mobile device of claim 1, wherein: in application, the scene picture and the environmental sound effect of the basic frame are constructed through touch and drag modes.

4. The method of customizing a virtual motion scene using a mobile device of claim 1, wherein: the server is a physical server or a cloud server.

5. A system for customizing a virtual sports scene using a mobile device, for implementing the method for customizing a virtual sports scene using a mobile device according to claims 1 to 4,

the method comprises the following steps:

a mobile device including a touch screen and a camera, and loaded with an operating system supporting an application, in which the application is installed;

the server provides a storage space and a downloading channel;

the control host is communicated with the server, downloads video data in the server, processes the video data to obtain image data and sound data, and calculates to obtain real-time control parameters;

the controller is in communication connection with the control host, receives the real-time control parameters sent from the control host and controls the motion of the somatosensory device according to the real-time control parameters;

the motion sensing device is controlled by the controller, has a plurality of motion dimensions, and is used for fixing a human body and driving the human body to move;

and the VR helmet is in communication connection with the control host and is used for receiving and restoring the image data and the sound data.

6. The system for customizing a virtual sports scene using a mobile device as claimed in claim 5, wherein: the mobile device comprises a mobile phone and a tablet computer.

7. The system for customizing a virtual sports scene using a mobile device as claimed in claim 5, wherein: the body sensing device comprises a body sensing seat and a mechanical arm.

Images