LED Cave studios, Mannheim
LEDcave by Rent Event Tec is a virtual production and XR studio suitable for film, advertising, live events and more. In the studio Faceted Screens or LED Caves are used for virtual productions displaying virtual environments and backdrops. Such systems have the demand of high precision and dynamic warping and color correction. Whenever the viewer is moving the warping of the displayed scene must be modified in real time. The setup with ProjectionTools for an LED Cave display systems is done efficiently in a very short time.
Flexible ProjectionTools for LED screens
Our ProjectionsTools allow you to setup much more than only projections. Other display technologies, like Faceted Screens or LED Caves with the demand of high precision can also be calibrated to achieve a level of quality which is only possible with ProjectionTools. Especially whenever the viewer is moving the warping must be modified in real time. This is e.g. necessary if Film and advertising studios use LED Caves for virtual productions displaying virtual environments and backdrops. The setup with ProjectionTools for such display systems is done efficiently in a very short time. Thus, mobile environments are also possible. Several different virtual setups can be managed with the ProjectionTools.
This feature was developed for our Partner Rent Event Tec.
Do you need assistance in setting up your LED visual? – Please contact us for a quotation. ►
Precise measurement
The technology for measuring these screens is the same for all displays. The setup is first created with the Creator or the Designer application. The structure is determined by 3D image processing. Additionally, the alignment of the panel structure is recognized. The created structures can be exported and loaded directly into 3D Engines.
Dynamic color correction
Another important aspect when setting up Virtual Production rooms is the color correction of the panels. Due to different alignments of the panel structures, color differences between neighboring panels are sometimes visible. However, these color differences depend on the viewing angle and therefore have to be corrected depending on the current viewer position. In order to determine the necessary color correction for each panel for any given viewer position, a camera-based analysis tool measures the radiation behavior of the panels. Based on the recognized pattern, the color correction can be performed in real time by a plugin and automatically adjusted. In combination with a tracking system, which detects the viewer and transmit this position to the plugin, a display without color differences is achieved for a moving eyepoint.