VioTrack S3

 

manutrack general

KEY FEATURESAPPLICATIONSTECHNOLOGYSPECIFICATIONS

Camera tracking systems determine the pose of the employed camera and support system in order to render the virtual image from the same perspective as the real camera. Traditional tracking systems require new equipment with external sensors at each axis of the individual support system and precise calibrations.
In opposite to this, VioTrack uses image feature points within the video picture of the camera to place the virtual graphics exactly at their desired position within the set. VioTrack’s unique markers are placed everywhere the action is needed, identified by image processing and located in 3D. As the stunning result, Virtual graphics are precisely sticking to the set.

VioTrack is designed in three different versions to fit your desired degree of camera freedom and budget best. Choose the most cost effective VioTrack S1 for basic camera movements, the VioTrack S2 which enables a free moving camera or the VioTrack S3 version for free camera movements for all axis.

Designed for free camera movements for all axis
In addition to VioTrack S2, Viotrack S3 employes a dedicated sensor camera which is rigidly attached to the TV camera and observes the scene. Therefore it is not longer necessary that the TV camera sees the video features, the sensor camera always has the features in view!

This enables the TV camera to even fully zoom in while moving in 3D space.

video based camera tracker works independent of the camera support system
VioTrack does not rely on sensor data from any other device, like encoded support systems, heads, infrared sensors, surveillance cameras etc. Therefore the tracked camera can be used for various support systems. Just lift the camera and mount it to the next support system and it is immediately ready to use.

works with every camera, lens and support system, just retrofit
Viotrack works with every type of camera, any type of lens and any support system. Even better, you can keep your existing equipment and just retrofit with Viotrack. This is the most affordable solution to step into Virtual applications.

get rid of standard 2D video walls or projection systems and use a 3D Virtual Depth Screen
All video walls, screens or projections are just showing a flat 2D image. But with VioTrack a Virtual Depth Screen creates stunning 3D depth effects where 3D sceneries can be seen from different camera angles and the content leaves the picture frame. Even if your backplane is just flat, the Virtual Graphics blasts your standard screen plane and will occur behind and in front the standard screen, inside or even outside this frame.

any size and shape, even large backplanes or Virtual Studios with no extra costs
For VioTrack it does not matter if you are using a small screen or the whole studio walls. The same systems tracks any sized green or blue screen.
Independet of the size of your screen you always achieve an optimum picture quality with a higher contrast than with a projection, a higher resolution than a video wall and you just need one renderer, you can even zoom in, no borders between monitors, no reflections

open real-time data transfer interface to any Virtual Graphics system
Works with every Virtual Graphics software thanks to the open interface. The complete camera tracking data are sent to the network to an unlimited number of graphics machines.

Especially through VioTrack's three different versions it can easily be adapted to various formats and applications. Your imagination is the limit. Therefore here we just name a few:

Virtual Backplane
Just a short teaser or the weather forecast? Or a large background for the next game show? A virtual Backplane replaces a real 2D background, screen or video wall? A perfect job for VioTrack.

Virtual Depth Screen
Crossing the limits of a regular video screen, backdrop or projection by showing 2D or 3D objects which are leaving the picture frame in all three dimensions. While using VioTrack and a 3D graphics renderer you achieve ultimate picture quality, a stunning 3D effect and no limitations for the size of your screen. Works even for multiple screens in various positions.

Virtual Studios
A rendered 3D scenery replaces the blue or green box. With VioTrack you can show your audience the studio from any angle.

Augmented Reality
You do have a real scenery and just want to show virtual objects at specific spots? A clever arrangement of VioTrack can help you even there.

Real-time algorithm uses video feature points within the video image
Instead of measuring the single axis of the support system, calibrating and calculating the final position of the camera, VioTrack determines the position of the virtual objects directly.
Optical absolute markers are placed at the green or blue backing and are building the basis for all calculations. Each marker can be identified by VioTrack through it's unique pattern. The markers are painted with a slightly different green or blue tone than the standard background, therefore they can easily be keyed by the Chroma Keyer and do not appear in the final image.

Determines the exact camera pose about full zoom range
Besides the camera video picture, VioTrack S3 employes a dedicated sensor camera to observe the scenery. This sensor camera is rigidly attached to the TV camera and follows every movement. Even if the TV camera lens fully zooms in and the video features could not be recognized any longer in the TV camera picture, the sensor camera still observes the relevant features. Therefore all camera and lens axis can freely be moved.

Real-time algorithm uses the camera video picture for perfect matching results
The camera video signal is building the basis for all calculations. This causes a perfect matching between real objects and virtual graphics. Depending on the VioTrack version, the actual lens parameters are processed in addition (VioTrack S2 and S3) and even a sensor camera is applied (VioTrack S3).

unique markers for absolute positioning
The employed markers guarantee a reliable and absolute result for the positioning of the graphics. Each marker contains a unique pattern. After the self-calibration, the 3D position of each marker is well known by the software.

Therefore whenever you start the tracking, it will immediately find the absolute position of the camera and therefore the Virtual Graphics. There is no need for further adjustments.

various markers for various jobs
The size of the markers, their pattern, their number of dots, their color, everything can be changed to adapt them to the specific job. While just a few smaller markers are needed for a simple screen, many markers are used for a 1.000 sqrm green box with four walls.

Automated self-calibration of markers
First you draw, paint or stick the markers in any order (!) and any position to the wall, floor or ceiling. Then a camera is used to just take some snapshots of these markers from various angles. That’s it!

The calibration software automatically calculates the 3D position of each marker and stores this data for the usage with the real-time camera tracking.

viotrack s3 840

working principle

video based, like version S2,
but an additional sensor camera always detects VioTrack's unique markers.
Now the camera lens can even totally zoom in where no markers are seen in the TV picture, but the video features are still be detected by the sensor camera

degrees of freedom

All camera axis can be moved freely, even the zoom and focus
 

limitations

The sensor camera has to see the markers, therefore extreme movements e.g. like a 360 degrees tilt do not work
 

VioTrack Video Processor

any commercially available PC with Intel Quad Core with 4 CPUs
PCI Express 4 lane slot for video card
Different models like Workstation, Small Form Factor (SFF) or 19” rack mount available

s1

video input

video card supports 8/10-bit uncompressed SD/HD video streams according to SMPTE-259/292/296

SD:

  • 525i 29.97
  • 625i 25

HD:

  • 720p 50, 59.94, 60
  • 1080i 25, 29.97, 30
  • 1080p 23.98, 23.98, 24, 25, 29.97, 30
  • 1080psf 23.98, 24, 25, 29.97

reference signal

Not needed – system synchronizes on video input signal
 

data output

Network connection:
10/100/1000 Mbit Ethernet (IEEE 802.3)
UDP/IP-protocol (RFCs 793, 791 und 768)

The Xync camera tracking interface is employed as the interface protocol.

Lens data

receives serial data from TV lens:
Canon (RS 485) or Fujinon (RS 232) Virtual protocol types are supported
If serial lens data interface is not available, additional encoders can be mounted to the lens

s2