Print this window Close this window Metrologia, 2010, 47(6), 677-689 Comparison of three digital fringe signal processing methods in a ballistic free-fall absolute gravimeter Svitlov S., Maslyk P., Rothleitner Ch., Hu H., Wang L.J. Full text available on-line: http://stacks.iop.org/met/47/677 References in Metrologia: 18 Citations in Metrologia: 6 References in Metrologia Hu H., Svitlov S., Rothleitner C., Schäfer J., Zhang J., Wang L.J. Improvements of the MPG-2 transportable absolute ballistic gravimeter Metrologia, 2010, 47, n°5, 575-582 Rothleitner Ch., Svitlov S., Mérimèche H., Hu H., Wang L.J. Development of new free-fall absolute gravimeters Metrologia, 2009, 46, n°3, 283-297 Bich W., D'Agostino G., Germak A., Pennecchi F. Reconstruction of the free-falling body trajectory in a rise-and-fall absolute ballistic gravimeter Metrologia, 2008, 45, n°3, 308-312 Schmerge D., Francis O. Set standard deviation, repeatability, and offset of absolute gravimeter A10-008 Metrologia, 2006, 43, n°5, 414-418 Balsamo A., Mana G., Pennecchi F. The expression of uncertainty in non-linear parameter estimation Metrologia, 2006, 43, n°5, 396-402 Robertsson L. Absolute gravimetry in a shifted Legendre basis Metrologia, 2005, 42, n°5, 458-463 D'Agostino G., Germak A., Desogus S., Origlia C., Barbato G. A method to estimate the time-position coordinates of a free-falling test-mass in absolute gravimetry Metrologia, 2005, 42, n°4, 233-238 Timmen L. Precise definition of the effective measurement height of free-fall absolute gravimeters Metrologia, 2003, 40, n°2, 62-65 Durando G., Mana G. Propagation of error analysis in a total least-squares estimator in absolute gravimetry Metrologia, 2002, 39, n°5, 489-494 Faller J.E. Thirty years of progress in absolute gravimetry: a scientific capability implemented by technological advances Metrologia, 2002, 39, n°5, 425-428 Hanada H., Tsubokawa T., Tsuruta S. Possible large systematic error source in absolute gravimetry Metrologia, 1996, 33, n°2, 155-160 Nagornyi V.D. A new approach to absolute gravimeter analysis Metrologia, 1995, 32, n°3, 201-208 Charles K., Hipkin R. Vertical gradient and datum height corrections to absolute gravimeter data and the effect of structured fringe residuals Metrologia, 1995, 32, n°3, 193-200 Niebauer T.M., Sasagawa G.S., Faller J.E., Hilt R., Klopping F. A new generation of absolute gravimeters Metrologia, 1995, 32, n°3, 159-180 Kuroda K., Mio N. Correction to Interferometric Measurements of Absolute Gravity Arising from the Finite Speed of Light Metrologia, 1991, 28, n°2, 75-78 Niebauer T.M. The Effective Measurement Height of Free-fall Absolute Gravimeters Metrologia, 1989, 26, n°2, 115-118 Tsubokawa T. A Fringe Signal Processing Method for an Absolute Gravimeter Metrologia, 1984, 20, n°3, 107-113 Zumberge M.A., Rinker R.L., Faller J.E. A Portable Apparatus for Absolute Measurements of the Earth's Gravity Metrologia, 1982, 18, n°3, 145-152 Citations in Metrologia Svitlov S. Frequency-domain analysis of absolute gravimeters Metrologia, 2012, 49, n°6, 706-726 Svitlov S., Rothleitner Ch., Wang L.J. Accuracy assessment of the two-sample zero-crossing detection in a sinusoidal signal Metrologia, 2012, 49, n°4, 413-424 Nagornyi V.D., Zanimonskiy Y.M., Zanimonskiy Y.Y. Relativity, Doppler shifts and retarded times in deriving the correction for the finite speed of light: a comment on 'Second-order Doppler-shift corrections in free-fall absolute gravimeters' Metrologia, 2011, 48, n°5, 437-441 Svitlov S., Maslyk P., Rothleitner Ch., Hu H., Wang L.J. Reply to the Comment on 'Comparison of three digital fringe signal processing methods in a ballistic free-fall absolute gravimeter' Metrologia, 2011, 48, n°3, 229 Niebauer T.M. Comment on 'Comparison of three digital fringe signal processing methods in a ballistic free-fall absolute gravimeter' Metrologia, 2011, 48, n°3, 227-228 Nagornyi V.D., Zanimonskiy Y.M., Zanimonskiy Y.Y. Correction due to the finite speed of light in absolute gravimeters Metrologia, 2011, 48, n°3, 101-113