102 D.S.JENG
            Jeng,  D.S.  (1997a)  ‘Soil  response  in  cross-anisotropic  seabed  due  to  standing  waves’
               Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 123, 1:9–19.
            Jeng,  D.S.  (1997b)  Wave-induced  seabed  response  in  front  of  a  breakwater,  PhD
               Dissertation, The University of Western Australia, 297pp.
            Jeng,  D.S.  (2001)  ‘Numerical  modelling  for  wave-seabed-pipe  interaction  in  a  non-
               homogeneous  porous  seabed’  Soil  Dynamics  and  Earthquake  Engineering,  21,  8:
               699–712.
            Jeng, D.S. and Cheng, A.H.D. (2000) ‘Wave-induced seabed instability around a buried
               pipe in a poroelastic seabed’ Ocean Engineering, 27, 2:127–146.
            Jeng,  D.S.  and  Lin,  Y.S.  (1999)  ‘Pore  pressure  on  a  submarine  pipeline  in  a  cross-
               anisotropic non-homogeneous seabed under wave loading’ Canadian Geotechnical
               Journal, 36, 3:563–572.
            Jeng,  D.S.  and  Lin,  Y.S.  (2000)  ‘Response  of  in-homogeneous  seabed  around  buried
               pipeline  under  ocean  waves’  Journal  of  Engineering  Mechanics,  ASCE,  126,  4:
               321–332.
            Jeng, D.S., Cheng, L. and Lin, Y.S. (1998) ‘Numerical study of wave-seabed interaction
               in Gibson soils’ 8th Biennial Computational Techniques and Application Conference,
               Adelaide, Australia, 321–328.
            Jeng, D.S., Rahman, M.S. and Lee, T.L. (1999) ‘Effects of inertia forces on wave-induced
               seabed  response’  International  Journal  of  Offshore  and  Polar  Engineering,  9,  4:
               307–313.
            Jeng,  D.S.,  Cha,  D.H.,  Lin,  Y.S.  and  Hu,  P.S.  (2000)  ‘Analysis  on  pore  pressure  in  an
               anisotropic  seabed  in  the  vicinity  of  a  caisson’  Applied  Ocean  Research,  22:
               317–329.
            Jeng,  D.S.,  Cha,  D.H.,  Lin,  Y.S.  and  Hu,  P.S.  (2001a)  ‘Wave-induced  pore  pressure
               around a composite breakwater’ Ocean Engineering, 28, 10:1413–1435.
            Jeng, D.S., Postma, P.F. and Lin, Y.S. (2001b) ‘Stresses and deformation of a buried pipe
               under  ocean  wave  loading’  Journal  of  Transportation  Engineering,  ASCE,  127(5),
               127, 5:398–407.
            Lundgren,  H.,  Lindhardt,  J.R.C.  and  Romhild,  C.J.  (1989)  ‘Stability  of  breakwaters  on
               poor foundation’ Proceedings 12th International Conference on Soil Mechanics and
               Foundation Engineering, 451–454.
            Magda,  W.  (1996)  ‘Wave-induced  uplift  force  acting  on  a  submarine  buried  pipeline:
               Finite  element  formulation  and  verification  of  computations’  Computers  and
               Geotechnics, 19, 1:47–73.
            Magda,  W.  (1997)  ‘Wave-induced  uplift  force  on  a  submarine  pipeline  buried  in  a
               compressible seabed’ Ocean Engineering, 24, 6:551–576.
            Magda,  W.  (2000)  ‘Wave-induced  cyclic  pore  pressure  perturbation  effects  in
               hydrodynamic uplift force acting on submarine pipeline buried in seabed sediments’
               Coastal Engineering, 39:243–272.
            Mase,  H.,  Sakai,  T.  and  Sakamoto,  M.  (1994)  ‘Wave-induced  porewater  pressure  and
               effective stresses around breakwater’ Ocean Engineering, 21, 4:361–379.
            Mizutani,  N.  and  Mostafa,  A.M.  (1998)  ‘Non-linear  wave-induced  seabed  instability
               around coastal structure’ Coastal Engineering Journal, 40:131–160.
            Mynett, A.E. and Mei, C.C. (1982) ‘Wave-induced stresses in a saturated poro-elastic sea
               bed beneath a rectangular caisson’ Geotechnique, 33, 3:293–305.
            Nago,  H.,  Maeno,  T.,  Matsumoto,  T.  and  Hachiman,  Y.  (1993)  ‘Liquefaction  and
               densification  of  loosely  deposited  sand  bed  under  wave  pressure  variation’: