CN112102667A - Video teaching system and method based on VR interaction - Google Patents

Abstract

The invention discloses a video teaching system and method based on VR interaction, the system comprises the following parts: the video teaching system comprises a video teaching terminal, VR (virtual reality) interactive equipment, a teaching monitoring terminal and a processing server, wherein the video teaching terminal acquires actions and voice of a teacher in the teaching process; the teaching monitoring terminal acquires actions and voices of students in the learning process; and the processing server receives the actions and voice data of the teacher and the students, performs standard processing on the data and feeds the data back to the VR interactive equipment. When the virtual reality simulation system is used for teaching, students can simulate learning according to images in the VR helmet display screen, action videos of the students can be sent to the processing server to be processed in the learning process, the action videos are changed into point position dynamic diagrams at joints, the point position dynamic diagrams at the joints of the students can be compared with the point position dynamic diagrams at the joints of teachers, therefore, the VR remote teaching function of sports and motion teaching is achieved, and in the process, the learning efficiency of the students can be greatly improved.

Description

Video teaching system and method based on VR interaction

Technical Field

The invention relates to the technical field of teaching, in particular to a video teaching system and a video teaching method based on VR interaction.

Background

VR is the abbreviation of Virtual Reality, and Chinese means Virtual Reality, and early translation is "smart technology". The virtual reality is an ultimate application form of multimedia technology, and is a crystal rapidly developed in scientific fields such as computer software and hardware technology, sensing technology, robot technology, artificial intelligence, behavioral psychology and the like. Mainly depends on the development of a plurality of key technologies such as three-dimensional real-time graphic display, three-dimensional positioning and tracking, touch and smell sensing technologies, artificial intelligence technologies, high-speed computing and parallel computing technologies, human behavioral research and the like. With the development of virtual reality technology, the real realization of virtual reality will bring about a great revolution in the life and development of the whole human. People wear special sensing equipment such as stereoscopic glasses, data gloves and the like, face a three-dimensional simulation reality, and seem to be positioned in a sensing world with three-dimensional vision, hearing, touch and even smell, and the people and the environment can carry out information interaction through the natural skills and corresponding facilities of the people.

At present, VR technology is basically used for games, and is still a blank in the aspect of sports or motion teaching, and how to utilize VR technology to carry out sports or motion teaching is a problem needing to be solved at present.

Disclosure of Invention

The invention aims to provide a video teaching system and a method based on VR interaction.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: a video teaching system based on VR interaction, comprising the following components:

a video teaching terminal, VR interactive equipment, a teaching monitoring terminal and a processing server,

the video teaching terminal is used for acquiring the actions and voice of the teacher in the teaching process and transmitting the action and voice data to the processing server;

the VR interaction equipment can be worn on the heads of the teacher and the students and is used for the interaction of videos and voices between the teacher and the students;

the teaching monitoring terminal is used for acquiring actions and voice of students in the learning process and transmitting the actions and voice data to the processing server;

and the processing server is used for receiving the action and voice data of teachers and students, performing standard processing on the data and feeding the data back to the VR interactive equipment.

Preferably, the processing server comprises the following components: the system comprises a data interaction module, a personnel feedback information module, a motion capture module, a comparison module and a control module;

the data interaction module is used for processing data receiving and transmitting among the server, the video teaching terminal and the teaching monitoring terminal;

the staff feedback information module is used for receiving feedback information of the teacher VR interactive equipment and feedback information of the student VR interactive equipment, and communicating the two VR interactive equipment if the feedback information of the teacher VR interactive equipment and the feedback information of the student VR interactive equipment are received at the same time, so that the teacher VR interactive equipment and the student VR interactive equipment can realize data interaction with each other;

the motion capture module is used for processing motion data of the teacher and the students, performing punctuation on joints of the teacher and the students and converting the motion data into a point location map of the joints;

the comparison module is used for comparing point position location images of joints of teachers and students, when the comparison is consistent, correct signals are sent back to the VR interaction equipment, and when the comparison is inconsistent, wrong signals are sent back to the VR interaction equipment.

