Dong-Sheng Jeng

Dong-Sheng Jeng has left The University of Sydney effective 30 January 2008.

We wish Dong-Sheng all the best as he takes up his role as the NRP Chair of Civil Engineering at The University of Dundee, Scotland.

Completed research projects at The University of Sydney

While Dong has left, we will retain descriptions of some of the recent projects he undertook at The University of Sydney.

2007 publications

Cha DH, Blumenstein B, Zhang H & Jeng D-S (2007): A Neural-Genetic Technique for Coastal Engineering: Determining Wave-induced Seabed Liquefaction. In Studies in Computational Intelligence, SCI Series. (accepted)-Book Chapter
Jeng D-S (2007) Random wave-induced pore pressure and effective stresses in marine sediments. In: Ocean Engineering Research Advances, Nova Publisher (accepted)-Book Chapter
Bateni SM, Mortazavi SM, Jeng D-S (2007) Runoff Forecasting Using An Adaptive Neuro-Fuzzy Approach. In Hydrology Research Trends, Nova Publisher (accepted)-Book Chapter
Jeng D-S and Zheng, Y (2007) Energy from offshore wind: An overview. In Environmental issues, Pollution and Alternative Energy, USyd Press (in press)-Book Chapter
Lee TL & Jeng, D-S (2007) Application of Artificial Neural Networks in Civil Engineering. In: Artificial Intelligence: New Research, Nova Publisher (accepted)-Book Chapter
Barry DA, Lockington DA, Jeng D-S, Parlange J-Y, Li L & Stagnitti F (2007): Analytical solutions for flow in compressible, saturated, one-dimensional porous media. Advances in Water Resources, 30(4),927–934
Bateni SM, Borghei SM & Jeng D-S (2007): Neural Network assessment for scour depth around bridge piers. Engineering Applications of Artificial Intelligence, 20(3), 401–414.
Bateni SM, Jeng D-S & Melville BW (2007): Bayesian Neural Networks for prediction of equilibrium and time-dependent scour depth around bridge piers. Advances in Engineering Software, 38(2), 102-111.
Bateni SM & Jeng D-S (2007): Estimation of pile group scour using adaptive neuro-fuzzy approach. Ocean Engineering 34(8–9), 1344-1354
Jeng D-S & Seymour BR (2007): A simplified analytical approximation for pore-water pressure build-up in a porous seabed. Journal of the Waterway, Port, Coastal and Ocean Engineering, ASCE, 133(4), 309–321
Jeng D-S, Seymour BR, Gao FP & Wu YX (2007): Ocean waves propagating over a porous seabed: Residual and oscillatory mechanisms Science in China , Series E, 50(1),81-89.
Jeng D-S, Seymour BR & Li J (2007): A new approximation for pore pressure accumulation in marine sediment due to water waves. International Journal for Numerical and Analytical Methods in Geomechanics ,31(1), 53–69.
Lee TL, Jeng D-S, Zhang GH & Hong JH (2007) Neural Network modelling for estimation of scour depth around bridge piers. Journal of Hydrodynamics Series B, 19(3), 378 386.
Li J & Jeng D-S (2007): Note on propagation of shallow water waves in water of variable depth. Ocean Engineering, 34(8–9), 1336–1343.
Lu J-F, Hanyga A & Jeng D-S (2007): A mixture-theory-based dynamic model for a porous medium saturated by two immiscible fluids, Journal Applied Geophysics, 62(2), 89-106.
Lu J-F, Hanyga A & Jeng D-S (2007): A linear dynamic model for a saturated porous medium , Transport in Porous Media, 68(3), 321-340.
Lu J-F & Jeng D-S (2007): A half-space saturated poroelastic medium subject to a moving point load. International Journal of Solid and Structures, 44(2), 573-586
Lu J-F & Jeng D-S (2007): Poro-elastic model for pile-porous medium interaction due to seismic waves. International Journal for Numerical and Analytical Methods in Geomechanics (in press)
Lu J-F, Jeng D-S & Lee TL (2007): Dynamic response of a circular tunnel with a piecewise lining and embedded in a porous medium. Soil Dynamics and Earthquake Engineering, 27(9), 873-891.
Lu J-F & Jeng D-S (2007): A coupled model for an offshore pile, seabed and seawater interactions, Journal of Coastal Research, SI50, 389–393.
Lu J-F, Jeng D-S & Lee TL (2007): Dynamic response of a circular tunnel with a piecewise lining and embedded in a porous medium. Soil Dynamics and Earthquake Engineering, 27(9), 873–891.
Williams S J & Jeng D-S (2007): The attenuation of waves on superposed fluids over a poro-elastic bed. Ocean Engineering, 34(13), 1818–1831
Williams S & Jeng D-S (2007): Viscous attenuation of interfacial waves over a porous seabed, Journal of Coastal Research, SI 50, 338–342..
Zhang H, Jeng D-S, Cha D & Blumenstein M(2007): Parametric study in the prediction of wave-induced liquefaction using an Artificial Neural network Model, Journal of Coastal Research, SI 50, 374–378.
Zheng JH, Jeng D-S & Mase H(2007): Sandy beach respond to sloping seawalls: An experimental Study, SI 50, 334-337.
Qu P, Luan M, Jeng D-S, Guo Y & Yang Q (200X7): Dynamic response of a porous seabed-pipeline interaction under wave loading: Soil-pipe contact effects and inertial effects. Computers and Geotechnics (accepted)
Jeng D-S & Lu J-F (200X): Vibration analysis of a circular tunnel with jointed liners embedded in a liner elastic medium subjected to seismic waves. Journal of Vibration and Acoustics, ASME (accepted, 8/8/2007)
Lee TL, Jeng D-S & Chen BR (2007) An engineering application tool for visual assessment of the equilibrium beach. China Ocean Engineering (accepted,
Liu Z & Jeng D-S (2007): Discussion of “Laboratory Study of Liquefaction due to Wave-Seabed Interaction” by B. Chowdhury et al. Journal of Geotechnical and Geoenvironmental Engineering, ASCE (accepted).
Lu J-F, Jeng D-S & Williams S (2007): 2.5-D Green’s function and boundary integral equation for a saturated porous medium. I. Green function International Journal for Solid and Structures (accepted, 25/7/2007)- online available http://www.sciencedirect.com/science/journal/00207683
Lu J-F, Jeng D-S & Williams S (2007): 2.5-D Green’s function and boundary integral equation for a saturated porous medium. II. Boundary element method. International Journal for Solid and Structures (accepted, 25/7/2007)- online available http://www.sciencedirect.com/science/journal/00207683