CN210609499U - Electronic equipment - Google Patents

Abstract

The application discloses electronic equipment relates to data display technical field. The method and the device are used for ensuring the mobility of the electronic equipment and avoiding the picture quality reduction caused by the limited processing capability of the electronic equipment. The electronic device includes: an apparatus body; the equipment body comprises a structure for splicing the detachable display screen; the equipment body comprises a processor and a 5G communication module, wherein the 5G communication module is connected with the processor, and when the separable display screen is plugged in the equipment body, the separable display screen is connected with the processor; the processor is also connected with acquisition equipment, and the acquisition equipment is used for acquiring control instructions of a user; after the processor receives a control instruction of a user, which is acquired by the acquisition equipment, the control instruction is sent to the cloud server through the 5G communication module; and after receiving the video data responding to the control instruction through the 5G communication module, the processor decodes the video data and sends the decoded video data to the detachable display screen for display. The embodiment of the application is applied to data display of electronic equipment.

Description

Electronic equipment

Technical Field

The application relates to the technical field of data display, in particular to an electronic device.

Background

A Virtual Reality (VR) product is a computer simulation product which can create and experience a Virtual world, a simulation environment is generated by using a computer program, multi-source information fusion, interactive three-dimensional dynamic vision and entity behavior simulation are provided, and a user can be immersed in the Virtual environment.

Along with the rapid development of VR technique, VR products of multiple different types have appeared on the market, like PC VR product, VR all-in-one, cell-phone VR etc..

The PC VR product is mainly connected to a PC through a High Definition Multimedia Interface (HDMI), and performs image rendering through a computing power of a processor of the PC. But must pass through the cable during use, resulting in poor mobility.

And the VR all-in-one machine carries out picture rendering by a high-performance processor built in the VR all-in-one machine. However, the performance of an integrated processor of the VR all-in-one machine device cannot be compared with that of a processor of a PC, and picture rendering cannot be well realized; of course, the processor performance of the VR all-in-one device may also be limited by the battery capacity, and the picture rendering cannot be well realized, which finally causes the defect of the picture quality.

In summary, electronic devices similar to VR products on the market today have the following problems: the processor capacity of the electronic equipment is limited, so that the picture quality is reduced; when the processor of the PC is used for rendering the image, the electronic device and the processor of the PC need to be connected by wire, which may affect the mobility of the electronic device.

SUMMERY OF THE UTILITY MODEL

Embodiments of the present application provide an electronic device, which can avoid a decrease in picture quality caused by a limitation in processing capability of the electronic device while ensuring mobility of the electronic device.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:

an electronic device, comprising: an apparatus body; the equipment body comprises a structure for splicing a detachable display screen; the apparatus body includes: a processor and a 5G communication module; the 5G communication module is connected with the processor, and when the separable display screen is plugged in the equipment body, the separable display screen is connected with the processor; the processor is also connected with acquisition equipment, and the acquisition equipment is used for acquiring control instructions of a user;

after the processor receives a control instruction of the user, which is acquired by the acquisition equipment, the control instruction is sent to a cloud server through the 5G communication module; and after receiving the video data responding to the control instruction through the 5G communication module, the processor decodes the video data and sends the decoded video data to the separable display screen for displaying, wherein the video data is the video data subjected to predetermined processing by a cloud server.

Compared with the prior art, the beneficial effects of the utility model are that: the equipment body of the electronic equipment comprises a 5G communication module and a processor, and the 5G communication module is connected with the processor and the acquisition equipment. Therefore, after the acquisition equipment acquires the control instruction of the user, the processor can send the control instruction to the cloud server through the 5G communication module; the cloud server can perform preset processing such as rendering on the video data according to the control instruction, then transmits the processed video data to the processor of the equipment body through the 5G communication module, and finally decodes the video data through the processor and sends the decoded video data to the separable display screen for displaying. Because 5G communication module can realize high-speed data transmission, then can be directly transmit the video data after the high in the clouds server preliminary treatment to the treater of equipment body, then directly decode to the picture by the treater and send separable display screen display to show, because this process is through the high in the clouds server to the video data preliminary treatment such as render, high in the clouds server directly passes through 5G communication module wireless connection with electronic equipment, consequently, do not need wired connection, electronic equipment's mobility has been improved, in addition, because the high in the clouds server has stronger throughput, consequently can directly handle video data, and electronic equipment only need decode video data into the picture, show through the separable display screen display can, reduced the requirement to electronic equipment treater capacity, also guarantee the picture quality that shows.

