Go to the NASA Homepage
 
Advanced Controls and Displays Left-Side Header Image
Research Sidebar Header
Advanced Controls and Displays Image Collage
Research header
Dynamic Response of Electromagnetic Spatial Displacement Trackers
Abstract
Overall system latency, the elapsed time from input human motion until the immediate consequences of that input are available in the display is one of the most frequently cited shortcoming of current Virtual Environment (VE) technology.

Given that spatial displacement trackers are employed to monitor head and hand position and orientation in many VE applications, the dynamic response intrinsic to these devices is an unavoidable contributor to overall system latency.

We developed a testbed and method for measurement of tracker dynamic response that use a motorized rotary swing arm to sinusoidally displace the VE sensor at a number of frequencies spanning the bandwidth of volitional human movement.

During the tests, actual swing arm angle and VE sensor reports are collected and time stamped. By calibrating the time stamping technique, the tracker's internal transduction and processing time are separated from data transfer and host computer software execution latencies.

We have used this testbed to examine several VE sensors most recently to compare latency, gain, and noise characteristics of two commercially available electromagnetic trackers: Ascension Technology Corp.'s Flock of Bird and Polhemus Inc.'s Fastrak.
Go to the First Gov Homepage
Go to the NASA - National Aeronautics and Space Administration Homepage
Curator: Phil So
NASA Official: Brent Beutter
Last Updated: August 15, 2019