CN109284008B - Split type VR system - Google Patents

Abstract

The invention discloses a split VR system, which comprises a touch screen, a pre-detection module, a pre-detection information processing module, a processing information classification module, a main controller, an information storage cloud, an information processing module, an information sending module, a camera, a content providing module, an information reminding module, VR wearable equipment, an automatic control shutdown module, a positioning module, a physiological information monitoring module, a dangerous condition judging module, an alarm module and an emergency shutdown module, wherein the touch screen is arranged on the front side of the information storage cloud; the physiological information monitoring module provided by the invention can monitor the physical condition of the user in real time when the user uses the VR wearable device, so that accidents caused by discomfort of the user are effectively reduced, meanwhile, the physical condition of the user can be detected before the system is used, the occurrence of the condition of discomfort of the user caused by the improper content is effectively avoided, and the adverse reaction of the user when the system is used is further reduced.

Description

Split type VR system

Technical Field

The invention belongs to the technical field of VR, relates to a VR technology, and particularly relates to a split type VR system.

Background

The VR system is a virtual reality system, which utilizes a computer to simulate a virtual world in a three-dimensional space, provides simulation of senses of a user such as vision, hearing, touch and the like, enables the user to see the situation as if the user is, can observe objects in the three-dimensional space in time without limitation, and has a wide application range.

However, the current VR system is mostly used in various types of VR gymnasiums, and the content provided by the VR system is mostly terrorist, thriller or thrill games and images, the physiological status of the user cannot be monitored before the VR system is used, and the content is played according to the physiological bearing capacity, which easily causes the user to generate strong discomfort when the VR system is used, and the existing VR system does not monitor the physiological status of the user when the VR system is used, and the user has physiological reactions such as hypertension, tachycardia and the like caused by frightening during the use of the VR system, which easily causes accidents, and brings certain influence to the use of the VR system.

Disclosure of Invention

The invention aims to provide a split VR system.

The technical problem to be solved by the invention is as follows:

(1) how to better and actually play the content suitable for the physiological state of the user according to the physiological state of the user;

(2) how to better ensure the safety of the user in the process of using the system;

the purpose of the invention can be realized by the following technical scheme;

a split VR system comprises a touch screen, a pre-detection module, a pre-detection information processing module, a processing information classification module, a main controller, an information storage cloud, an information processing module, an information sending module, a camera, a content providing module, an information reminding module, VR wearable equipment, an automatic shutdown module, a positioning module, a physiological information monitoring module, a dangerous condition judging module, an alarm module and an emergency shutdown module;

wherein the pre-detection module is in communication connection with the pre-detection information processing module, the processing information classification module is in communication connection with the touch screen, the touch screen is in communication connection with the main controller, the information storage cloud is in communication connection with the touch screen, the information sending module is in communication connection with the information storage cloud, the camera is in communication connection with the main controller, the information reminding module is in communication connection with the camera, the content providing module is in communication connection with the main controller, the VR wearing equipment is in wireless connection with the content providing module, the automatic shutdown module is in wired connection with the VR wearing equipment, the positioning module is in wired connection with the VR wearing equipment, the physiological information monitoring module is in wired connection with the VR wearing equipment, and the danger condition judging module is in communication connection with the physiological information monitoring module, the dangerous condition judgment module is in communication connection with the emergency shutdown module;

the content providing module is used for providing image resources for the VR wearable device, the content in the content providing module is classified, and the specific classification process is as follows:

the method comprises the following steps: the content in the content providing module is divided into two categories of games and films, wherein the games are marked as G, and the films are marked as M;

step two: the G groups are: terrorism and entertainment, wherein the terrorism is marked as j and the entertainment is marked as y;

step three: the M categories are: the horror movies are marked as k, the conventional movies are marked as f, and the animation movies are marked as d;

the pre-detection module consists of a body temperature pre-detection module, a heartbeat pre-detection module and a reaction detection module, the pre-detection module is used for monitoring the physiological condition of a user before using the system, and the specific detection process is as follows:

the method comprises the following steps: the user monitors before using the system on the pre-detection module;