Drawings

Fig. 1 is a schematic structural diagram of a communication system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a cloud server according to an embodiment of the present disclosure;

fig. 3 is a first hardware structure diagram of an electronic device according to an embodiment of the present application;

fig. 4 is a second hardware structure diagram of an electronic device according to an embodiment of the present application;

fig. 5 is a hardware structure diagram of an electronic device according to an embodiment of the present application;

fig. 6 is a hardware structure diagram of an electronic device according to an embodiment of the present application;

fig. 7 is a schematic hardware structure diagram of an electronic device according to an embodiment of the present application;

fig. 8 is a hardware structure diagram six of an electronic device according to an embodiment of the present application;

fig. 9 is a functional structure diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present application provides a communication system including an electronic device 10, a cloud server 20, and a base station 30. The cloud server 20 may be a Mobile Edge Computing (MEC) server, and the base station 30 may be a 5th-generation mobile communication technology (5G) base station.

The electronic device 10 and the base station 30 may communicate wirelessly, and the cloud server 20 and the base station 30 may communicate by wire. The electronic device 10 may send a control instruction to the cloud server 20 through the base station 30, and after receiving the control instruction, the cloud server 20 performs predetermined processing on video data, such as video, video data of application software, and the like, according to the control instruction, and sends the control instruction to the electronic device 10 through the base station 30.

As shown in fig. 2, the cloud server 20 may be used for graphics rendering, and the hardware layer may include a management server, an application server, and a Graphics Processing Unit (GPU), and the software layer may include a system management platform and a capability platform, where the system management platform may provide content management functions: e.g., portal management, application management, etc.; and (4) service management function: such as user management, product management, etc. The capability platform is used for running software to provide streaming capability: for example, central management, sub-front end management, and application execution platforms; also for providing cloud rendering capability: e.g. real-time rendering services, dynamic scheduling services. As used in the embodiments of the present application, the predetermined processing of the video data by the cloud server 20 may be rendering, which may be performed by a Graphics Processing Unit (GPU).

As shown in fig. 3-9, embodiments of the present application provide an electronic device 10, including: an apparatus body 100. Wherein, the device body 100 may be a head-mounted VR device or a handle device.

The apparatus body 100 includes: a processor 101, a 5G communication module 102. The device body 100 is further provided with a structure 103 for inserting the detachable display 200. The 5G communication module 102 is connected to the processor 101. When detachable display 200 is plugged into device body 100, detachable display 200 is connected to processor 101. For example, the detachable display 200 may be a capacitive touch screen or a resistive touch screen, and the detachable display 200 may be a part of the electronic device 10.

The processor 101 is further connected with an acquisition device 300, and the acquisition device 300 is used for acquiring a control instruction of a user; after receiving a control instruction of a user acquired by the acquisition device 300, the processor 101 sends the control instruction to the cloud server through the 5G communication module 102; after receiving the video data in response to the control instruction through the 5G communication module 102, the processor 101 decodes the video data and sends the decoded video data to the detachable display screen 200 for display, where the video data is the video data subjected to the predetermined processing by the cloud server.

Compared with the prior art, the equipment body of the electronic equipment comprises a 5G communication module and a processor, and the 5G communication module is connected with the processor and the acquisition equipment. Therefore, after the acquisition equipment acquires the control instruction of the user, the processor can send the control instruction to the cloud server through the 5G communication module; the cloud server can perform preset processing such as rendering on the video data according to the control instruction, then transmits the processed video data to the processor of the equipment body through the 5G communication module, and finally sends the processed video data to the separable display screen for displaying through the processor. Because 5G communication module can realize high-speed data transmission, then can be directly transmit the video data after the high in the clouds server preliminary treatment to the treater of equipment body, then directly decode to the picture by the treater and send separable display screen to show, because this process is through the high in the clouds server to the video data preliminary treatment such as render, high in the clouds server directly passes through 5G communication module wireless connection with electronic equipment, consequently, do not need wired connection to improve electronic equipment's mobility, in addition, because the high in the clouds server has stronger throughput, consequently can directly handle video data, and electronic equipment only need to decode video data for the picture through the separable display screen show can, reduced the requirement to electronic equipment treater capacity, also guarantee the picture quality that shows.

Optionally, the device body 100 may further include an audio interface 104. Audio interface 104 may be used to connect audio devices, such as headphones, speakers, etc., to provide audio output. When the audio interface 104 is connected to an audio device, the processor 101 may also send audio data corresponding to the video data to the audio device connected to the audio interface 105 for audio output.

Detachable display 200 need only display and no other processing. The user can select the detachable display screen 200 with different screen resolutions, field angles and refresh rates according to actual requirements to obtain better experience. When detachable display 200 is a capacitive touch screen or a resistive touch screen, processor 101 may collect a touch operation of a user through detachable display 200.

