CN214851294U - Virtual reality equipment management system based on WIFI6 router - Google Patents

Abstract

The embodiment of the utility model discloses virtual reality equipment management system based on WIFI6 router, this system includes: the system comprises a server, at least one sixth-generation wireless network technology WIFI6 router and at least one virtual reality device; each virtual reality device is respectively connected with a corresponding target WIFI6 router in each WIFI6 router and is used for sending the collected user positioning data to the corresponding target WIFI6 router; each WIFI6 router is connected with the server, and each WIFI6 router is used for sending each user positioning data to the server when being used as a target WIFI6 router; and the server is used for generating user display images according to the user positioning data and sending the user display images to the corresponding virtual reality equipment through the target WIFI6 routers. The problem of use many computers to lead to the cost higher is solved, carry out data transmission through WIFI6 router, avoided unable simultaneous transmission many virtual reality equipment's in the traditional data transmission data, improved data transmission rate.

Description

Virtual reality equipment management system based on WIFI6 router

Technical Field

The embodiment of the utility model provides a virtual reality technique especially relates to a virtual reality equipment management system based on WIFI6 router is related to.

Background

With the development of Augmented Reality (AR) technology and Virtual Reality (VR) technology, more and more AR/VR devices appear in the lives of people. When the AR/VR device is used, each user may be used in a single scene, or a plurality of users may be used in the same scene at the same time. At present, in a VR/AR system used by multiple people, due to the fact that the transmission rate of a traditional WIFI5 or WIFI4 router is low, the function of transmitting data of multiple pieces of virtual reality equipment to a computer or a server through the same router cannot be achieved, users all use independent VR/AR backpack computers, and running programs are on respective computers. However, a plurality of computers are needed for constructing the whole set of system, the cost is high, the user is too heavy to use the computer, the computer generates heat seriously, and the subjective feeling of the user is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a virtual reality equipment management system based on WIFI6 router to the realization is to the high-efficient management of virtual reality equipment, reduce cost.

The embodiment of the utility model provides a virtual reality equipment management system based on WIFI6 router, this system includes: the system comprises a server, at least one sixth-generation wireless network technology WIFI6 router and at least one virtual reality device;

each virtual reality device is respectively connected with a corresponding target WIFI6 router in each WIFI6 router and is used for sending the collected user positioning data to the corresponding target WIFI6 router;

each WIFI6 router is connected with the server, and each WIFI6 router is used for sending each user positioning data to the server when being used as a target WIFI6 router;

and the server is used for generating user display images according to the user positioning data and sending the user display images to the corresponding virtual reality equipment through the target WIFI6 routers.

Further, a virtual reality device, comprising:

and the display device is used for displaying the user display image.

Further, a virtual reality device, comprising: at least one image acquisition device;

and each image acquisition device is used for acquiring user positioning data.

Further, the system further comprises: a remote control device;

and the remote control equipment is connected with the server and the corresponding virtual reality equipment.

Further, the virtual reality device comprises at least one first ultrasonic sensor, and the remote control device comprises at least one second ultrasonic sensor;

and the first ultrasonic sensor and the second ultrasonic sensor are used for acquiring the position information of the remote control equipment.

Further, the system further comprises: at least one virtual image acquisition device and at least one positioning device;

each virtual image acquisition device is connected with the server and is used for acquiring spatial image information;

for each positioning device, determining the position information of the corresponding virtual image acquisition device;

the number of the virtual image acquisition devices is the same as that of the positioning devices.

Further, the system further comprises: at least one display device;

each display device is connected with the corresponding WIFI6 router and is used for displaying target space information, and the target space information is determined according to each space image information and the received user operation instruction.

Further, the virtual reality equipment is intelligent glasses, augmented reality glasses or virtual reality glasses.