step two: the body temperature pre-detection module detects the body temperature of a user firstly and marks the body temperature as A;

step three: the blood pressure detection module detects the blood pressure value of the user again, and the blood pressure value is marked as B;

step four: the reaction detection module detects the reaction speed of the user, and marks the reaction speed as C, and the specific detection process of the reaction detection module is as follows:

s1: the reaction detection module sends a control instruction to the touch screen, and after the touch screen has prompt content of 'please quickly click a flickering point', a flickering light spot appears on the touch screen at regular time;

s2: when the detected person clicks the flickering point, the reaction detection module records the time difference between the point appearing and the point clicked by the detected person, the time is marked as S, and the appearing frequency of the flickering light spot is marked as F;

s3: adding the time S of clicking the light spots for multiple times to obtain a total time value M of the clicked light spots;

s4: obtaining the reaction time C of the detected person by the formula M/F ═ C;

the processing information classification module is used for classifying the information processed by the detection information processing module, and playing the content meeting the user pre-detection information in the content providing module on the VR wearable device according to classification, and the specific recommendation process is as follows:

the method comprises the following steps: when the value A, the value B and the value C in the preview information of the user are within a preset range value and a preset range value respectively, the user can freely select the playing content on the VR wearable device through the touch screen;

step two: when the value A, the value B and the value C in the preview information of the user are within a preset range value and not within a preset range value, the user can select the contents contained in f and d in the M classes in the content providing module through the touch screen for experience;

step three: when the value A, the value B and the value C in the preview information of the user are within a preset range value and not within a preset range value, the user can select any one of the M types of movies in the content providing module through the touch screen for experience;

when the A value, the B value and the C value in the pre-detection information for the user are not in the preset range value, the user can not use the system;

the physiological information monitoring module consists of a heartbeat monitoring module, a blood pressure monitoring module, a body temperature monitoring module and a gyroscope monitoring module, wherein the heartbeat monitoring module is used for monitoring the heartbeat of a user, the blood pressure monitoring module is used for monitoring the blood pressure of the user, the body temperature monitoring module is used for monitoring the body temperature of the user, and the gyroscope monitoring module is used for monitoring the body posture of the user;

the camera can shoot the image when the user uses the VR system in real time to transmit the image data to dangerous situation decision module, the state of crouching and lying when the user uses the VR system can be monitored to the camera, gyroscope monitoring module also can be with monitoring data transmission to defeated dangerous situation decision module in, the human gesture that gyroscope monitoring module can monitor includes: standing, lying, crouching or lying down;

the dangerous condition judgment module is used for judging the physiological condition of the user, and the specific judgment process is as follows:

the method comprises the following steps: the user wears the VR wearable device and the physiological information monitoring module on the body;

step two: after the content providing module supplies content to the VR wearable device, the physiological information monitoring module starts to monitor the heartbeat, the blood pressure, the body temperature and the body posture of a user, and transmits the monitored data to the dangerous condition judging module in real time;

step three: marking the heartbeat of a user as X, the blood pressure as Y and the body temperature as Z, and monitoring the body posture of the user by the gyroscope monitoring module and the camera, wherein the monitored body posture comprises standing, squatting, lying down or lying down;

step four: the risk determination module determines the physiological condition of the user as a risk when the following occurs, specifically as follows:

s1, when the body posture of the user is standing, both the X, Y and the Z value of the user exceed the preset value for preset time;

s2: when the body posture of the user is in the squatting state, any two of X, Y and Z values of the user exceed a preset value for preset time;

s3: when the body posture of the user lies down, any one of X, Y and the Z value of the user exceeds a preset value for a preset time;

step five: when the danger judging module judges that the physical condition of the user is in a dangerous state, the emergency shutdown module controls the main controller to cut off the connection between the content providing module and the VR wearable equipment, so that the VR wearable equipment stops operating;

step six: when the body posture of the user lies flat and any one of X, Y and the Z value of the user exceeds a preset value for a preset time, the alarm module sends an alarm to an external medical unit;

the camera is used for shooting images, the camera is installed in four corner positions of a manager limited area, the information reminding module is used for reminding a user not to cross the limited position, and the specific reminding process is as follows:

