| # | List of Publication by Prof. Koustuv Debnath |
|---|---|
| 1 | P K Raushan, S K Singh, K Debnath, Turbulent anisotropy and length scale variation over multiple shaped structure, 145(6), 061901, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2023 |
| 2 | V K Das, K Debnath, B Sivakumar, On the evolution of turbulent characteristics of an eroding cohesive riverbank, 37(4), Stochastic Environmental Research and Risk Assessment, 2023 |
| 3 | M K Bhukta, S K Singh, K Debnath, S Majumder, Modulation of recirculation zone behind a cubical obstruction by the vertically placed turbulent multijets in the form of shower, 50(1), International Journal of Fluid Mechanics Research, 2023 |
| 4 | A. Mondal, S. Chatterjee, A. McDonald Tariang, L. Prince Raj, K. Debnath, Numerical investigation of on-demand fluidic winglet aerodynamic performance and turbulent characterization of a low aspect ratio wing, 10(2), 107-125, Advances in Aircraft and Spacecraft Science, 2023 |
| 5 | S Hansda, K Debnath, D Pal, Effect of d-type rib roughness on the turbulent structure of side wall boundary layer for wave-current combined flow, Proc IMechE Part M: J Engineering for the Maritime Environment, 2023 |
| 6 | S Sarkar, K Debnath, S K Singh, Near bed flow characteristics over the patch and non-patch zone due to pure wave, 18(9), 1266-1274, Ships and Offshore Structures, Taylor & Francis, 2023 |
| 7 | Jayanta Shounda, Krishnendu Barman & Koustuv Debnath, Effect of wave-current flow on double-averaged turbulence properties over rough bed of hemispherical obstacles, Coastal Engineering Journal, Taylor and Francis, 2023 |
| 8 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath, Double-averaged turbulence statistics of wave current flow over rough bed with staggered arrangement of hemispherical blocks, 291, 116332, Ocean Engineering, Elsevier, 2023 |
| 9 | Vikas Kumar Das, Santosh Kumar Singh, Bellie Sivakumar, Koustuv Debnath, Testing the complexity and chaotic nature of wave-dominated turbulent flows, 285, 115326, Ocean Engineering, 2023 |
| 10 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath, Spatial-averaged turbulence characteristics over staggered pattern roughness, 1-21, Mechanica, Springer Netherlands, 2023 |
| 11 | S Sarkar, K Debnath, V K Das, B S Mazumder, Formation and migration of ripple pattern due to pure wave, 28(1), 21-33, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2022 |
| 12 | S K Singh, V Das, S Chaudhuri, K Debnath, Spatial variation of mean flow and turbulence characteristics within channel contraction–an experimental approach, ISH Journal of Hydraulic Engineering, Taylor and Francis, 2022 |
| 13 | S K Singh, J Chowdhury, S Ghosh, P K Raushan, K Debnath, P Kumar, Experimental and numerical investigation of flow characteristics in an open rectangular cavity, 28 (Supp 1), 1--13, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2022 |
| 14 | V K Das, K Debnath, B Sivakumar, On the evolution of turbulent characteristics of an eroding cohesive riverbank, 1-23, Stochastic Environmental Research and Risk Assessment, Springer Berlin Heidelberg, 2022 |
| 15 | S Chaudhuri, V K Das, K Debnath, S Hansda, Embankment breaching at Indian Sundarban–an assessment on altered primary sediment index properties and fluvial flow parameters, 28(4), 449-460, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2022 |
| 16 | S Chaudhuri, M Pandey, K Debnath, G Oliveto, A comparative study on equilibrium scour volume around circular cylinders in clay–sand mixed cohesive beds, at near threshold velocity of sand–an experimental approach, 22(8), 6777-6791, Water Supply, IWA Publishing, 2022 |
| 17 | S Sarkar, S Roy, K Barman, V K Das, K Debnath, Turbulence effect on the mechanics of ripple formation under regular wave, 131(2), 1-16, Journal of Earth System Science, Springer, 2022 |
| 18 | S K Singh, K Debnath, Regular wave and turbulent current interaction in free surface flow, 8(2), 153-162, Journal of Ocean Engineering and Marine Energy, Springer, 2022 |
| 19 | D Dutta, A Dasgupta, P R Lawrence Raj, K Debnath, Drag Reduction and Turbulent Characteristics of a Low Aspect Ratio Wing with Fluidic On-Demand Winglet, 16, 01-16-01-0003, SAE International Journal of Aerospace, 2022 |