The embodiment of the utility model provides a virtual reality equipment management system based on WIFI6 router, this system includes: the system comprises a server, at least one sixth-generation wireless network technology WIFI6 router and at least one virtual reality device; each virtual reality device is respectively connected with a corresponding target WIFI6 router in each WIFI6 router and is used for sending the collected user positioning data to the corresponding target WIFI6 router; each WIFI6 router is connected with the server, and each WIFI6 router is used for sending each user positioning data to the server when being used as a target WIFI6 router; and the server is used for generating user display images according to the user positioning data and sending the user display images to the corresponding virtual reality equipment through the target WIFI6 routers. The virtual reality device selects a corresponding target WIFI6 router from the WIFI6 routers, user positioning data are transmitted to the target WIFI6 router, the target WIFI6 router sends the user positioning data to the server, different virtual reality devices can simultaneously select one target WIFI6 router, the data are transmitted to the same server, and the server uniformly processes the data. The problem of the prior art that the cost is high because a user needs to use a computer independently is solved, and all data can be processed by only one server. Data transmission is carried out by using the WIFI6 router, the problem that data of multiple virtual reality devices cannot be transmitted simultaneously in traditional data transmission is avoided, data are transmitted through the WIFI6 router, and data transmission rate is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of a virtual reality device management system based on a WIFI6 router in the first embodiment of the present invention;

fig. 2 is a schematic structural diagram of another virtual reality device management system based on a WIFI6 router in the first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a virtual reality device management system based on a WIFI6 router in the second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings. It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

In the description of the present application, it is to be understood that the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not necessarily used to describe a particular order or sequence, nor are they to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate. Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Example one

Fig. 1 shows a virtual reality device management system based on a WIFI6 router according to an embodiment of the present application, where the system includes: a server 11, at least one sixth generation wireless networking technology WIFI6 router 12, and at least one virtual reality device 13.

Each virtual reality device 13 is connected with a corresponding target WIFI6 router in each WIFI6 router, and is used for sending the acquired user positioning data to the corresponding target WIFI6 router;

each WIFI6 router 12 is connected with a server, and each WIFI6 router is used for sending each user positioning data to the server when being used as a target WIFI6 router;

and the server 11 is configured to generate a user display image according to each user positioning data, and send the user display image to the corresponding virtual reality device through each target WIFI6 router.

In the present embodiment, the virtual reality device 13 may be specifically understood as a computer device that creates and experiences a virtual world through virtual reality technology. The WIFI6 router 12 may be specifically understood as a router that employs sixth generation wireless communication network technology. The server 11 may be understood as a device for computing services.

In this embodiment, the target WIFI6 router may be specifically understood as one WIFI6 router of each WIFI6 router, and each virtual reality device 13 is correspondingly connected to one target WIFI6 router. User positioning data may be understood in particular as determining six degrees of freedom (6DOF) data of the user's head and hand.

Specifically, the virtual reality device 13 selects a WIFI6 router closest to the WIFI6 router as a corresponding target WIFI6 router, and establishes a communication connection. Each virtual reality device 13 collects user positioning data and sends the data to the corresponding target WIFI6 router. The user positioning data can be acquired by image acquisition devices such as a camera and the like and positioning devices such as ultrasonic waves and electromagnetic waves.

Each WIFI6 router 12 is connected to a server and can communicate at any time. When the WIFI6 router 12 is acting as the target WIFI6 router, if the user location data sent by the virtual reality device 13 is received, the user location data is sent to the server. Target WIFI6 router may be connected to one or more virtual reality devices 13, while enabling the forwarding of user location data sent by multiple virtual reality devices 13.

In this embodiment, the user presentation image may be specifically understood as an image presented to the user by the virtual reality device 13, that is, an image that the user can see through the virtual reality device 13.

The server 11 receives the user positioning data sent by each target WIFI6 router, determines the virtual reality scene determined by the corresponding head-hand posture and position through analysis of each user positioning data, generates a user display image, sends the user display image to the corresponding virtual reality device 13 through the corresponding target WIFI6 router, and displays the user through the virtual reality device 13, so that the function of simulating the scene by the virtual reality device is realized. It should be noted that, the user in the embodiment of the present application refers to a user wearing a virtual reality device.

The target WIFI6 router 12 may receive data uploaded by multiple virtual reality devices 13 simultaneously, and transmit the data to the server 11 with low latency, and receive data downloaded by the server 11 simultaneously, and transmit the data to the virtual reality devices with low latency.

