CN109753219B

CN109753219B - Handicraft production system, method and device based on virtual reality

Info

Publication number: CN109753219B
Application number: CN201811644928.8A
Authority: CN
Inventors: 熊友谊; 张文金; 王勇; 熊四明; 张孝文
Original assignee: Guangzhou Okay Information Technology Co ltd
Current assignee: Guangzhou Okay Information Technology Co ltd
Priority date: 2018-12-29
Filing date: 2018-12-29
Publication date: 2021-07-20
Anticipated expiration: 2038-12-29
Also published as: CN109753219A

Abstract

The invention discloses a handicraft production system based on virtual reality, which comprises a touch screen, a virtual reality helmet, a control handle and a control host; the control host is also used for controlling the work of the virtual reality helmet according to the instruction of the user for operating the touch screen, so that the user enters the production scene of the handicraft; the control host is also used for controlling the working state of the virtual reality helmet according to the operation instruction of the control handle, so that the user can manufacture the handicraft under the handicraft manufacturing scene. The invention can greatly increase the experience fun of the user to various handicrafts. The invention also discloses a handicraft manufacturing method based on virtual reality, electronic equipment and a storage medium.

Description

Handicraft production system, method and device based on virtual reality

Technical Field

The invention relates to the technical field of virtual reality, in particular to a handicraft manufacturing system and method based on virtual reality, electronic equipment and a storage medium.

Background

The traditional handicraft is an important component of the traditional culture of China. The handicraft is an art craft with a unique artistic style made by hand, which is different from the art craft of the standardized daily handicraft in a large-scale mechanized mode, and the handicraft is mainly made by hand at present although a mechanical tool can be used. The handcraft cannot be produced in large quantities because it needs to be made by a craftsman purely by hand or with some tools, and also has strict requirements on the craftsman's manual skills. Due to the particularity of the handicraft, at present, many traditional handicrafts in China gradually disappear, cannot be known by most people, and even some handicrafts are lost and disappear. Although the state now calls for handicraft to apply for the cultural heritage of non-material, because of the particularity of the handicraft, the passers of the handicraft are few or even none, and are forced to lose. In order to make the traditional handicraft known by a great number of people, more people know and familiar the traditional handicraft, the wide spread of the traditional handicraft can be greatly increased, and the traditional handicraft cannot slowly disappear in the life of people to cause loss. Therefore, it is necessary to establish a system that enables people to know and know about the traditional handicrafts, so that more people can know about the traditional handicrafts and further interest can be generated in learning.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a handicraft production system based on virtual reality, which can greatly increase the experience pleasure of a user for the handicrafts.

The second purpose of the invention is to provide a handicraft production method based on virtual reality, which can greatly increase the experience fun of users for handicrafts.

The invention also aims to provide the electronic equipment which can greatly increase the experience pleasure of the user for the traditional handicraft.

It is a fourth object of the present invention to provide a computer-readable storage medium that can greatly increase the user's experience pleasure with respect to conventional handicrafts.

One of the purposes of the invention is realized by adopting the following technical scheme:

the handicraft production system based on virtual reality comprises a touch screen, a virtual reality helmet, a control handle and a control host; the touch screen, the virtual reality helmet and the control handle are respectively and electrically connected with the control host;

the control host is also used for controlling a virtual reality scene for displaying the handicraft in the virtual reality helmet according to an instruction of a user for operating the touch screen; the control host is further used for controlling the working state of the virtual reality helmet according to the operation instruction of the control handle, so that the current virtual reality scene displays corresponding data, and a user can manufacture a handicraft in the current virtual reality scene through the control handle.

The camera is electrically connected with the control host through the image recognition module; the camera is used for shooting image data of the handicraft made by the user in real time and sending the image data to the image recognition module, so that the image recognition module analyzes the user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft according to the image data of the handicraft made by the user; the control host also generates a three-dimensional figure of the handicraft made by the user according to the user gesture, the current shape of the handicraft and the relative position of the user gesture and the handicraft and displays the three-dimensional figure to the user through the touch screen in real time.

