Zactrack Smart

zactrack SMART is the world’s first plug and play automated follow system. System setup takes less than 15 minutes from unpacking the system components to 3D tracking for stage lighting, sound or video effects.


zactrack SMART uses self-measuring “mesh network technology” to accurately calculate the dimensions of the stage without using any measurement aid … just like magic!

zactrack uses state of the art Ultra-Wide-Band (UWB) real time radio tracking technology. Acting from 6.2 to 6.7 GHz frequency spectrum with minimum power levels, the technology is available  worldwide without any licensing for the end user.

Radio tracking transmits through common stage materials (cloth, cardboard, wood, scaffolding . . .) and is undisturbed by any effect or weather-related interference (direct sunshine, fog, rain, snow, lighting, fireworks, . . .)

Just hide the tiny tracker under your costume, clip it on a lanyard around your neck or simply put it in your pocket. zactrack is easily applicable for all situations from theatre plays to business presentations.

​zactrack tracking pinpoints the target down to +/- 5 cm accuracy in 3D space and uses advanced prediction mathematics to cope with speeds from acrobats and ice hockey athletes to race cars

zactrack uses a unique and patented fixture alignment algorithm wich delivers unparalleled accuracy of any moving fixture around the stage.

The software uses advanced mathematics to locate the correct position and orientation of the fixture in 3D space resulting in extreme precision of long throw beams positioned even 100 meters from the target.

With a single zactrack server you can control lighting fixtures, video effects and 3D sound simultaneously.

The system integrates with any stage network and works together with the lighting desk of your choice. Creative work of the LD always stays at the console.


Folder zactrack_SMART_1.0 v8.final_PR.pdf    5.58 MB
Plug and Play.jpg    293 KB
zactrack components.jpg    204.39 KB
zactrack SMART - Parts list 1.0.pdf    60.76 KB
No case studies found.