The data interaction module, the personnel feedback information module, the motion capture module and the comparison module are all connected with the control module.

Preferably, the video teaching terminal and the teaching monitoring terminal both comprise motion capture cameras, and the motion capture cameras are used for shooting the motions of teachers and students and sending motion videos and voices to the processing server.

Preferably, the VR interaction device comprises: the device comprises a first display module, a second display module and a warning module;

the first display module is used for sending action videos of teachers and students to a display screen of the VR interaction equipment;

the second display module is used for sending the point location dynamic images at the joints in the action process of the teacher and the students to a display screen of the VR interactive equipment;

and the warning module is used for receiving the feedback signal sent by the comparison module, displaying the frame position of the display screen for controlling the VR interaction equipment as green when receiving correct signal feedback information, and displaying the frame position of the display screen for controlling the VR interaction equipment as red when receiving wrong signal feedback information.

Preferably, the motion capture module further comprises a material module, wherein the material module stores a human body joint point bitmap for replacing the image of the human body in the motion video.

A video teaching method based on VR interaction comprises the following steps:

a teacher and students in teaching can remotely wear VR interactive equipment;

actions and voice of a teacher in the teaching process can be processed and transmitted to VR interaction equipment of students;

the action and the pronunciation of student in the learning process can be transmitted to teacher's VR interactive device through handling.

Preferably, further comprising:

when the teacher VR interactive equipment and the student VR interactive equipment receive the feedback information at the same time, the two VR interactive equipment are communicated, so that the teacher VR interactive equipment and the student VR interactive equipment can realize data interaction with each other;

the motion data of teachers and students can be changed into point position dynamic graphs at joints;

when the point location dynamic images of the joints of the teacher and the students are compared consistently, correct signals are sent back to the VR interaction equipment, and when the point location dynamic images are not compared consistently, wrong signals are sent back to the VR interaction equipment.

Preferably, further comprising: when the VR interaction equipment receives the correct signal feedback information, the frame position of the display screen for controlling the VR interaction equipment is displayed as green by the warning module, and when the wrong signal feedback information is received, the frame position of the display screen for controlling the VR interaction equipment is displayed as red by the warning module.

Compared with the prior art, the invention has the advantages that:

when the student wears the VR helmet and finishes interactive butt joint with a teacher, the student can simulate learning according to images in the VR helmet display screen, the action video can be sent to the processing server for processing in the learning process, the action video is changed into a joint point location dynamic map, the joint point location dynamic map of the student can be compared with the joint point location dynamic map of the teacher, when the action video is inconsistent with the action video, the frame of the VR helmet display screen is displayed in red to remind the teacher and the student, and the action of the student is in a problem in the learning process, so that the teacher can correct the student in time, the VR remote teaching function of sports teaching is realized, and in the process, the learning efficiency of the student can be greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of a video teaching system based on VR interaction in accordance with the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention will be more clearly and clearly defined.

Referring to fig. 1, the present invention provides a video teaching system based on VR interaction, which includes the following components: the system comprises a video teaching terminal, VR interactive equipment, a teaching monitoring terminal and a processing server, wherein the VR interactive equipment is a VR helmet;

the video teaching terminal is used for acquiring the actions and voice of the teacher in the teaching process and transmitting the action and voice data to the processing server; VR interaction equipment can be worn on the heads of teachers and students and is used for video and voice interaction between the teachers and the students; the teaching monitoring terminal is used for acquiring actions and voice of students in the learning process and transmitting the actions and voice data to the processing server; and the processing server is used for receiving the action and voice data of the teacher and the students, performing standard processing on the data and feeding the data back to the VR interactive equipment.