Furthermore, the control host is further used for obtaining the size of the touch screen according to the parameter information of the touch screen, establishing a coordinate system in the touch screen, generating a three-dimensional graph of the handicraft made by the user according to the user gesture, the current form of the handicraft, the relative position of the user gesture and the handicraft and the coordinate system, and displaying the three-dimensional graph to the user through the touch screen in real time.

The scanning device is used for scanning parameter information of the manufacturing materials of the handicraft; the control host is further used for controlling the virtual reality helmet to work according to the parameter information of the handicraft manufacturing materials sent by the scanning equipment, and therefore a user can enter a corresponding virtual reality scene for manufacturing the handicraft through the virtual reality helmet.

The second purpose of the invention is realized by adopting the following technical scheme:

the handicraft making process based on virtual reality includes the following steps:

a scene entering step: when a user wears the virtual reality helmet, acquiring a signal of the user operating the touch screen, and controlling the virtual reality helmet to present a virtual reality scene corresponding to the manufacture of the handicraft;

and (3) interaction step: when the virtual reality helmet presents the corresponding handicraft in the virtual reality scene, an operation prompt is given to a user according to a system preset scheme, an operation instruction triggered by the user to operate the control handle according to the operation prompt is obtained, and the working state of the virtual reality helmet is controlled according to the operation instruction, so that the user can realize the production of the current handicraft in the virtual reality scene by operating the control handle.

Further, the method also comprises the following scanning control steps: and acquiring parameter data of the scanned handicraft manufacturing material, and controlling a user to enter a manufacturing virtual reality scene of the handicraft through a virtual reality helmet.

Further, the method also comprises the following image recognition steps: acquiring image data of a user for making a handicraft in real time, and performing image processing to obtain a user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft;

a display control step: and generating a three-dimensional figure of the handicraft made by the user according to the user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft, and displaying the three-dimensional figure on the touch screen in real time.

Further, the display control step further includes: the method comprises the steps of obtaining the size of a touch screen according to parameter information of the touch screen, establishing a coordinate system in the touch screen, generating a three-dimensional graph of the handicraft made by a user according to the user gesture, the current form of the handicraft, the relative position of the user gesture and the handicraft and the coordinate system, and displaying the three-dimensional graph to the user through the touch screen in real time.

The third purpose of the invention is realized by adopting the following technical scheme:

an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor when executing the program performing the steps of the method for making a virtual reality based artwork as in the second aspect of the present invention.

The fourth purpose of the invention is realized by adopting the following technical scheme:

a computer-readable storage medium, having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method of manufacturing a virtual reality based artwork as claimed in the second aspect of the present invention.

Compared with the prior art, the invention has the beneficial effects that:

the invention stores the virtual reality scene corresponding to the manufacturing process of various handicraft based on virtual reality into the system, and then enables the user to realize the manufacturing experience of the handicraft under the corresponding virtual reality scene through the corresponding virtual reality equipment, thereby greatly improving the experience fun of the user on the manufacturing of the handicraft and providing more opportunities for the user to know the handicraft.

Drawings

FIG. 1 is a block diagram of a system for creating an artifact based on virtual reality according to the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

The first embodiment is as follows:

the invention applies the virtual display technology to a handicraft production experience system, namely the handicraft production system based on virtual reality, and comprises a touch screen, a virtual reality helmet, a control handle and a control host, wherein the touch screen, the virtual reality helmet and the control handle are respectively and electrically connected with the control host.

The user accessible operation touch-sensitive screen sends corresponding touch signal to the control host computer, and the control host computer receives the back of receiving corresponding touch signal like this, controls the operating condition of virtual reality helmet, and then makes the user get into corresponding virtual reality scene through wearing the virtual reality helmet. For example, a user clicks a button for experiencing handicraft-paper-cut through a touch screen, and the user wears the virtual reality helmet, the control host can send a corresponding control instruction to the virtual reality helmet, so that the user wearing the virtual reality helmet enters a virtual reality scene made of paper-cut. The virtual reality scene is a plurality of corresponding virtual reality scenes which are manufactured by collecting a large amount of data such as pictures and videos according to the manufacturing process of paper-cut by developers and performing image processing and data extraction on the data.

