Publications

Trifunac, M.D., Todorovska, M.I. (2001),
A note on the useable dynamic range of accelerographs recording translation,
Soil Dynamics and Earthquake Engineering , 21 (4), 275-286.

Liu, C.C., Huang, B.S., Lee, W.H.K. (2006),
A preliminary report of two earthquakes recorded by both broadband and rotation sensors,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Neumann, F. (1943),
An appraisal of numerical integration methods as applied to strong motion data,
Bulletin of the Seismological Society of America, 33 (1), 21-60.

Boore, D.M. (2003),
Analog-to-digital conversion as a source of drifts in displacements derived from digital recordings of ground acceleration,
Bulletin of the Seismological Society of America, 93 (5), 2017-2024.

Ruge, A.C. (1943),
Analysis of accelerograms by means of the M.I.T differential analyzer,
Bulletin of the Seismological Society of America, 33, 61-63.

Igel, H., Cochard, A., Wassermann, J., Flaws, A., Schreiber, U., Velikoseltsev, A., Pham, D.N. (2006),
Broadband Observations of Earthquake-Induced Rotational Ground Motions,
Geophysical Journal International , accepted.

Boore, D.M., Stephens, C.D., Joyner, W.B. (2002),
Comments on baseline correction of digital strong-motion data: examples from the 1999 Hector Mine, California, earthquake,
Bulletin of the Seismological Society of America, 92 (4), 1543-1560.

Trifunac, M.D., Lee, V.W., Todorovska, M.I. (1999),
Common problems in automatic digitization of strong motion accelerograms,
Soil Dynamics and Earthquake Engineering , 18, 519-530.

A. Castellani, Z. Zembaty (1996),
Comparison between earthquake rotation spectra obtained by different experimental sources,
Engineering Structures, ELSEVIER, 18 (8), 597-603.

Kalkan, E. and Graizer, V. (2007),
Coupled Tilt and Translational Ground Motion Response Spectra,
ASCE Journal of Structural Engineering, 133 (5), 609-619.

Robert E. Abbott, David F. Aldridge, Darren Hart (2007),
Demonstration of the “point seismic array” concept using co-located rotational and translational sensors,
paper presented at American Geophysical Union Annual Meeting, San Francisco, California, USA, December, 2007.

Graizer V. M. (1979),
Determination of the True Ground Displacement by Using Strong Motion Records,
Izvestiya, Earth Physics, 15 (12), 875-885.

Ruge, A.C. (1943),
Discussion of principal results from the engineering standpoint,
Bulletin of the Seismological Society of America, 33, 13-20.

Boore, D.M. (2001),
Effect of baseline corrections on displacements and response spectra for several recordings of the 1999 Chi-Chi, Taiwan, earthquake,
Bulletin of the Seismological Society of America, 91 (5), 1199-1211.

Graizer, V.M. (2004),
Effect of tilt on strong motion data processing,
Soil Dynamics and Earthquake Engineering , 25, 197-204.

Trifunac, M.D., Todorovska, M.I. (2001),
Evolution of accelerographs, data processing, strong motion arrays and amplitude and spatial resolution in recording strong earthquake motion,
Soil Dynamics and Earthquake Engineering , 21 (6), 537-555.

Evans et al. (2009),
Extended Discussion of Tutorial: Suggested Notation Conventions for Rotational Seismology,
USA.

Suryanto, W., Igel, H., Wassermann, J., Cochard, A., Schuberth, B., Vollmer, D., Scherbaum, F., Schreiber, U., Velikoseltsev, A. (2006),
First comparison of array-derived rotation ground motions with direct ring laser measurements,
Bulletin of the Seismological Society of America.

Çelebi, M., Sanli, A. (2002),
GPS in pioneering dynamic monitoring of long-period structures,
Earthquake Spektra , 18 (1), 47-61.

Boore, D.M. (2004),
Ground motion in Anchorage, Alaska, from the 2002 Denali Fault earthquake: site response and displacement pulses,
Bulletin of the Seismological Society of America, 94 (6B), S72-S84.

Huang, B. (2003),
Ground rotational motions of the 1999 Chi-Chi, Taiwan earthquake as inferred from dense array observations,
Geophysical Research Letters, 30 (6).

Takeo, M. (1998),
Ground rotational motions recorded in near-source region of earthquakes,
Geophysical Research Letters, 25 (6), 789-792.

Trifunac, M.D., Udwadia, F.E., Brady, A.G. (1971),
High frequency errors and instrument corrections of strong-motion accelerograms,
California Institute of Technology, Earthquake Engineering Research Laboratory, Pasadena, California, USA.

Langbein, J., Bock, Y. (2004),
High-rate real-time GPS network at Parkfield: Utility for detecting fault slip and seismic displacement,
Geophysical Research Letters, 31 (15).

Graizer V. M. (1991),
Inertial Seismometry Methods,
Izvestiya, Earth Physics, 27 (1), 51-61.

Hudnut, K.W. (2006),
Integrating GPS with rotational and inertial sensors,
invited presentation at Rotational Workshop., Menlo Park / Pasadena, CA, 16.02.2006.