the method comprises the following steps: the positioning module is arranged on the VR wearable equipment, and when a user starts to move by using the VR wearable equipment, the positioning module transmits a positioning signal in real time;

step two: when the user moves, the positioning module sends the positioning signal back to the main controller in real time, and the main controller judges the position information sent back by the positioning module;

step three: when a user wears the VR wearable equipment and starts to move, the camera arranged at the corner position of the limiting area starts to shoot images, and the shot images are transmitted back to the main controller;

step four: when the positioning information sent by the positioning module exceeds a preset value, the information reminding module sends out reminding information, and the reminding information is transmitted to an image person thrown out by the VR wearable device through the content providing module to remind the user that the VR wearable device is out of range, and when the continuous reminding times reach the preset value, the main controller controls the VR wearable device to stop running through the emergency shutdown module;

step five: when the user crosses the limit position in the image shot by the camera, the information reminding module also sends out reminding information, the reminding information is conveyed to the image thrown by the VR wearable device through the content providing module to remind the user that the image is out of range, and when the continuous reminding times reach the preset value, the main controller controls the VR wearable device to stop running through the emergency shutdown module.

Furthermore, the automatic control is shut down the module and is installed on VR wearing equipment, the automatic control is shut down the module and is used for letting the user control by oneself the pause and the broadcast of VR image.

Furthermore, the content of the alarm information sent by the alarm module comprises position information and time information.

Furthermore, the content shot by the camera can be transmitted to the information storage cloud, and the content shot by the camera and received by the information storage cloud can be transmitted to the content processing module again.

Further, the information sending module is used for sending the video information processed by the content processing module to the mobile terminal of the user.

The invention has the beneficial effects that:

(1) according to the invention, through the pre-detection module, the physiological condition of the user can be detected before the user uses the system, and the image which is more in accordance with the physiological condition of the user is provided for the user according to the detection condition and is released on the VR wearable device, so that the condition that the body of the user is uncomfortable due to improper released content is effectively avoided, the accident caused by adverse reaction generated after the projection system is used by the person with the body discomfort is also effectively avoided, and the safety of the system is improved.

(2) Through the physiological information monitoring module who sets up, can carry out real-time control to user's physiological condition when the user uses this system, the effectual user that has reduced takes place untimely at the use system in-process body, and the harm that the VR image continued to play and brought for the user also lets the user can not receive big damage again, further promotion the security of this system.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention.

Detailed Description

As shown in fig. 1, a split VR system includes a touch screen, a pre-check module, a pre-check information processing module, a processed information classification module, a main controller, an information storage cloud, an information processing module, an information sending module, a camera, a content providing module, an information reminding module, VR wearable equipment, an automatic shutdown module, a positioning module, a physiological information monitoring module, a dangerous condition determining module, an alarm module, and an emergency shutdown module;

wherein the pre-detection module is in communication connection with the pre-detection information processing module, the processing information classification module is in communication connection with the touch screen, the touch screen is in communication connection with the main controller, the information storage cloud is in communication connection with the touch screen, the information sending module is in communication connection with the information storage cloud, the camera is in communication connection with the main controller, the information reminding module is in communication connection with the camera, the content providing module is in communication connection with the main controller, the VR wearing equipment is in wireless connection with the content providing module, the automatic shutdown module is in wired connection with the VR wearing equipment, the positioning module is in wired connection with the VR wearing equipment, the physiological information monitoring module is in wired connection with the VR wearing equipment, and the danger condition judging module is in communication connection with the physiological information monitoring module, the dangerous condition judgment module is in communication connection with the emergency shutdown module;

the content providing module is used for providing image resources for the VR wearable device, the content in the content providing module is classified, and the specific classification process is as follows:

the method comprises the following steps: the content in the content providing module is divided into two categories of games and films, wherein the games are marked as G, and the films are marked as M;

step two: the G groups are: terrorism and entertainment, wherein the terrorism is marked as j and the entertainment is marked as y;

step three: the M categories are: the horror movies are marked as k, the conventional movies are marked as f, and the animation movies are marked as d;