When the user selects to enter the corresponding virtual reality scene, the control host controls the virtual reality helmet and obtains the corresponding virtual reality scene from the system, so that the user enters the corresponding scene according to the virtual reality helmet.

After the user enters a corresponding scene through the virtual reality helmet, the user can also realize the production of corresponding handicrafts in the virtual reality scene by operating the control handle. When the user operates the control handle, the system gives a corresponding prompt, and then the user operates the control handle according to the prompt. For example, the system gives a left arrow, and the user can operate a left button on the control handle. That is to say, the control host is further configured to control the virtual reality helmet to enter a corresponding handicraft production scene, give a corresponding operation prompt in the scene, receive a data signal for a user to operate the control handle, control the virtual reality helmet to display a corresponding operation in the current virtual reality scene, such as displaying data, playing a video, an image, and the like, and switch the current virtual reality scene to another virtual reality scene. That is to say, for the whole process of a handicraft production, corresponding scenes are set in each step, and each time a user operates the control handle to complete the current action, the control host controls the virtual reality helmet to switch from one scene to another scene. In addition, the control host also records the user operation control handle in real time and generates a corresponding user experience record log, so that the user experience data of the traditional handicraft can be counted, and the data support can be conveniently provided for later counting and analysis. The invention can count the times of browsing and making each handicraft and store the times in the memory by recording the operation of the user, and can know which handicrafts are popular with the public by counting the data, thereby providing reference for holding corresponding activities.

Furthermore, the system also comprises a scanning device, and the scanning device is connected with the control host. The scanning equipment is used for acquiring parameter information of the manufacturing materials of the handicraft and sending the parameter information to the control host. The control host is also used for controlling the work of the virtual reality helmet according to the parameter information of the handicraft manufacturing material sent by the scanning equipment, so that a user can enter a corresponding scene for manufacturing the handicraft through the virtual reality helmet. The scanning device can be a code scanning gun, and the parameter information of the production material of the handicraft comprises codes, images and other information.

For example, when a user manufactures a certain hand of handicraft, and the semi-finished product of the handicraft is scanned by the scanning device for parameter information of the semi-finished product of the handicraft and sent to the control host, the control host can know which step the manufacturing process of the handicraft is currently in according to the parameter information of the semi-finished product, and then switches corresponding scenes for the user.

The camera is electrically connected with the control host through the image recognition module; the camera is used for shooting image data of the handicraft made by the user in real time and sending the image data to the image identification module. When shooting image data of a user for making a handicraft, video data can be recorded or images at multiple angles (such as 360 degrees) can be shot, and a data base is further provided for later generation of three-dimensional stereo graphics. The image recognition module analyzes the image data according to the image data when the user manufactures the handicraft to obtain the user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft.

The control host acquires parameter information of the touch screen to obtain the size of the touch screen, a coordinate system is established in the touch screen, a three-dimensional figure of the handicraft made by the user is generated in the touch screen according to the user gesture, the current form of the handicraft, the relative position of the user gesture and the handicraft and the coordinate system, and the three-dimensional figure is displayed to the user through the touch screen in real time. The camera can acquire image data of the handicraft made by the user in real time and process the image data to generate a corresponding three-dimensional graph, so that the handicraft made by the user can be synchronized on the touch screen in real time, and the user experience is improved. Because the sizes of the touch screens are different, even if the process video of the handicraft made by the user or the multi-angle image data shot by the camera cannot be directly displayed in the touch screen, the process video of the handicraft made by the user, the multi-angle image data and the like need to be correspondingly converted, such as the size problem of display, the angle problem of display and the like, by establishing a coordinate system under the touch screen, the process video of the handicraft made by the user, the multi-angle image data and the like are converted into a three-dimensional graph of the coordinate system of the touch screen and are displayed through the touch screen, and the process of the handicraft made by the user is synchronized to the touch screen for display.