In this embodiment, the processing server includes the following components: the system comprises a data interaction module, a personnel feedback information module, a motion capture module, a comparison module and a control module;

the data interaction module is used for processing data receiving and transmitting among the server, the video teaching terminal and the teaching monitoring terminal; the staff feedback information module is used for receiving feedback information of the teacher VR interactive equipment and feedback information of the student VR interactive equipment, and communicating the two VR interactive equipment if the feedback information of the teacher VR interactive equipment and the feedback information of the student VR interactive equipment are received at the same time, so that the teacher VR interactive equipment and the student VR interactive equipment can realize data interaction with each other; the motion capture module is used for processing motion data of the teacher and the students, performing punctuation on joints of the teacher and the students and converting the motion data into a point location map of the joints; the comparison module is used for comparing point position location images of joints of teachers and students, when the comparison is consistent, correct signals are sent to the VR interaction equipment, when the comparison is inconsistent, wrong signals are sent to the VR interaction equipment, and the data interaction module, the personnel feedback information module, the action capture module and the comparison module are all connected with the control module.

In this embodiment, the video teaching terminal and the teaching monitoring terminal both include a motion capture camera, and the motion capture camera is used for shooting the motions of teachers and students and sending motion videos and voices to the processing server.

In this embodiment, the VR interaction device includes: the device comprises a first display module, a second display module and a warning module;

the first display module is used for sending action videos of teachers and students to a display screen of the VR interaction equipment; the second display module is used for sending the point location dynamic images at the joints in the action process of the teacher and the students to a display screen of the VR interactive equipment; and the warning module is used for receiving the feedback signal sent by the comparison module, displaying the frame position of the display screen for controlling the VR interaction equipment as green when receiving correct signal feedback information, and displaying the frame position of the display screen for controlling the VR interaction equipment as red when receiving wrong signal feedback information.

In this embodiment, the motion capture module further includes a material module, and the material module stores a human body joint point bitmap for replacing an image of a person in the motion video.

A video teaching method based on VR interaction comprises the following steps: a teacher and students in teaching can remotely wear VR interactive equipment; actions and voice of a teacher in the teaching process can be processed and transmitted to VR interaction equipment of students; the action and the pronunciation of student in the learning process can be transmitted to teacher's VR interactive device through handling.

In this embodiment, when receiving feedback information at the same time, the teacher VR interaction device and the student VR interaction devices communicate with each other, so that data interaction between the teacher VR interaction device and the student VR interaction devices can be realized; the motion data of teachers and students can be changed into point position dynamic graphs at joints; when the point location dynamic images of the joints of the teacher and the students are compared consistently, correct signals are sent back to the VR interaction equipment, and when the point location dynamic images are not compared consistently, wrong signals are sent back to the VR interaction equipment.

In this embodiment, when the VR interaction device receives the correct signal feedback information, the warning module displays the frame position of the display screen controlling the VR interaction device as green, and when the incorrect signal feedback information is received, the warning module displays the frame position of the display screen controlling the VR interaction device as red.

When yoga teacher teaches wearing the VR helmet, the action capture camera can send its action and pronunciation to processing server, when the student wears the VR helmet and accomplish mutual butt joint with the teacher, the student can imitate the study according to the image in the VR helmet display screen, its action video can send to processing server and handle in the learning process, make its action video become joint department point location kinematism, student's joint department point kinematism can contrast with teacher's joint department point kinematism, when inconsistent, VR helmet display screen frame will show for red, remind teacher and student, the action of student appears the problem in learning process, thereby make the teacher can in time correct the student.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, various changes or modifications may be made by the patentees within the scope of the appended claims, and within the scope of the invention, as long as they do not exceed the scope of the invention described in the claims.