Glaser, S.D. (2003),
Keep it physical - keep it real,
invited presentation at CITRIS, UC Berkeley College of Engineering.

Trifunac, M.D., Hudson, D.E. (1970),
Laboratory evaluations and instrument corrections of strong-motion accelerograms,
115 pp., California Institute of Technology, Earthquake Engineering Research Laboratory, Pasadena, California, USA.

Boore, D.M. (2005),
Long-periode ground motions from digital acceleration recordings: a new era in engineering seismology,
in Directions in strong motion instrumentation, NATO science series - IV. Earth and environmental sciences - Vol. 58, edited by Gulkan P., Anderson J.G., pp. 41-54, Springer, Dordrecht, Netherlands.

Trifunac, M.D. (2006),
Measurement of rotations – conditio sine qua non – for comprehensive interpretation of strong motion,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Lee, W.H.K., Liu, C.C., Wu, C.F. (2006),
Measuring Rotation Motions in the Free Field of Taiwan,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Kalkan, E. and Graizer, V. (2007),
Multi-Component Ground Motion Response Spectra,
ISET Journal of Earthquake Technology, 44 (22).

Paul Spudich, Jon B. Fletcher (2008),
Observation and prediction of dynamic ground strains, tilts and torsions caused by the M6.0 2004 Parkfield, California, earthquake and aftershocks derived from UPSAR array observations,
Bulletin of the Seismological Society of America, accepted.

Nigbor, R. (2006),
Observational experience with rotational strong motion,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Cochard, A., Flaws, A., Schreiber, K.U., Igel, H. (2003),
Observations and simulations of rotational motions,
Geophysical Research Abstracts, EGU Meeting 2003, Nice.

Boore, D.M. (2005),
On pads and filters: processing strong-motion data,
Bulletin of the Seismological Society of America, 95 (2), 745-750, doi:10.1785/0120040160.

Hutt, C.R., Evans, J.R. (2006),
Plan for instrument testing in the ANSS,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Boore, D.M., Bommer, J.J. (2005),
Processing of strong-motion accelerograms: needs, options and consequences,
Soil Dynamics and Earthquake Engineering, 25 (2), 93-115.

Safak, E., Hudnut, K. (2006),
Real-time structural monitoring and damage detection by acceleration and GPS sensors,
paper presented at 8th US National Conference on Earthquake Engineering San Francisco, California, San Francisco, California, USA, 18-22 April 2006.

Igel, H., Schreiber, U., Flaws, A., Schuberth, B., Velikoseltsev, A., Cochard, A. (2005),
Rotational motions induced by the M8.1 Tokachi-oki earthquake, September 25, 2003,
Geophysical Research Letters, 32.

Trifunac, M.D., Lee, V. (1973),
Routine computer processing of strong-motion accelerograms,
367 pp., California Institute of Technology, Earthquake Engineering Research Laboratory, Pasadena, California, USA.

Safak, E. (2006),
Significance of rotational motions in structures,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Nigbor, R.L. (1994),
Six-degree-of-freedom ground-motion measurement,
Bulletin of the Seismological Society of America, 84 (5), 1665-1669.

Wang, G., Boore, D.M., Igel, H., Zhou X. (2003),
Some observations on colocated and closely spaced strong groundmotion records of the 1999 Chi-Chi, Taiwan, Earthquake,
Bulletin of the Seismological Society of America, 93 (2), 674-693.

Iwan, W.D., Moser, M.A., Peng C. (1985),
Some observations on strong-motion earthquake measurements using a digital accelerograph,
Bulletin of the Seismological Society of America, 75 (5), 1225-1246.

Zbigniew Zembaty, Alberto Castellani, Giacomo Boffi (1993),
Spectral analysis of the rotational component of seismic ground motion,
Probabilistic Engineering Mechanics, ELSEVIER, 8, 5-14.

A. Castellani, Z. Zembaty (1994),
Stochastic Modeling of Seismic Surface Rotations,
Natural Hazards (Kluwer Academic Publishers), 10, 181-191.

Ruge, A.C., McComb, H.E. (1943),
Tests of earthquake accelerometers on a shaking table,
Bulletin of the Seismological Society of America, 33 (1), 2-12.

Pillet, R. and Virieux, J. (2007),
The effects of seismic rotations on inertial sensors,
Geophys. J. Int., doi:10.1111/j.1365-246X.2007.03617.x.

Graizer, V. (2006),
Theoretical basis for rotational effects in strong motion and some results ,
invited presentation at Rotational Workshop, Menlo Park / Pasadena, CA, 16.02.2006.

Graizer V. M. (2006),
Tilts in Strong Ground Motion,
BSSA, 96 (6), 2090-2102, doi:10.1785/0120060065, in press.

Paul Spudich, Lee K. Steck, Margaret Hellweg, J. B. Fletcher, and Lawrence M. Baker (1995),
Transient stresses at Parkfield, California, produced by the M7.4 Landers earthquake of June 28, 1992: Observations from the UPSAR dense seismograph array,
Journal of Geophysical Research, 100 (B1), 675-690.

Takeo, M., Ito, H.M. (1997),
What can be learned from rotational motions excited by earthquakes ?,
Geophysical Journal International, 129, 319-329.