Peter C. Chu
Distinguished Professor and Chair
Department
of Oceanography
Naval Postgraduate School, Monterey, CA 93943
Underwater Mine Burial Prediction
(15)
Donas, A., I. Famelis, P.C. Chu, and G. Galanis, 2021: Optimization
of the Navy’s three-dimensional mine impact burial prediction simulation model,
IMPACT35, using high-order numerical models. Journal of Defense Modeling and Simulation: Application, Methodology,
Technology 1-15, doi:
10.1177/154851292129211028661.
(14) Chu, P. C.,
2009: Mine
impact burial prediction from one to three dimensions. Applied Mechanics Reviews, 62,
010802.
(13) Chu, P.C.,
and C.W. Fan, 2007: Mine
impact burial model (IMPACT35) verification and improvement using sediment
bearing factor method.
IEEE Journal of Oceanic Engineering, 32
(1), 34-48.
(12) Chu, P.C., G.R. Amezaga, E.L. Gottshall, and D. S. Cwalina, 2007: Ocean
nowcast/forecast systems for improvement of Naval undersea capabilities. Marine Technology Society Journal, 41 (2), 23-30
(11) Chu, P.C., and C.W. Fan, 2006: Prediction of
falling cylinder through air-water-sediment columns. Journal of Applied Mechanics, 73,
300-314.
(10) Chu, P.C., M. Cornelius,
and M. Wagstaff, 2005: Suspended sediment effect on buried mine detection using
CASS/GRAG model. U.S. Navy Journal of Underwater Acoustics, 55,
307-318.
(9)
Chu, P.C., A. Gilles, and C.W. Fan, 2005: Experiment of
falling cylinder through the water column. Experimental and Thermal Fluid Sciences,
29, 555-568.
(8)
Chu, P.C., and C.W. Fan, 2005: Pseudo-cylinder
parameterization for mine impact burial prediction. Journal of Fluids
Engineering, 127,
1515-1520.
(7)
Chu, P.C., M. Cornelious, and M. Wagstaff, 2005: Effects of
suspended sediment on acoustic detection using reverberation. Marine
Technology Society Journal, 39 (2), 105-109.
(6) Chu, P.C.,
C.W. Fan, A. D. Evans, and A. Gilles, 2004: Triple
coordinate transforms for prediction of falling cylinder through the water
column. Journal of
Applied Mechanics, 71, 292-298.
(5) Chu, P.C., M.D. Perry, E.L. Gottashall, and
D.S. Cwalina, 2004: Satellite data assimilation for weapon acoustic preset
program. U.S. Navy Journal of Underwater
Acoustics, 54, 747-774
(unclassified).
(4) Chu, P.C., M. D. Perry, E.L. Gottshall, and D.S. Cwalina, 2004: Satellite data
assimilation for improvement of Naval undersea capability. Marine Technology Society Journal, 38(1), 11-23
(3) Chu, P.C., C.J. Cintron, S.D. Haeger, D. Schneider, R.E. Keenan, and D.
N.Fox, 2002: Yellow Sea
acoustic uncertainty caused by hydrographic data error. In: Impact of
Littoral Environmental Variability on Acoustic Predictions and Sonar
Performance, Kluwer Science Publishing Co.,563-570
(2) Chu, P.C., C.J. Cintron, S.D. Haeger, R.E. Keenan, 2002: Acoustic mine
detection using the Navy's CASS/GRAB model. Journal of Counter-Ordnance Technology (CD Rom).
(1)Chu, P.C., E.L. Gottshall, and T. Halwachs,
1998: Environmental effects on Naval warfare simulations. NPS-IJWA-98-006,
Institute of Joint Warfare Analysis, Naval Postgraduate School, 1998.