For example, fig. 2 provides a schematic structural diagram of another virtual reality device management system based on a WIFI6 router, where the system includes: at least one WIFI6 router 21, server 22, and at least one virtual reality device 23. As can be seen from the figure, each WIFI6 router 21 is connected to the server 22. One virtual reality device 231 is connected with one target WIFI6 router 211 in each WIFI6 router 21; the virtual reality device 232 and the virtual reality device 233 are connected to one target WIFI6 router 212 in each WIFI6 router 21, and communicate with the server 22 through the target WIFI6 router 212. The connection relationship between the virtual reality device and the target WIFI6 router is only exemplarily illustrated in the drawing, when the remaining WIFI6 router is the target WIFI6 router 211 or the target WIFI6 router 212, the connection relationship is consistent with the above, and the number of the virtual reality devices connected to the target WIFI6 router 211 or the target WIFI6 router 212 is not limited, and only 1 and 2 are taken as examples in the drawing. If other virtual reality devices exist, the connection relation of the virtual reality devices is consistent with the principle of the connection relation of the virtual reality devices.

It should be noted that, in the virtual reality device management system based on the WIFI6 router provided in this embodiment of the present application, each device may be set at different locations, but each device is located in the same local area network, each WIFI6 router is networked by using the wireless network technology Mesh, each virtual reality device is automatically switched to the nearest WIFI6 router, and then data is transmitted to the server through the wired network.

The embodiment of the utility model provides a virtual reality equipment management system based on WIFI6 router, this system includes: the system comprises a server, at least one sixth-generation wireless network technology WIFI6 router and at least one virtual reality device; each virtual reality device is respectively connected with a corresponding target WIFI6 router in each WIFI6 router and is used for sending the collected user positioning data to the corresponding target WIFI6 router; each WIFI6 router is connected with the server, and each WIFI6 router is used for sending each user positioning data to the server when being used as a target WIFI6 router; and the server is used for generating user display images according to the user positioning data and sending the user display images to the corresponding virtual reality equipment through the target WIFI6 routers. The virtual reality device selects a corresponding target WIFI6 router from the WIFI6 routers, user positioning data are transmitted to the target WIFI6 router, the target WIFI6 router sends the user positioning data to the server, different virtual reality devices can simultaneously select one target WIFI6 router, the data are transmitted to the same server, and the server uniformly processes the data. The problem of the prior art that the cost is high because a user needs to use a computer independently is solved, and all data can be processed by only one server. Data transmission is carried out by using the WIFI6 router, the problem that data of multiple virtual reality devices cannot be transmitted simultaneously in traditional data transmission is avoided, data are transmitted through the WIFI6 router, and data transmission rate is greatly improved.

Example two

Fig. 3 is the embodiment of the utility model provides a virtual reality equipment management system's based on WIFI6 router structural schematic diagram who provides. The technical scheme of the embodiment is further refined on the basis of the technical scheme, and specifically mainly comprises the following steps: a server 31, at least one sixth generation wireless networking technology WIFI6 router 32, and at least one virtual reality device 33; virtual reality device 33, including: and a display device 331.

And a display device 331 for displaying the user presentation image.

In the present embodiment, the display device 311 may be specifically understood as a device for displaying information such as images, texts, videos and the like, for example, a display screen, a virtual display screen and the like, and the virtual display screen may be a screen for displaying projected information when projecting. After receiving the user presentation image sent by the server 31 through the target WIFI6 router, the virtual reality device 33 displays the user presentation image to the user through the display device 331.

It should be appreciated that the display device 311 can display not only the user presentation image, but also other information, such as a display console interface. The console interface can download installation applications and select the applications to be started, and can perform basic setting on the virtual reality device, such as connection with wifi, bluetooth, adjustment and display brightness and the like.

Further, the virtual reality device 33 includes: at least one image capture device 332;

each image capturing device 332 is configured to capture user positioning data.

In the present embodiment, the image capture device 332 may be a camera, a video camera, or the like. The image acquisition device 332 captures an aerial image, and determines the position of the virtual reality device 33 relative to the space as user positioning data, thereby realizing the head positioning function. In order to obtain a more accurate positioning result, a plurality of image capturing devices 332 may be used to capture the user positioning data together.

Further, the apparatus further comprises: a remote control device 34;

the remote control device 34 is connected to the server 31 and the corresponding virtual reality device 33.