In the embodiment of the present invention, optionally, the handicraft making system based on virtual reality further includes a three-dimensional printer, where the three-dimensional printer is connected to the control host, obtains a three-dimensional stereo graphic corresponding to the print instruction according to the print instruction of the control host, and executes a print job of the three-dimensional printer.

The invention shows the related introductions of various handicrafts and the like to the user, and enables more people to know the related knowledge and the like of the handicrafts, thereby enabling various handicrafts to be known by people, greatly improving the interest of people in the handicrafts and enabling more people to have an opportunity to learn the handicrafts.

The invention also sets each scene in advance, for example, a plurality of images of each step of the manufacturing process of each handicraft are obtained, then the images are respectively processed, and a model and a manufacturing scene of each step of the manufacturing process of each handicraft are established according to the data after the image processing, so that when a user wears the virtual field helmet, the control host controls the virtual reality helmet to enter the corresponding scene, and meanwhile, the scenes are stored in the memory.

Example two:

the invention also provides a method applied to the handicraft making system based on the virtual reality, which comprises the following steps: step S1: when a user wears the virtual reality helmet, acquiring a signal of the user operating the touch screen, and controlling the virtual reality helmet to present a virtual reality scene corresponding to the manufacture of the handicraft;

step S2: when the virtual reality helmet presents the corresponding handicraft in the virtual reality scene, an operation prompt is given to a user according to a system preset scheme, an operation instruction triggered by the user to operate the control handle according to the operation prompt is obtained, and the working state of the virtual reality helmet is controlled according to the operation instruction, so that the user can realize the production of the current handicraft in the virtual reality scene by operating the control handle.

Further, the method also includes step S3: and acquiring parameter data of the scanned handicraft manufacturing material, and controlling a user to enter a manufacturing virtual reality scene of the handicraft through a virtual reality helmet.

Further, the method also includes step S4: acquiring image data of a user for making a handicraft in real time, and performing image processing to obtain a user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft;

step S5: and generating a three-dimensional figure of the handicraft made by the user according to the user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft, and displaying the three-dimensional figure on the touch screen in real time.

Further, the step S5 further includes: the method comprises the steps of obtaining the size of a touch screen according to parameter information of the touch screen, establishing a coordinate system in the touch screen, generating a three-dimensional graph of the handicraft made by a user according to the user gesture, the current form of the handicraft, the relative position of the user gesture and the handicraft and the coordinate system, and displaying the three-dimensional graph to the user through the touch screen in real time.

Example three:

the invention also provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the program:

Further, the processor implements the following steps when executing the program: a scanning control step: and acquiring parameter data of the scanned handicraft manufacturing material, and controlling a user to enter a manufacturing virtual reality scene of the handicraft through a virtual reality helmet.

Further, the processor implements the following steps when executing the program: an image recognition step: acquiring image data of a user for making a handicraft in real time, and performing image processing to obtain a user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft;

Example four:

the present invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of:

Further, the computer program when executed by the processor realizes the steps of: a scanning control step: and acquiring parameter data of the scanned handicraft manufacturing material, and controlling a user to enter a manufacturing virtual reality scene of the handicraft through a virtual reality helmet.

Further, the computer program when executed by the processor realizes the steps of: an image recognition step: acquiring image data of a user for making a handicraft in real time, and performing image processing to obtain a user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft;

The invention introduces various handicraft articles such as non-material culture of concurrent functions, embroidery, rattan art and the like by combining with the intelligent cabinet, thereby not only increasing the experience pleasure of tourists on various handicraft articles, but also greatly improving the understanding of the users on the handicraft articles, and leading more people to understand and contact the handicraft articles in China.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims

1. The handicraft manufacturing system based on virtual reality is characterized by comprising a touch screen, a virtual reality helmet, a control handle and a control host; the touch screen, the virtual reality helmet and the control handle are respectively and electrically connected with the control host;

the control host is also used for controlling a virtual reality scene for displaying the handicraft in the virtual reality helmet according to an instruction of a user for operating the touch screen; the control host is also used for controlling the working state of the virtual reality helmet according to the operation instruction of the control handle, so that the current virtual reality scene displays corresponding data, and a user can make a handicraft article under the current virtual reality scene through the control handle; the virtual reality scene is formed by collecting a plurality of pictures and a plurality of videos corresponding to the production process of the handicraft by a developer, extracting the collected pictures and videos and producing the pictures and videos; each handicraft corresponds to a plurality of virtual scenes;

the scanning device is used for scanning parameter information of a manufacturing material of the handicraft; the control host is further used for controlling the virtual reality helmet to work according to the parameter information of the handicraft manufacturing materials sent by the scanning equipment, and therefore a user can enter a corresponding virtual reality scene for manufacturing the handicraft through the virtual reality helmet.

2. The virtual reality based handicraft production system of claim 1 further comprising a camera and an image recognition module, said camera being electrically connected to the control host through the image recognition module; the camera is used for shooting image data of the handicraft made by the user in real time and sending the image data to the image recognition module, so that the image recognition module analyzes the user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft according to the image data of the handicraft made by the user; the control host also generates a three-dimensional figure of the handicraft made by the user according to the user gesture, the current shape of the handicraft and the relative position of the user gesture and the handicraft and displays the three-dimensional figure to the user through the touch screen in real time.

3. The virtual reality based handicraft production system of claim 2 wherein the control host is further configured to derive a size of the touch screen based on parameter information of the touch screen, establish a coordinate system in the touch screen, generate a three-dimensional figure of the handicraft produced by the user based on the user's gesture, the current shape of the handicraft, the relative position of the user's gesture and the handicraft, and the coordinate system, and display the three-dimensional figure to the user in real time through the touch screen.

4. The handicraft manufacturing method based on virtual reality is characterized by comprising the following steps:

and (3) interaction step: when the virtual reality helmet presents the handicraft in the virtual reality scene corresponding to the manufacture of the handicraft, an operation prompt is given to a user according to a system preset scheme, an operation instruction triggered by the user to operate a control handle according to the operation prompt is obtained, and the working state of the virtual reality helmet is controlled according to the operation instruction, so that the user can realize the manufacture of the current handicraft in the virtual reality scene by operating the control handle; the virtual reality scene is formed by collecting a plurality of pictures and a plurality of videos corresponding to the production process of the handicraft by a developer, extracting the collected pictures and videos and producing the pictures and videos; each handicraft corresponds to a plurality of virtual scenes;

further comprising a scanning control step: acquiring parameter data of a scanned handicraft manufacturing material, and controlling a user to enter a handicraft manufacturing virtual reality scene through a virtual reality helmet; further comprising an image recognition step: and acquiring image data of the handicraft made by the user in real time, and performing image processing to obtain the user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft.

5. The method of making a virtual reality based handicraft according to claim 4, further comprising the step of image recognition: acquiring image data of a user for making a handicraft in real time, and performing image processing to obtain a user gesture, the current form of the handicraft and the relative position of the user gesture and the handicraft;

6. The virtual reality-based artwork making method of claim 5, wherein said display controlling step further comprises: the method comprises the steps of obtaining the size of a touch screen according to parameter information of the touch screen, establishing a coordinate system in the touch screen, generating a three-dimensional graph of the handicraft made by a user according to the user gesture, the current form of the handicraft, the relative position of the user gesture and the handicraft and the coordinate system, and displaying the three-dimensional graph to the user through the touch screen in real time.

7. An electronic device comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein: the processor, when executing the program, performs the steps of the method of virtual reality based handicraft creation as claimed in any one of claims 4-6.

8. A computer-readable storage medium having stored thereon a computer program, characterized in that: the computer program realizing the steps of the method of virtual reality based handicraft creation as claimed in any one of claims 4-6 when executed by a processor.