the pre-detection module consists of a body temperature pre-detection module, a heartbeat pre-detection module and a reaction detection module, the pre-detection module is used for monitoring the physiological condition of a user before using the system, and the specific detection process is as follows:

the method comprises the following steps: the user monitors before using the system on the pre-detection module;

step two: the body temperature pre-detection module detects the body temperature of a user firstly and marks the body temperature as A;

step three: the blood pressure detection module detects the blood pressure value of the user again, and the blood pressure value is marked as B;

step four: the reaction detection module detects the reaction speed of the user, and marks the reaction speed as C, and the specific detection process of the reaction detection module is as follows:

s1: the reaction detection module sends a control instruction to the touch screen, and after the touch screen has prompt content of 'please quickly click a flickering point', a flickering light spot appears on the touch screen at regular time;

s2: when the detected person clicks the flickering point, the reaction detection module records the time difference between the point appearing and the point clicked by the detected person, the time is marked as S, and the appearing frequency of the flickering light spot is marked as F;

s3: adding the time S of clicking the light spots for multiple times to obtain a total time value M of the clicked light spots;

s4: obtaining the reaction time C of the detected person by the formula M/F ═ C;

the processing information classification module is used for classifying the information processed by the detection information processing module, and playing the content meeting the user pre-detection information in the content providing module on the VR wearable device according to classification, and the specific recommendation process is as follows:

the method comprises the following steps: when the value A, the value B and the value C in the preview information of the user are within a preset range value and a preset range value respectively, the user can freely select the playing content on the VR wearable device through the touch screen;

step two: when the value A, the value B and the value C in the preview information of the user are within a preset range value and not within a preset range value, the user can select the contents contained in f and d in the M classes in the content providing module through the touch screen for experience;

step three: when the value A, the value B and the value C in the preview information of the user are within a preset range value and not within a preset range value, the user can select any one of the M types of movies in the content providing module through the touch screen for experience;

when the A value, the B value and the C value in the pre-detection information for the user are not in the preset range value, the user can not use the system;

the physiological information monitoring module consists of a heartbeat monitoring module, a blood pressure monitoring module, a body temperature monitoring module and a gyroscope monitoring module, wherein the heartbeat monitoring module is used for monitoring the heartbeat of a user, the blood pressure monitoring module is used for monitoring the blood pressure of the user, the body temperature monitoring module is used for monitoring the body temperature of the user, and the gyroscope monitoring module is used for monitoring the body posture of the user;

the camera can shoot the image when the user uses the VR system in real time to transmit the image data to dangerous situation decision module, the state of crouching and lying when the user uses the VR system can be monitored to the camera, gyroscope monitoring module also can be with monitoring data transmission to defeated dangerous situation decision module in, the human gesture that gyroscope monitoring module can monitor includes: standing, lying, crouching or lying down;

the dangerous condition judgment module is used for judging the physiological condition of the user, and the specific judgment process is as follows:

the method comprises the following steps: the user wears the VR wearable device and the physiological information monitoring module on the body;

step two: after the content providing module supplies content to the VR wearable device, the physiological information monitoring module starts to monitor the heartbeat, the blood pressure, the body temperature and the body posture of a user, and transmits the monitored data to the dangerous condition judging module in real time;

step three: marking the heartbeat of a user as X, the blood pressure as Y and the body temperature as Z, and monitoring the body posture of the user by the gyroscope monitoring module and the camera, wherein the monitored body posture comprises standing, squatting, lying down or lying down;

step four: the risk determination module determines the physiological condition of the user as a risk when the following occurs, specifically as follows:

s1, when the body posture of the user is standing, both the X, Y and the Z value of the user exceed the preset value for preset time;

s2: when the body posture of the user is in the squatting state, any two of X, Y and Z values of the user exceed a preset value for preset time;

s3: when the body posture of the user lies down, any one of X, Y and the Z value of the user exceeds a preset value for a preset time;

step five: when the danger judging module judges that the physical condition of the user is in a dangerous state, the emergency shutdown module controls the main controller to cut off the connection between the content providing module and the VR wearable equipment, so that the VR wearable equipment stops operating;

