Title :
Distortion correction of magnetic fields for position tracking
Author :
Zachmann, Gabriel
Author_Institution :
Fraunhofer Inst. for Comput. Graphics, Darmstadt, Germany
Abstract :
Electro-magnetic tracking systems are in wide-spread use for measuring 6D positions. However, their accuracy is impaired seriously by distortions of the magnetic fields caused by many types of metal which are omnipresent at real sites. We present a fast and robust method for “equalizing” those distortions in order to yield accurate tracking. The algorithm is based on global scattered data interpolation using a “snap-shot” of the magnetic field´s distortion measured once in advance. The algorithm is fast (it does not introduce any further lag in the data flow), robust, the samples of the field´s “snap-shot” can be arranged in any way, and it is easy to implement. The distortion is visualized in an intuitive way to provide insight into its nature, and the correction algorithm is evaluated in terms of accuracy and performance. Finally, a qualitative comparison of the susceptibility of a Polhemus and an Ascension tracking system is carried out
Keywords :
interactive devices; magnetic field effects; position measurement; tracking; virtual reality; Ascension tracking system; Polhemus; correction algorithm; distortion correction; electro-magnetic tracking systems; global scattered data interpolation; magnetic fields; position tracking; snap-shot; Distortion measurement; Magnetic field measurement; Magnetic fields; Optical distortion; Optical scattering; Optical transmitters; Position measurement; Robustness; Space technology; Virtual reality;
Conference_Titel :
Computer Graphics International, 1997. Proceedings
Conference_Location :
Hasselt and Diepenbeek
Print_ISBN :
0-7695-0185-0
DOI :
10.1109/CGI.1997.601306