As shown in fig. 4, 5, and 6, when the electronic device 10 is a head-mounted VR device, the device body 100 may further include: an optical lens 105; the optical lens 105 is disposed in the light emitting direction of the detachable display 200. The optical lens 105 acts on the content displayed on the detachable display 200 to create a VR effect on the user's vision.

The acquisition device 300 may include at least one or more of: a key, an audio sensor, an image sensor, and a direction sensor. In addition, the collecting apparatus 300 may be provided in a separate type or a fixed connection type with the apparatus body 100.

As shown in fig. 5, when the collecting device 300 is fixedly connected to the device body 100, the collecting device 300 may be directly and fixedly disposed on the device body. Thus, the electronic device 10 may also include the capture device 300.

The keys may be keys arranged on the device body 100, and after the operation of pressing the keys by the user is detected, the corresponding control instruction is obtained according to function conversion corresponding to the keys. The audio sensor may be a microphone (as shown in fig. 9) or other sensor capable of collecting voice information of the user, and after collecting the voice information, the voice information is converted into a corresponding control instruction through a voice recognition program or related software. The image sensor may be a sensor such as a camera (as shown in fig. 9) capable of acquiring the user and the surrounding environment of the user, and the processor 101 may analyze the image and convert the image into a corresponding control instruction. The direction sensor may be a nine-axis sensor (as shown in fig. 9), or a combination of one or more of an acceleration sensor, a gyroscope, and a geomagnetic sensor, and the like, and may be a sensor capable of acquiring information such as a motion and a direction of the user when using the apparatus body 100. For example, the collection device 300 acquires the voice of the user through a microphone, and recognizes the voice to convert the voice into control instructions such as running an application and moving forward.

As shown in fig. 6, when the collecting device 300 is provided separately from the device body, the collecting device 300 may be a device separate from the device body, and may communicate with the device body in a wired or wireless manner, such as a handle, a joystick, or the like.

The collecting device 300 may collect the control command of the user through a key, for example, the collecting device 300 may be a handle, a joystick, or other device, and the key may be a key disposed on the handle or the joystick. The image sensor can be a camera, and can acquire information such as hand movements, leg movements, surrounding environment and the like of a user and convert the information into corresponding control instructions; the direction sensor may be an acceleration sensor, a gyroscope, a distance sensor, or the like, and is used for acquiring the motion of the user's hand, leg, or other parts.

According to actual requirements, more accurate and specific acquisition of control instructions can be realized by combining a plurality of sensors or adopting other sensors, for example, through a camera, actions of waving hands, lifting legs and the like of a user can be identified and converted into corresponding control instructions; the speed of actions of waving hands, lifting legs and the like of a user can be identified through the camera and the acceleration sensor, and is converted into a corresponding control instruction; the camera and the distance sensor can identify the moving direction and speed of the user and the surrounding environment of the user, for example, identify whether the user is moving towards a wall, so as to avoid the user from being injured due to collision when using the electronic device 10.

The collecting device 300 and the device body 100 may be arranged in various combinations, for example, the collecting device 300 fixedly connected to the device body 100 collects information such as head movements and voices of the user, and the collecting device 300 separated from the device body 100 collects information such as other parts of the body, overall movements, and surrounding environment of the user, so that the user can send out control commands by different methods.

As shown in fig. 7 and 8, when the electronic device 10 is a handle device, the electronic device 10 may further include: a data interface 106.

The acquisition device 300 may include at least one or more of: a key, an audio sensor, an image sensor, and a direction sensor.

The keys may be keys arranged on the device body 100, and after the operation of pressing the keys by the user is detected, the corresponding control instruction is obtained according to function conversion corresponding to the keys. The audio sensor may be a microphone (as shown in fig. 9) or other sensor capable of collecting voice information of the user, and after collecting the voice information, the voice information is converted into a corresponding control instruction through a voice recognition program or related software. The image sensor may be a sensor such as a camera (as shown in fig. 9) capable of acquiring the user and the surrounding environment of the user, and the processor 101 may analyze an image acquired by the image sensor and convert the image into a corresponding control command. The direction sensor may be a nine-axis sensor (as shown in fig. 9), or a combination of one or more of an acceleration sensor, a gyroscope, and a geomagnetic sensor, and the like, and may be a sensor capable of acquiring information such as a motion and a direction of the user when using the apparatus body 100.

As shown in fig. 8, the data interface 106 may be an interface capable of transmitting video, audio, and the like, such as an HDMI interface.

The user may also connect to a display device such as a television or a computer display through the data interface 106, and at this time, the processor 101 may send the video data to the display device for display, so that the user may browse videos and applications through a larger screen.

According to actual needs, the user may use the head-mounted VR device to interface with detachable display 200 to obtain a VR experience. When the user does not adapt to the VR equipment or when the VR equipment is used for a long time, the user can select to connect the handle equipment with the separable display screen 200 or connect the handle equipment with display equipment with larger screen size such as a television, and therefore multiple different experiences are obtained.