step six: when the body posture of the user lies flat and any one of X, Y and the Z value of the user exceeds a preset value for a preset time, the alarm module sends an alarm to an external medical unit;

the camera is used for shooting images, the camera is installed in four corner positions of a manager limited area, the information reminding module is used for reminding a user not to cross the limited position, and the specific reminding process is as follows:

the method comprises the following steps: the positioning module is arranged on the VR wearable equipment, and when a user starts to move by using the VR wearable equipment, the positioning module transmits a positioning signal in real time;

step two: when the user moves, the positioning module sends the positioning signal back to the main controller in real time, and the main controller judges the position information sent back by the positioning module;

step three: when a user wears the VR wearable equipment and starts to move, the camera arranged at the corner position of the limiting area starts to shoot images, and the shot images are transmitted back to the main controller;

step four: when the positioning information sent by the positioning module exceeds a preset value, the information reminding module sends out reminding information, and the reminding information is transmitted to an image person thrown out by the VR wearable device through the content providing module to remind the user that the VR wearable device is out of range, and when the continuous reminding times reach the preset value, the main controller controls the VR wearable device to stop running through the emergency shutdown module;

step five: when the user crosses the limit position in the image shot by the camera, the information reminding module also sends out reminding information, the reminding information is conveyed to the image thrown by the VR wearable device through the content providing module to remind the user that the image is out of range, and when the continuous reminding times reach the preset value, the main controller controls the VR wearable device to stop running through the emergency shutdown module.

The automatic control shutdown module is arranged on the VR wearable device and is used for enabling a user to control the suspension and playing of the VR image; the content of alarm information sent by the alarm module comprises position information and time information; the content shot by the camera is transmitted to an information storage cloud, and the content shot by the camera and received in the information storage cloud is transmitted to a content processing module again; the information sending module is used for sending the video information processed by the content processing module to the mobile terminal of the user.

A split VR system, before using the system, the user needs to check the physiological status by using a pre-check module, the body temperature pre-check module, the blood pressure monitoring module and the reaction monitoring module in the pre-check module can respectively detect the body temperature, the blood pressure and the reaction speed of the user, and send the monitoring information to a pre-check information processing module for processing, the processed information can be transmitted to a processing and classifying module for classifying, the system can provide the content matched with the physiological status of the user according to the physiological status of the user, the user can wear VR wearable equipment on the body after selecting the content through a touch screen, after wearing the VR wearable equipment, the user can send a control instruction to enable the content providing module to transmit the content to the VR wearable equipment for playing, in the content playing process, the physiological status of the user can be monitored by the physiological information monitoring module all the time, the heartbeat monitoring module can monitor the heartbeat of a user, the blood pressure monitoring module can monitor the blood pressure of the user, the body temperature monitoring wood module can monitor the body posture of the user, the gyroscope monitoring module can monitor the body posture of the user, the camera can simultaneously detect the body posture of the user, the danger condition judging module can analyze information transmitted by the camera, the squatting posture of the human body is judged through the change of the height of the human body in an image transmitted by the camera, the physiological information monitoring module can send monitoring data to the danger condition judging module in real time while monitoring, the danger condition judging module can judge whether the user is in a danger state according to the transmitted information, when the danger condition judging module judges that the user is in the danger state, the emergency shutdown module can cut off the connection between the content providing module and the VR wearable equipment, so that the VR wearable equipment stops releasing content, when a user uses the system, the camera records the process of using the system, the process is uploaded to the information storage cloud end after the use is finished, the processed video is sent to the mobile equipment of the user through the information sending module after the use is finished, and the user can know the state of using the VR system;

the invention has the following beneficial effects:

(1) according to the invention, through the pre-detection module, the physiological condition of the user can be detected before the user uses the system, and the image which is more in accordance with the physiological condition of the user is provided for the user according to the detection condition and is released on the VR wearable device, so that the condition that the body of the user is uncomfortable due to improper released content is effectively avoided, the accident caused by adverse reaction generated after the projection system is used by the person with the body discomfort is also effectively avoided, and the safety of the system is improved.