| 20 | V K Das, K Debnath, B Sivakumar, Does turbulence show fractal structure within a dynamic undercut of an alluvial riverbank?, 157, 111998, Chaos, Solitons & Fractals, Pergamon, 2022 |
| 21 | S Hansda, V K Das, K Debnath, Temporal modulation of turbulence structure over progressive erosion boundary under influence of wave current combined flow, 22, 683–713, Environmental Fluid Mechanics, Springer, 2022 |
| 22 | S Roy, V K Das, K Barman, B Mondal, K Debnath, Coupled dynamics of river bank undercut depth increment due to random velocity field, 21(3), 493-506, Environmental Engineering & Management Journal (EEMJ), 2022 |
| 23 | J Shounda, K Barman, S Roy, K Debnath, Spatial-averaged turbulence statistics over regular arrays of hemispherical roughness, 44(3), 1-19, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Springer, 2022 |
| 24 | V K Das, S Chaudhuri, K Barman, S Roy, K Debnath, Pier scours in fine-grained non-cohesive sediment and downstream siltation, an experimental approach, 43(3), 365-382, Physical Geography, Taylor & Francis, 2022 |
| 25 | S Hansda, K Debnath, Turbulent flow structure over rough side-wall surface under wave-against-current motion, 236(1), 209-227, Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 2022 |
| 26 | S Sarkar, V K Das, K Barman, K Debnath, Effect of the Wave on Sediment Suspension and the Morphological Pattern of Ripple Formation, 56(2), 207-223, Ocean Science Journal, Springer, 2021 |
| 27 | S K Singh, A Khait, P K Raushan, K Debnath, Localized and distributed energy in wave-current flow, 143(1), 1-22, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2021 |
| 28 | S K Singh, P K Raushan, K Debnath, Experimental investigation of turbulence produced by stationary grid, 48(2), 69-82, International Journal of Fluid Mechanics Research, 2021 |
| 29 | P K Raushan, S K Singh, K Debnath, Turbulence characteristics of oscillating flow through passive grid, 224, 1-13, Ocean Engineering, 2021 |
| 30 | S K Singh, P K Raushan, P Kumar, K Debnath, Anisotropy of Reynolds stress tensor in combined wave-current flow, 143(5), Journal of Offshore Mechanics and Arctic Engineering, ASME, 2021 |
| 31 | V K Das, S Hansda, K Debnath, S Chaudhuri, Riverbank stabilization based on the modulation of the near bank turbulence scales, 23(10), 15290-15313, Environment, Development and Sustainability, Springer, 2021 |
| 32 | P K Raushan, S K Singh, K Debnath, Turbulence anisotropy with higher-order moments in flow through passive grid under rigid boundary influence, 235(19), 3859-3874, Proc IMechE Part C: J Mechanical Engineering Science, Sage, 2021 |
| 33 | V K Das, S Hansda, K Debnath, S Chaudhuri, B S. Mazumder, Assessing the hydraulic performance of bamboo logs in riverbank stabilization: case study of Sundarbans, India, 66(1), Hydrological Sciences Journal, Taylor & Francis, 2021 |
| 34 | P K Raushan, S K Singh, K Debnath, Role of rigid boundary on the decay of turbulence generated by passive-grid for free surface flow, 235(7), Proceedings of the Institution of Mechanical Engineers, UK, Part C: Journal of Mechanical Engineering Science, Sage, 2021 |
| 35 | S Roy, K Barman, K Debnath, B S Mazumder, Quantification of turbulent structures in and around the boundary region of a turbulent round jet released into counter-flow, 171, 108758, Measurement, 2021 |
| 36 | D Chatterjee, BS Mazumder, S Ghosh, K Debnath, Turbulent flow characteristics over forward-facing obstacle, 22(3), Journal of Turbulence, 2021 |
| 37 | V K Das, K Debnath, S Roy, K Barman, S Hansda, B S Mazumder, Effect of turbulent structures on the riverbank erosion due to tidal influence: A case study from the Rupnarayan River, eastern India, 130(2), Journal of Earth System Science, 2021 |
| 38 | K Barman, S Roy, K Debnath, Characterization of eddy scales over tandem obstacles for surface wave-dominated flow, 118(12), 1922-1929, Current Science, 2020 |
| 39 | P K Raushan, A Paul, S K Singh, K Debnath, Spatially-averaged turbulent flow characteristics over ribbed surface in presence of unidirectional wave over steady current, 100, 102154, Applied Ocean Research, 2020 |
| 40 | VK Das, S Roy, K Barman, S Chaudhuri, K Debnath, Cohesive river bank erosion mechanism under wave-current interaction: A flume study, 129(1), 1-20, Journal of Earth System Science, 2020 |