Claims (8)

1. A video teaching system based on VR interaction, comprising the following components:

a video teaching terminal, VR interactive equipment, a teaching monitoring terminal and a processing server,

the video teaching terminal is used for acquiring the actions and voice of the teacher in the teaching process and transmitting the action and voice data to the processing server;

the VR interaction equipment can be worn on the heads of the teacher and the students and is used for the interaction of videos and voices between the teacher and the students;

the teaching monitoring terminal is used for acquiring actions and voice of students in the learning process and transmitting the actions and voice data to the processing server;

and the processing server is used for receiving the action and voice data of teachers and students, performing standard processing on the data and feeding the data back to the VR interactive equipment.

2. The VR interaction-based video teaching system of claim 1 wherein the processing server includes the following components: the system comprises a data interaction module, a personnel feedback information module, a motion capture module, a comparison module and a control module;

the data interaction module is used for processing data receiving and transmitting among the server, the video teaching terminal and the teaching monitoring terminal;

the staff feedback information module is used for receiving feedback information of the teacher VR interactive equipment and feedback information of the student VR interactive equipment, and communicating the two VR interactive equipment if the feedback information of the teacher VR interactive equipment and the feedback information of the student VR interactive equipment are received at the same time, so that the teacher VR interactive equipment and the student VR interactive equipment can realize data interaction with each other;

the motion capture module is used for processing motion data of the teacher and the students, performing punctuation on joints of the teacher and the students and converting the motion data into a point location map of the joints;

the comparison module is used for comparing point location dynamic images of joints of teachers and students, and when the point location dynamic images are compared consistently, sending correct signals to the VR interaction equipment, and when the point location dynamic images are not compared consistently, sending error signals to the VR interaction equipment; the data interaction module, the personnel feedback information module, the motion capture module and the comparison module are all connected with the control module.

3. The VR interaction-based video teaching system of claim 2, wherein: the video teaching terminal and the teaching monitoring terminal both comprise motion capture cameras, and the motion capture cameras are used for shooting the motions of teachers and students and sending motion videos and voices to the processing server.

4. The VR interaction-based video teaching system of claim 3 wherein the VR interaction device includes: the device comprises a first display module, a second display module and a warning module;

the first display module is used for sending action videos of teachers and students to a display screen of the VR interaction equipment;

the second display module is used for sending the point location dynamic images at the joints in the action process of the teacher and the students to a display screen of the VR interactive equipment;

and the warning module is used for receiving the feedback signal sent by the comparison module, displaying the frame position of the display screen for controlling the VR interaction equipment as green when receiving correct signal feedback information, and displaying the frame position of the display screen for controlling the VR interaction equipment as red when receiving wrong signal feedback information.

5. The VR interaction-based video teaching system of claim 2, wherein: the motion capture module further comprises a material module, wherein the material module stores a human body joint point bitmap for replacing images of people in the motion video.

6. A video teaching method based on VR interaction is characterized by comprising the following steps:

a teacher and students in teaching can remotely wear VR interactive equipment;

actions and voice of a teacher in the teaching process can be processed and transmitted to VR interaction equipment of students;

the action and the pronunciation of student in the learning process can be transmitted to teacher's VR interactive device through handling.

7. The VR interaction-based video teaching method of claim 6, further comprising:

when the teacher VR interactive equipment and the student VR interactive equipment receive the feedback information at the same time, the two VR interactive equipment are communicated, so that the teacher VR interactive equipment and the student VR interactive equipment can realize data interaction with each other;

the motion data of teachers and students can be changed into point position dynamic graphs at joints;

when the point location dynamic images of the joints of the teacher and the students are compared consistently, correct signals are sent back to the VR interaction equipment, and when the point location dynamic images are not compared consistently, wrong signals are sent back to the VR interaction equipment.

8. The VR interaction-based video teaching method of claim 7, further comprising: when the VR interaction equipment receives the correct signal feedback information, the frame position of the display screen for controlling the VR interaction equipment is displayed as green by the warning module, and when the wrong signal feedback information is received, the frame position of the display screen for controlling the VR interaction equipment is displayed as red by the warning module.

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