(2) Through the physiological information monitoring module who sets up, can carry out real-time control to user's physiological condition when the user uses this system, the effectual user that has reduced takes place untimely at the use system in-process body, and the harm that the VR image continued to play and brought for the user also lets the user can not receive big damage again, further promotion the security of this system.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (5)

1. A split type VR system is characterized by comprising a touch screen, a pre-detection module, a pre-detection information processing module, a processing information classification module, a main controller, an information storage cloud, an information processing module, an information sending module, a camera, a content providing module, an information reminding module, VR wearable equipment, an automatic control shutdown module, a positioning module, a physiological information monitoring module, a dangerous condition judging module, an alarm module and an emergency shutdown module;

wherein the pre-detection module is in communication connection with the pre-detection information processing module, the processing information classification module is in communication connection with the touch screen, the touch screen is in communication connection with the main controller, the information storage cloud is in communication connection with the touch screen, the information sending module is in communication connection with the information storage cloud, the camera is in communication connection with the main controller, the information reminding module is in communication connection with the camera, the content providing module is in communication connection with the main controller, the VR wearing equipment is in wireless connection with the content providing module, the automatic shutdown module is in wired connection with the VR wearing equipment, the positioning module is in wired connection with the VR wearing equipment, the physiological information monitoring module is in wired connection with the VR wearing equipment, and the danger condition judging module is in communication connection with the physiological information monitoring module, the dangerous condition judgment module is in communication connection with the emergency shutdown module;

the content providing module is used for providing image resources for the VR wearable device, the content in the content providing module is classified, and the specific classification process is as follows:

the method comprises the following steps: the content in the content providing module is divided into two categories of games and films, wherein the games are marked as G, and the films are marked as M;

step two: the G groups are: terrorism and entertainment, wherein the terrorism is marked as j and the entertainment is marked as y;

step three: the M categories are: the horror movies are marked as k, the conventional movies are marked as f, and the animation movies are marked as d;

the pre-detection module consists of a body temperature pre-detection module, a heartbeat pre-detection module and a reaction detection module, the pre-detection module is used for monitoring the physiological condition of a user before using the system, and the specific detection process is as follows:

the method comprises the following steps: the user monitors before using the system on the pre-detection module;

step two: the body temperature pre-detection module detects the body temperature of a user firstly and marks the body temperature as A;

step three: the blood pressure detection module detects the blood pressure value of the user again, and the blood pressure value is marked as B;

step four: the reaction detection module detects the reaction speed of the user, and marks the reaction speed as C, and the specific detection process of the reaction detection module is as follows:

s1: the reaction detection module sends a control instruction to the touch screen, and after the touch screen has prompt content of 'please quickly click a flickering point', a flickering light spot appears on the touch screen at regular time;

s2: when the detected person clicks the flickering point, the reaction detection module records the time difference between the point appearing and the point clicked by the detected person, the time is marked as S, and the appearing frequency of the flickering light spot is marked as F;

s3: adding the time S of clicking the light spots for multiple times to obtain a total time value M of the clicked light spots;

s4: obtaining the reaction time C of the detected person by the formula M/F ═ C;

the processing information classification module is used for classifying the information processed by the detection information processing module, and playing the content meeting the user pre-detection information in the content providing module on the VR wearable device according to classification, and the specific recommendation process is as follows:

the method comprises the following steps: when the value A, the value B and the value C in the preview information of the user are within a preset range value and a preset range value respectively, the user can freely select the playing content on the VR wearable device through the touch screen;

step two: when the value A, the value B and the value C in the preview information of the user are within a preset range value and not within a preset range value, the user can select the contents contained in f and d in the M classes in the content providing module through the touch screen for experience;

step three: when the value A, the value B and the value C in the preview information of the user are within a preset range value and not within a preset range value, the user can select any one of the M types of movies in the content providing module through the touch screen for experience;

when the A value, the B value and the C value in the pre-detection information for the user are not in the preset range value, the user can not use the system;

