Accuracy of GPS telemetry collar locations with differential correction

Global Positioning System (GPS) units in telemetry collars provide an unbiased and precise estimate of animal locations, Under ideal conditions at least 50% of locations are expected to be within 40 m in uncorrected mode GPS, and within 5 m in differential mode GPS. When the collar was placed under open sky, most locations were 3-dimensional locations that could be differentially corrected. Under hardwood canopies with leaves on, the frequency of 3-dimensional locations decreased: the frequencies of failed location attempts and 2-dimensional locations increased, and the precision of GPS locations decreased. We compared the precision of each GPS mode by calculating uncorrected mode and differential mode locations from the same pseudo-range and ephemeris data. We varied the number of satellites used in the location solution to simulate the effect of decreased satellite acquisition due to canopy cover On precision of locations. Precision of locations increased if signals from >4 satellites were used to calculate the location in uncorrected mode and in differential mode. We found that 2-dimensional locations Here almost as precise as 3-dimensional positions if the altitude of the GPS unit was known. If the altitude used to calculate a 2-dimensional location was within 50 m of the actual collar altitude. the precision of 2-dimensional differential mode locations was better than 3-dimensional uncorrected mode locations, If the error in altitude was 100 or 150 m, then 50% of 2-dimensional differential mode locations were within 70 m and 95% were within 185 m of the true location. We used GPS locations from collars placed in different cover types and on free-ranging moose (Alces alces) to determine the effect of season, time of day, rainfall, and cover type on CPS performance. On free-ranging moose the collar GPS unit found greater than or equal to 4 satellites on 52% of location attempts. >50% of locations were 3-dimensional, and >24% of locations were e-dimensional. Precise tracking of individual animals in all weather throughout the ear is possible with GPS telemetry.