CN113630592A - Augmented reality allopatric co-demonstration system - Google Patents

Abstract

The present invention provides an augmented reality co-presentation system in different places. The first acquisition and display device is used to transmit the actual shooting image of the remote scene in the remote studio to the cloud server through a program, and then the remote image is transmitted to the remote through the second acquisition and display device. The real-shot images of the studio are synchronized to the processing unit of the second acquisition and display device, undergo color-removal processing, and appear in the local augmented reality scene of the local studio in the form of flat 3D, so as to achieve co-production in different places. situational.

Description

Augmented reality allopatric co-demonstration system

Technical Field

The present invention relates to an augmented reality allopatric co-evolution system, and more particularly, to an allopatric co-evolution Augmented Reality (AR) technology.

Background

In reality, the augmented reality technology is an image interaction technology derived from a VR Virtual reality (Virtual reality), and projects an object or a scene which does not actually exist on the scene in a specified Real space through Virtual reality equipment.

Therefore, how to create an augmented reality structure to achieve the co-performance effect at different places is a positive disclosure of this creation.

In view of this, the present inventor has studied and improved the system, and has developed an augmented reality allopatric co-performance system, thereby providing industrial utility value.

Disclosure of Invention

Accordingly, a main objective of the present creation is to provide an augmented reality remote co-rendering system, which obtains an image of a remote scene in a remote studio through a first obtaining and displaying device, transmits the video thereof to a cloud server through a program, synchronizes the video to a processing unit of a second obtaining and displaying device in a local studio, carries out back removing, and appears in a local AR scene of the local studio in a planar 3D manner, so as to achieve the remote co-rendering effect.

In order to achieve the purpose, the creation adopts the following technical means:

an augmented reality allopatric co-presentation system, comprising:

a remote studio including a remote scene;

the first acquisition display device is used for acquiring a real shot image in a far-end scene and comprises a processing unit and a shooting unit connected with the processing unit;

the cloud server receives a video program of a real-time image shot in a remote shooting shed transmitted by the first acquisition display device;

the second acquisition display device synchronously acquires the video program transmitted by the cloud server and comprises a processing unit and a shooting unit connected with the processing unit; and

a local studio comprises a local augmented reality scene, wherein a photographing unit of a first acquisition display device acquires real images in a remote studio, the real images are input into a processing unit of a second acquisition display device through a cloud server to be subjected to back removing processing, and the back removing processing appears in the local augmented reality scene of the local studio in a planar 3D mode to achieve the effect of remote co-rendering.

The augmented reality allopatric co-presentation system as described above, wherein optionally the remote studio is a green studio.

The augmented reality allopatric co-playing system as described above, wherein the processing unit of the first obtaining and displaying device is optionally a smart phone or a tablet or a remote PC.

The augmented reality allopatric co-playing system as described above, wherein optionally the camera unit of the first capture display device is a video camera.

The augmented reality allopatric co-playing system as described above, wherein the processing unit of the second acquiring and displaying device is optionally a smart phone or a tablet or a local PC.

The augmented reality allopatric co-playing system as described above, wherein the camera unit of the second capture and display device is a camera.

Compared with the prior art, the invention has the following effects:

the creation augmented reality allopatric co-demonstration system utilizes Augmented Reality (AR) technology to synchronously transmit images shot in a remote studio to local AR scenes in a local studio through a cloud server so as to achieve the effect of allopatric co-demonstration technology.

To facilitate a further understanding of the present invention, the following is illustrated in the drawings:

drawings

FIG. 1 is a diagram of an embodiment of an augmented reality allopatric co-performance system according to the invention.

FIG. 2 is a schematic diagram of an augmented reality co-modeling system according to an embodiment of the present invention.

Description of reference numerals:

(10) far-end studio

(11) Far-end scene

(20) First acquisition display device

(21) Processing unit

(22) Image pickup unit

(30) Cloud server

(40) Second acquisition display device

(41) Processing unit

(42) Image pickup unit

(50) Local studio

(51) Locally augmented reality scenes

Detailed Description

Referring to fig. 1 and fig. 2, an architecture diagram and a situation diagram of an augmented reality allopatric co-rendering system according to an embodiment of the present invention are shown, and the augmented reality allopatric co-rendering system according to the present invention includes a remote studio 10, a first obtaining and displaying device 20, a cloud server 30, a second obtaining and displaying device 40, and a local studio 50.

Wherein the remote studio 10 is a green-curtain studio including a remote scene 11; the first capturing and displaying device 20 can capture the remote scene 11 of the remote studio 10, and includes a processing unit 21 and a camera unit 22 connected to the processing unit 21, wherein the processing unit 21 can be a smart phone or a tablet or a remote PC, and the camera unit 22 can be a camera.

In practical operation of the present invention, the camera unit 22 of the first capture display device 20 captures the far-end scene 11 of the far-end studio 10, and outputs a three-dimensional (3D) image after being identified and interpreted by the processing unit 21, the video process in the far-end studio 10 is transmitted to the cloud server 30 through a program, the cloud server 30 is synchronously transmitted to the second capture display device 40, the camera unit 42 of the second capture display device 40 captures the video process in the far-end studio 10, and inputs the video process into the processing unit 41 of the second capture display device 40 for color back-off processing, and the video process appears in the local Augmented Reality (AR) scene 51 of the local studio 50 in a planar 3D form (e.g., forming 3D paper), so as to achieve an effect of remote co-rendering. The processing unit 41 may be a smart phone or a tablet or a local PC, and the camera unit 42 may be a camera.

In summary, the augmented reality allopatric co-performance system utilizes Augmented Reality (AR) technology to transmit the live images in the remote studio to the local AR scene in the local studio through the cloud server synchronously, so as to achieve the effect of allopatric co-performance technology. The practical effects of the invention will be undoubted, and the inventor never disclosed the invention or found other publications, and even conformed to the provisions of the patent law, and proposed the patent application.

Claims (6)

1. an augmented reality co-evolution system in different places, is characterized in that, comprises: a remote studio, which includes a remote scene; a first acquisition and display device for acquiring real-shot images in a remote scene, which includes a processing unit and a photographing unit connected to the processing unit; a cloud server, receiving a video program from the first acquisition and display device to transmit the real-shot images in the remote studio; a second acquiring and displaying device for synchronously acquiring the video program transmitted by the cloud server, which includes a processing unit and a photographing unit connected to the processing unit; and A local photography studio, which includes a local augmented reality scene, wherein the photography unit of the first acquisition and display device acquires the real shot images in the remote studio, and inputs the images to the processing unit of the second acquisition and display device through the cloud server for processing. Back-processing, and in the form of flat 3D, it appears in the local augmented reality scene of the local studio to achieve the effect of co-production in different places. 2 . The augmented reality co-production system according to claim 1 , wherein the remote studio is a green screen studio. 3 . 3 . The augmented reality co-production system according to claim 1 , wherein the processing unit of the first acquisition and display device is a smart phone or a tablet or a remote PC. 4 . 4 . The augmented reality co-production system according to claim 1 , wherein the photographing unit of the first acquisition and display device is a camera. 5 . 5 . The augmented reality co-production system of claim 1 , wherein the processing unit of the second acquisition and display device is a smart phone, a tablet or a local PC. 6 . 6 . The augmented reality co-production system according to claim 1 , wherein the photographing unit of the second acquisition and display device is a camera. 7 .

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