Then, the analytical characteristics of the optimised method were evaluated achieving satisfactory linearity (with correlation coefficients over 0.984), repeatability (below 10.7%) and inter-day precision (below 10.6%) for all target analytes.
In the case of the gallium nitride lattice (3.85 C/cm 2), where individual atoms could not reliably be detected in the noisy input, the uniform adaptive periodic BM3D estimate achieves a precision of below 7.5 pm, improving the precision by a factor of two compared to those reported in [6].
Results show that the track can be followed with a precision of below 0.1 nautical miles both in manual and in automatic flight with a light piston twin aircraft and with a fast business jet.
The achieved precision was below 0.1 mm for distances from the camera to the target up to 15 m, and in the order of 0.25 mm for a distance of 25 m.
The proposed method showed good linearity (correlation coefficients >0.9961), good recoveries (from 77 to 105%), and good intra-day precision (below 13%) and inter-day precision (below 10%).
The proposed method showed satisfactory linearity (correlation coefficients over 0.981), repeatability (below 10.9%) and inter-day precision (below 11.0%).
During this period, over 500 gradient and isocratic injections were performed, showing peak retention time precision below 1.5% RSD.
To guarantee a precision below the 100 μ s, the nodes would need to synchronize each second.
There was a sharp decline in precision below pulse densities of 0.04 pulses m−2 for all three models.