the physiological information monitoring module consists of a heartbeat monitoring module, a blood pressure monitoring module, a body temperature monitoring module and a gyroscope monitoring module, wherein the heartbeat monitoring module is used for monitoring the heartbeat of a user, the blood pressure monitoring module is used for monitoring the blood pressure of the user, the body temperature monitoring module is used for monitoring the body temperature of the user, and the gyroscope monitoring module is used for monitoring the body posture of the user;

the camera can shoot the image when the user uses the VR system in real time to transmit the image data to dangerous situation decision module, the state of crouching and lying when the user uses the VR system can be monitored to the camera, gyroscope monitoring module also can be with monitoring data transmission to defeated dangerous situation decision module in, the human gesture that gyroscope monitoring module can monitor includes: standing, lying, crouching or lying down;

the dangerous condition judgment module is used for judging the physiological condition of the user, and the specific judgment process is as follows:

the method comprises the following steps: the user wears the VR wearable device and the physiological information monitoring module on the body;

step two: after the content providing module supplies content to the VR wearable device, the physiological information monitoring module starts to monitor the heartbeat, the blood pressure, the body temperature and the body posture of a user, and transmits the monitored data to the dangerous condition judging module in real time;

step three: marking the heartbeat of a user as X, the blood pressure as Y and the body temperature as Z, and monitoring the body posture of the user by the gyroscope monitoring module and the camera, wherein the monitored body posture comprises standing, squatting, lying down or lying down;

step four: the risk determination module determines the physiological condition of the user as a risk when the following occurs, specifically as follows:

s1, when the body posture of the user is standing, both the X, Y and the Z value of the user exceed the preset value for preset time;

s2: when the body posture of the user is in the squatting state, any two of X, Y and Z values of the user exceed a preset value for preset time;

s3: when the body posture of the user lies down, any one of X, Y and the Z value of the user exceeds a preset value for a preset time;

step five: when the danger judging module judges that the physical condition of the user is in a dangerous state, the emergency shutdown module controls the main controller to cut off the connection between the content providing module and the VR wearable equipment, so that the VR wearable equipment stops operating;

step six: when the body posture of the user lies flat and any one of X, Y and the Z value of the user exceeds a preset value for a preset time, the alarm module sends an alarm to an external medical unit;

the camera is used for shooting images, the camera is installed in four corner positions of a manager limited area, the information reminding module is used for reminding a user not to cross the limited position, and the specific reminding process is as follows:

the method comprises the following steps: the positioning module is arranged on the VR wearable equipment, and when a user starts to move by using the VR wearable equipment, the positioning module transmits a positioning signal in real time;

step two: when the user moves, the positioning module sends the positioning signal back to the main controller in real time, and the main controller judges the position information sent back by the positioning module;

step three: when a user wears the VR wearable equipment and starts to move, the camera arranged at the corner position of the limiting area starts to shoot images, and the shot images are transmitted back to the main controller;

step four: when the positioning information sent by the positioning module exceeds a preset value, the information reminding module sends out reminding information, and the reminding information is transmitted to an image person thrown out by the VR wearable device through the content providing module to remind the user that the VR wearable device is out of range, and when the continuous reminding times reach the preset value, the main controller controls the VR wearable device to stop running through the emergency shutdown module;

step five: when the user crosses the limit position in the image shot by the camera, the information reminding module also sends out reminding information, the reminding information is conveyed to the image thrown by the VR wearable device through the content providing module to remind the user that the image is out of range, and when the continuous reminding times reach the preset value, the main controller controls the VR wearable device to stop running through the emergency shutdown module.

2. The split VR system of claim 1, wherein the self-controlled shutdown module is mounted on a VR wearable device, and the self-controlled shutdown module is configured to allow a user to control the pausing and playing of the VR image.

3. The split VR system of claim 1, wherein the alarm content sent by the alarm module includes location information and time information.

4. The split VR system of claim 1, wherein the camera captured content is transmitted to a cloud and the camera captured content received in the cloud is retransmitted to a content processing module.

5. The split VR system of claim 1, wherein the information sending module is configured to send the video information processed by the content processing module to a mobile terminal of a user.

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