As shown in fig. 9, the 5G communication module 102 may include a SIM card slot, a 5G network module, and the like. Processor 101 may comprise one or more processors.

The collection device 300 may be coupled to a processor with control software installed therein, the collection device 300 may be coupled to a processor with voice recognition software installed therein, or both the control software and the voice recognition software may be installed on one processor.

The process of detecting the limb movement of the user by the collecting device 300 may be detecting the movement of the user by a direction sensor and generating an electric signal, and the control software may process the corresponding electric signal into a control instruction; the process of detecting the limb movement of the user by the acquisition device 300 may be to capture an image of the movement of the user by an image sensor, and the control software may analyze the image to detect the movement of the user and generate a corresponding control instruction; the process of detecting the voice of the user by the collecting device 300 may be to collect the voice emitted by the user through a voice sensor and convert the voice into a voice electrical signal, and the voice recognition software may analyze the voice electrical signal to generate a corresponding control instruction.

When detachable display 200 or other display device is connected to device body 100, detachable display 200 or other display device may be coupled to a processor that has a video decoder, and the video decoder decodes video data received from cloud server 20 and sends the decoded video data to detachable display 200 or other display device for display.

For example, a user may play a VR game using a head mounted VR device as provided herein. When the user controls by moving the head, the collecting device 300 may collect the moving angle and direction of the head of the user through the direction sensor, generate an electrical signal, and the processor installed with the control software converts the electrical signal into a corresponding rotational view angle control instruction; after receiving the rotation angle control instruction acquired by the acquisition device 300, the processor 101 sends the rotation angle control instruction to the cloud server 20 through the 5G communication module 102; after the cloud server 20 acquires the control instruction of the rotational angle, performing predetermined processing such as rendering according to the angle and the direction information in the control instruction of the rotational angle and the game content currently running on the cloud server 20 to obtain video data of the game picture with the rotational angle, and sending the generated video data of the game picture to the device body 100; after receiving the video data of the game picture through the 5G communication module 102, the processor 101 performs video decoding through the installed video decoder, and after completing the video decoding, sends the video data to the detachable display 200 for display. In addition, a battery module may be included on the electronic device 10 to provide power to the electronic device 10. When the detachable display screen 200 is plugged into the device body 100, the battery module simultaneously supplies power to the device body 100 and the detachable display screen 200. When the collection device 300 is fixedly connected with the device body 100, the battery module supplies power to the device body 100 and the collection device 300 at the same time; when the collecting device 300 is provided separately from the device body 100, the collecting device may be powered using a built-in battery.

It will be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations of the above embodiments are possible to those of ordinary skill in the art without departing from the scope of the present invention.

Claims (9)

1. An electronic device, comprising: an apparatus body; the equipment body comprises a structure for splicing a detachable display screen; the apparatus body includes: a processor and a 5G communication module; the 5G communication module is connected with the processor, and when the separable display screen is plugged in the equipment body, the separable display screen is connected with the processor; the processor is also connected with acquisition equipment, and the acquisition equipment is used for acquiring control instructions of a user;

after the processor receives a control instruction of the user, which is acquired by the acquisition equipment, the control instruction is sent to a cloud server through the 5G communication module; and after receiving the video data responding to the control instruction through the 5G communication module, the processor decodes the video data and sends the video data to the separable display screen for displaying, wherein the video data is the video data subjected to the preset processing by the cloud server.

2. The electronic device of claim 1, wherein the electronic device is a head-mounted VR device, and further comprising an optical lens, wherein the optical lens is disposed in a light exit direction of the detachable display screen.

3. The electronic device of claim 2, wherein the acquisition device comprises at least one or more of: a key, an audio sensor, an image sensor, and a direction sensor.

4. The electronic device of claim 3, wherein the capture device is disposed separate from or fixedly attached to the device body.

5. The electronic device of claim 1, wherein the electronic device is a handle device, and wherein the capture device comprises at least one or more of: a key, an audio sensor, a direction sensor, an image sensor.

6. The electronic device of claim 5, further comprising: a data interface; when the data interface is connected with display equipment, the processor sends the video data to the display equipment for display.

7. The electronic device according to claim 1, wherein the device body further includes: an audio interface; when the audio interface is connected with an audio device, the processor sends audio data corresponding to the video data to the audio device.

8. The electronic device according to any of claims 1-7, wherein the detachable display screen is a capacitive touch screen or a resistive touch screen; when the separable display screen is connected with the processor, the processor collects touch operation of a user through the separable display screen.

9. The electronic device of any of claims 1-7, further comprising: the display screen can be separated.

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