| 41 | VK Das, K Barman, S Roy, S Chaudhuri, K Debnath, Near bank turbulence of a river bend with self similar morphological structures, 191, CATENA, 2020 |
| 42 | S Roy, K Barman, VK Das, K Debnath, BS Mazumder, Experimental Investigation of Undercut Mechanisms of River Bank Erosion Based on 3D Turbulence Characteristics, 7(1), Environmental Processes, 2020 |
| 43 | S Roy, K Barman, K Debnath, Turbulence properties in and around the mixing region of the round jet against current, 95(3), Physica Scripta, 2020 |
| 44 | SK Singh, PK Raushan, K Debnath, BS Mazumder, Higher order turbulent flow characteristics of oscillatory flow over a wall-mounted obstacle, 26(1), 84-95, ISH Journal of Hydraulic Engineering, 2020 |
| 45 | S K Singh, P K Raushan, K Debnath, B S Mazumder, Higher order turbulent flow characteristics of oscillatory flow over a wall-mounted obstacle, 26(1), 1--12, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2020 |
| 46 | A Paul, P K Raushan, S K Singh, K Debnath, Organized structure of turbulence in wave current combined flow over rough surface using spatio temporal averaging approach, 42(11), 1-17, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2020 |
| 47 | K Barman, P K Raushan, V K Das, S Roy, S Hansda, K Debnath, Turbulent Flow Characteristics in the Eroded Region of the Side-wall Bank, 19(8), Environmental Engineering and Management Journal, 2020 |
| 48 | P K Raushan, S K Singh, K Debnath, Grid-generated turbulence in pulsating flow under the rigid boundary influence, 78, 291--305, European Journal of Mechanics-B/Fluids, Elsevier, 2019 |
| 49 | V K Das, S Roy, Sayahnya, K Barman, S Chaudhuri, K Debnath, Study of clay--sand network structures and its effect on river bank erosion: an experimental approach, 78, 591, Environmental Earth Sciences, Springer, 2019 |
| 50 | S Hansda, K Barman, S Roy, K Debnath, Quantification of turbulent eddies in time-space and frequency domain for wave-current combined flow over side-wall roughness, 186, 106080, Ocean Engineering, Elsevier, 2019 |
| 51 | S Roy, K Barman K Debnath, Statistical Analysis of Flow Structures around a Circular Cylinder, 6, 773-787, Environmental Processes, Springer, 2019 |
| 52 | S K Singh, P K Raushan, K Debnath, Role of multiple flow stages over submerged structure, 181, 59-70, Ocean Engineering, Elsevier, 2019 |
| 53 | S K Singh, P K Raushan, K Debnath, B S Mazumder, Effect of surface wave on development of turbulent boundary layer over a train of rib roughness., 141(6), 061101, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2019 |
| 54 | V K Das, S Roy, K Barman, K Debnath, S Chaudhuri, B S Mazumder, Investigations on undercutting processes of cohesive river bank, 252(26), 110-124, Engineering Geology, Elsevier, 2019 |
| 55 | S Roy, K Debnath, Impact of Frontal Round Jet on Vortex-synchronization Control around a Cylinder: A Turbulence Perspective, 46(7), Canadian Journal of Civil Engineering, Canadian Science Publishing, 2019 |
| 56 | S Chaudhuri, K Debnath, S Roy, M K Manik, Flume study on contraction scour in clay–sand mixed cohesive bed., 25(1), 79-86, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2019 |
| 57 | K Barman, K Debnath, B S Mazumder, Turbulence Over Chains of Hemispherical Ribs Under Waves in a Current, 55(1), 55-75, Water Resources Research, American Geophysical Union, Wiley, 2019 |
| 58 | S Roy, V K Das, K Debnath, Characteristics of intermittent turbulent structures for river bank undercut depth increment, 172, 356-368, Catena, Elsevier, 2019 |
| 59 | K Barman, S Roy, V K Das, K Debnath, Effect of clay fraction on turbulence characteristics of flow near an eroded bank, 571, 87--102, Journal of Hydrology, Elsevier, 2019 |
| 60 | S K Singh, K Debnath, Discussion of “Boundary layer development over non-uniform sand rough bed channel”, by Anurag Sharma and Bimlesh Kumar (2017), 25 (3), 282--282, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2019 |
| 61 | S Roy, S Ghoshal, K Barman, V K Das, S Ghosh, K Debnath, Modulation of the recirculation region due to magneto hydrodynamic flow, 22 (1), 282--293, Engineering Science and Technology, an International Journal, Elsevier, 2019 |
| 62 | P K Raushan, S K Singh, K Debnath, Grid generated turbulence under the rigid boundary influence, 182, 252--261, Journal of Wind Engineering and Industrial Aerodynamics, Elsevier, 2018 |
