The bias induced by the Goodman algorithm: Difference between revisions
From Atomix
No edit summary |
No edit summary |
||
| Line 1: | Line 1: | ||
The bias induced by the Goodman<ref> Goodman, L., Levine, E. R., & Lueck, R. G. (2006). On measuring the terms of the turbulent kinetic energy budget from an AUV. Journal of Atmospheric and Oceanic Technology, 23(7), 977-990. </ref> vibration-coherent corrections algorithm is corrected by dividing the spectrum by <math>1-\frac{1.02N_v}{N_f}</math> where <math>N_v</math> is the number of signals that are used to remove coherent signals in the shear-probe signals and <math>N_f</math> is the number of fft-segments that are used to estimate the shear-spectra. | The bias induced by the Goodman routine <ref name="goodmanetal2006">, | ||
<ref> Goodman, L., Levine, E. R., & Lueck, R. G. (2006). On measuring the terms of the turbulent kinetic energy budget from an AUV. Journal of Atmospheric and Oceanic Technology, 23(7), 977-990. </ref> vibration-coherent corrections algorithm is corrected by dividing the spectrum by <math>1-\frac{1.02N_v}{N_f}</math> where <math>N_v</math> is the number of signals that are used to remove coherent signals in the shear-probe signals and <math>N_f</math> is the number of fft-segments that are used to estimate the shear-spectra. | |||
Revision as of 22:05, 19 November 2021
The bias induced by the Goodman routine Cite error: Closing </ref> missing for <ref> tag vibration-coherent corrections algorithm is corrected by dividing the spectrum by [math]\displaystyle{ 1-\frac{1.02N_v}{N_f} }[/math] where [math]\displaystyle{ N_v }[/math] is the number of signals that are used to remove coherent signals in the shear-probe signals and [math]\displaystyle{ N_f }[/math] is the number of fft-segments that are used to estimate the shear-spectra.
References
return to Flow chart for shear probes
