发明名称 |
System and method for virtual camera control using motion control systems for augmented three dimensional reality |
摘要 |
There is provided a system and method for integrating a virtual rendering system and a motion control system to provide an augmented three-dimensional reality. There is provided a method for integrating a virtual rendering system and a motion control system for outputting a composite three-dimensional render to a three-dimensional display, the method comprising obtaining, from the motion control system, a robotic three-dimensional camera configuration of a robotic three-dimensional camera in a real environment, programming the virtual rendering system using the robotic three-dimensional camera configuration to correspondingly control a virtual three-dimensional camera in a virtual environment, obtaining a virtually rendered three-dimensional feed using the virtual three-dimensional camera, capturing a video capture three-dimensional feed using the robotic three-dimensional camera, rendering the composite three-dimensional render by processing the feeds, and outputting the composite three-dimensional render to the three-dimensional display. |
申请公布号 |
US8885023(B2) |
申请公布日期 |
2014.11.11 |
申请号 |
US201012807330 |
申请日期 |
2010.09.01 |
申请人 |
Disney Enterprises, Inc. |
发明人 |
Thiel Aaron;Gay Michael;Bailey Anthony |
分类号 |
G06T15/00;H04N13/00;G06T19/00 |
主分类号 |
G06T15/00 |
代理机构 |
Farjami & Farjami LLP |
代理人 |
Farjami & Farjami LLP |
主权项 |
1. A method for integrating a virtual rendering system and a motion control system to output a composite three-dimensional render to a three-dimensional display, the method comprising:
obtaining, from the motion control system, a first three-dimensional camera configuration, wherein the first three-dimensional camera configuration includes camera position data, camera field of view orientation data, camera movement data and camera lens characteristics data; programming the virtual rendering system using the first three-dimensional camera configuration to correspondingly control a first virtual three-dimensional camera in a virtual environment; obtaining, from the virtual rendering system, a first virtually rendered three-dimensional feed of the virtual environment using the first virtual three-dimensional camera; capturing, from a video capture system, a first video capture three-dimensional feed of a real environment using the first three-dimensional camera configuration; rendering the composite three-dimensional render, based on a target broadcast region, by processing the first virtually rendered three-dimensional feed and the first video capture three-dimensional feed, wherein the composite three-dimensional render includes simulating at least one virtual player with a real tracked object; and outputting the composite three-dimensional render to the three-dimensional display. |
地址 |
Burbank CA US |