I spoke to George Hsu, PNI Sensor Chairman and resident tech guru, and he commented that SENtrace is a small custom ASIC that uses about 10x lower power than GPS demands. By building on PNI Sensor’s proprietary embedded algorithms, it enables existing ultra-low power inertial sensors to track users when there is little or no GPS signal available.
Another feature that I really like is that it greatly reduces overall battery consumption because it overrides and deactivates power-hungry GPS when it’s not needed. In typical configurations, the IC uses about one-tenth the power of GPS for computing each location point.
The chip provides tracking to one-metre accuracy over 100 metres travelled, supplying step-by-step data in lieu of extrapolations between two location points. The PNI solution greatly augments GPS accuracy or even allows the designer to choose when and how to turn off GPS with three options: Based on time, distance travelled, or quality score.
PNI further explains; [this] inertial tracking technology's performance is based upon distance travelled . It is typically 1% to 2% of distance travelled in normal use cases. So the error would grow to 10 to 20 metres for 1 kilometre travelled and so forth. Since this type of error is different in nature to GPS [that has an estimable error that is dependent on available constellation configuration, for any given fix] the two technologies are quite complementary to one another. For short distances Sentrace can provide better resolution in terms of positioning than GPS can as well as save power. Over long distances, GPS can be used to reset the inertial accuracy in order to bound the errors.
“We foresee a range of applications for SENtrace in wearables,” added Becky Oh, PNI Sensor President and CEO. “They include wrist-worn devices for locating lost children or elders and enhanced activity wristbands and smartwatches for athletes and fitness enthusiasts.”
I like the fact that the PNI solution has