In this embodiment, the remote control device 34 may be a handle, a remote control, or the like. The virtual reality device 33 is usually configured with a remote control device 34 for performing operations such as scene switching and controlling the virtual devices in the scene. The remote control device 34 is connected with the virtual reality device 33 for information interaction. The remote control device 34 and the virtual reality device 33 may be connected wirelessly or by wire. The user may control the functions of the virtual reality device by manipulating the remote control device 34. The remote control device 34 is connected to the server 31, and can receive control information transmitted from the server. The server 31 sends control information, such as vibrations, to the remote control device 34 based on the user positioning data.

Further, the virtual reality device 33, including at least one first ultrasonic sensor 333, the remote control device, including at least one second ultrasonic sensor 341;

each of the first ultrasonic sensor 333 and the second ultrasonic sensor 341 is configured to acquire position information of the remote control device.

In the present application, the sensor types of the first ultrasonic sensor 333 and the second ultrasonic sensor 341 may be the same or different as long as the position information can be acquired. In the embodiment of the present application, the number of the first ultrasonic sensors 333 is one, the number of the second ultrasonic sensors 341 is three, and the same sensor is taken as an example, the first ultrasonic sensors 333 send ultrasonic signals, and the three second ultrasonic sensors 341 receive the ultrasonic signals, so as to acquire the position information of the remote control device. The ultrasonic signals received by the three second ultrasonic sensors 341 are calculated by a preset algorithm to obtain the position information of the remote control device relative to the virtual reality device. When the virtual reality device 333 is a head-mounted display device, the remote control device is in the hand of the user, and the position of the hand relative to the head can be obtained at this time, and the 6DOF position information of the hand relative to the real space is further determined by combining the head positioning data obtained by the image acquisition device 332. When the number of the first ultrasonic sensor 333 and the second ultrasonic sensor 341 is plural, respectively, plural pieces of position information may be calculated, and then the position information of the remote control apparatus may be calculated by taking a maximum value, a minimum value, an average value, a median, weighted summation, or the like.

Further, the system further comprises: at least one virtual image acquisition device 35 and at least one positioning device 36;

each virtual image acquisition device 35 is connected with the server 31 and used for acquiring spatial image information;

for each positioning device 36, for determining position information of the corresponding virtual image acquisition device 35;

wherein the number of virtual image acquisition devices 35 is the same as the number of positioning devices 36.

In the present embodiment, the virtual image capturing device 35 may be specifically understood as a virtual camera simulating a real camera in a virtual space for image capturing. The spatial image information may be specifically understood as spatial information in a picture displayed by the virtual reality device 33, for example, a monster at a position a in a game scene.

It should be noted that the virtual reality device 33 displays a three-dimensional scene or even a higher-dimensional scene, and in order to sufficiently capture spatial image information at any angle, a plurality of virtual image capturing devices 35 are disposed in the scene. Different virtual image capturing devices 35 can capture spatial image information with different viewing angles and different presentation states.

In this embodiment, the positioning device 36 may be specifically understood as a device for calibrating a certain position, and the positioning device may not have any data processing function and may be any article. The number of positioning devices 36 is the same as the number of virtual image acquisition devices 35. Each pointing device 36 is located with a virtual image capturing device 35, and once the location of the pointing device is determined, the location information of its corresponding virtual image capturing device 35 is correspondingly determined.

Further, the system further comprises: at least one display device 37;

and each display device 37 is connected with the corresponding WIFI6 router 32 and is used for displaying target space information, and the target space information is determined according to each space image information and the received user operation instruction.

In this embodiment, the display device may be specifically understood as a device for displaying information such as images, texts, videos, and the like, for example, a display screen, or a computer device such as a computer, a mobile phone, a tablet computer, and the like, which includes the display screen. The target space information may be specifically understood as image information presented according to a selection of a user.

The display device 27 may display the spatial image information acquired by a certain virtual image acquisition device 35 by default; the spatial image information collected by a certain virtual image collecting device 35 can also be displayed in a targeted manner according to the selection of the user, so that the operation of the user in the virtual reality device can be known. The spatial image information of the plurality of virtual image capturing devices 35 is flexibly switched, and virtual pictures of the virtual image capturing devices at different angles are checked.

It is to be understood that the position and angle of the output virtual image can be changed by adjusting the position and angle of the virtual image pickup device 35. The position and angle of the positioning device can be adjusted as required, and accordingly, the angle and position of the virtual image capturing device 35 are changed. Accordingly, the target space information displayed by the display device is also changed.

The server 31 determines the 6DOF data of the user with respect to the real space from the position information of the remote control device and the user positioning data of the virtual reality device. By analyzing the 6DOF data, aerial image information of each position is determined. Each virtual image collecting device 35 collects the spatial image information of the corresponding position and sends the spatial image information to the server 31, so that the server 31 determines the image corresponding to each position and forms target spatial information, and the target spatial information is issued to the corresponding display device through the WIFI6 router. The operation instruction of the user may instruct the virtual image capturing device 35 as to which position to capture the aerial image information, i.e., whether to change the capturing angle and position, and which angle and position to capture the aerial image information after the change. The WIFI6 router connected to each display device may be the same as or different from the WIFI6 router 32 connected to the virtual reality device 33, and meanwhile, the WIFI6 router 32 connected to each display device 37 may also be the same as or different from the same, in this embodiment of the present application, each display device 37 is connected to a different WIFI6 router 32 as an example.

The WIFI6 router 32 realizes data forwarding between the server 31 and the virtual reality device 33, and at the same time, constructs low-delay transmission channels of the virtual image acquisition device 35, the server 31, and the display device 37, and realizes data transmission.

Further, the virtual reality device 33 is smart glasses, augmented reality glasses, or virtual reality glasses.

The embodiment of the utility model provides a virtual reality equipment management system based on WIFI6 router, virtual reality equipment selects a corresponding target WIFI6 router in a plurality of WIFI6 routers, and transmit user positioning data to target WIFI6 router, send user positioning data to the server through target WIFI6 router, different virtual reality equipment can select a target WIFI6 router simultaneously, with data transmission to same server on, data are handled by the server is unified. The problem of the prior art that the cost is high because a user needs to use a computer independently is solved, and all data can be processed by only one server. Data transmission is carried out by using the WIFI6 router, the problem that data of multiple virtual reality devices cannot be transmitted simultaneously in traditional data transmission is avoided, data are transmitted through the WIFI6 router, and data transmission rate is greatly improved. The acquisition of the spatial image information of any angle and position is realized through the positioning equipment and the virtual image acquisition equipment, and the target spatial information is displayed through the display equipment, so that a user can check the image of any angle and position, and the user experience is improved.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (8)

1. A virtual reality equipment management system based on WIFI6 router, includes: the system comprises a server, at least one sixth-generation wireless network technology WIFI6 router and at least one virtual reality device;

each virtual reality device is respectively connected with a corresponding target WIFI6 router in each WIFI6 router and is used for sending the collected user positioning data to the corresponding target WIFI6 router;

each WIFI6 router is connected with the server, and when each WIFI6 router is used as a target WIFI6 router, each WIFI6 router is used for sending each user positioning data to the server;

the server is used for generating a user display image according to the user positioning data, and sending the user display image to the corresponding virtual reality device through each target WIFI6 router.

2. The system of claim 1, wherein the virtual reality device comprises:

and the display device is used for displaying the user display image.

3. The system of claim 1, wherein the virtual reality device comprises: at least one image acquisition device;

and each image acquisition device is used for acquiring user positioning data.

4. The system of claim 1, further comprising: a remote control device;

the remote control equipment is connected with the server and the corresponding virtual reality equipment.

5. The system of claim 4, wherein the virtual reality device comprises at least one first ultrasonic sensor, the remote control device comprises at least one second ultrasonic sensor;

and the first ultrasonic sensor and the second ultrasonic sensor are used for acquiring the position information of the remote control equipment.

6. The system of claim 1, further comprising: at least one virtual image acquisition device and at least one positioning device;

each virtual image acquisition device is connected with the server and is used for acquiring spatial image information;

for each positioning device, determining the position information of the corresponding virtual image acquisition device;

the number of the virtual image acquisition devices is the same as that of the positioning devices.

7. The system of claim 6, further comprising: at least one display device;

each display device is connected with the corresponding WIFI6 router and is used for displaying target space information, and the target space information is determined according to each space image information and the received user operation instruction.

8. The system of any one of claims 1-7, wherein the virtual reality device is smart glasses, augmented reality glasses, or virtual reality glasses.

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