| 63 | S K Singh, P K Raushan, P Kuma, K Debnath, Turbulent characteristics of pulsating flow over hydraulically smooth surface, 68, 10--19, European Journal of Mechanics-B/Fluids, Elsevier, 2018 |
| 64 | S Roy, K Debnath, B S Mazumder, Distribution of turbulent eddies behind a monopile for vortex lock-on condition due to wave current combined flow, 131, 70--87, Coastal Engineering, Elsevier, 2018 |
| 65 | S K Singh, P K Raushan, K Debnath, Combined effect of wave and current in rough bed free surface flow, 160, 20--32, Ocean Engineering, Elsevier, 2018 |
| 66 | K Barman, S Roy, K Debnath, Wave-current generated turbulence over hemisphere bottom roughness, 202, 1--17, Estuarine, Coastal and Shelf Science, Elsevier, 2018 |
| 67 | S Roy, S S Samantaray, K Debnath, Study of turbulent eddies for wave against current, 150, 176--193, Ocean Engineering, Elsevier, 2018 |
| 68 | P K Raushan, S K Singh, K Debnath, M Mukherjee, B S Mazumder, Distribution of turbulent energy in combined wave current flow, 167, 310--316, Ocean Engineering, Elsevier, 2018 |
| 69 | S Chaudhuri, S K Singh, K Debnath, M K Manik, Pier scour within long contraction in cohesive sediment bed, 18, 417--441, Environmental Fluid Mechanics, Springer, 2018 |
| 70 | J Li, S S Li, Discussion of “Turbulence over cube-mounted rough bed using spatiotemporal averaging approach”, 46, 67--68, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2018 |
| 71 | S Roy, K Debnath, B S Mazumder, Turbulence statistics and distribution of turbulent eddies for jet flow and rigid surface interaction., 70 (1), 55-88, Archives of Mechanics, 2018 |
| 72 | S K Singh, P K Raushan, K Debnath, M Mukherjee, B S Mazumder, Turbulence characteristics in boundary layers over a regular array of cubical roughness, 27(4), 404-417, ISH Journal of Hydraulic Engineering, Taylor &Francis, 2018 |
| 73 | S K Singh, K Debnath, B S Mazumder, Reply to the discussion by Li and Li on “Turbulence over cube-mounted rough bed using spatiotemporal averaging approach”, 46, 69--71, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2018 |
| 74 | K Barman, K Debnath, Koustuv, B S Mazumder, Turbulence over a pair of submerged hemispheres in presence of surface waves and following current, 140 (3), 031104, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2018 |
| 75 | K Barman, S Roy, K Debnath, Effect of relative spacing on wake turbulence under wave-current flow, 45(6), 489--503, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2018 |
| 76 | S K Singh, V K Pal, K Debnath, A numerical investigation of slip flow through circular micro-channel, 45(5), International Journal of Fluid Mechanics Research, Begell House, 2018 |
| 77 | S Roy, K Debnath, B S Mazumder, Distribution of eddy scales for wave current combined flow, 63, 170--183, Applied Ocean Research, Elsevier, 2017 |
| 78 | S K Singh, K Debnath, B S Mazumder, Turbulence over cube-mounted rough bed using spatiotemporal averaging approach, 44 (7), 504--517, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2017 |
| 79 | S K Singh, K Debnath, Turbulence Characteristics of Flow Under Combined Wave--Current Motion, 139 (2), 021102, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2017 |
| 80 | S K Singh, P K Raushan, K Debnath, B S Mazumder, Turbulent oscillatory flow along unidirectional current over square ribs, 45, 248--262, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2017 |
| 81 | S Roy, K Debnath, Vortex-Synchronization Control around a Partially Submerged Cylinder due to Wave-Following Current, 143, 06017003, Journal of Waterway, Port, Coastal, and Ocean Engineering, ASCE, 2017 |
| 82 | S K Singh, K Debnath, Turbulent flow characteristics in a rectangular channel under the influence of cube-mounted rough bed, 23 (2), 167--176, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2017 |
| 83 | K Barman, K Debnath, B S Mazumder, Higher-order turbulence statistics of wave--current flow over a submerged hemisphere, 49 (2), 025504, Fluid Dynamics Research, IOP Science, 2017 |
| 84 | K Barman, K Debnath, B S Mazumder, Turbulence study over submerged obstacles on waves and currents combined flow, 23(3), 246--257, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2017 |
| 85 | K Barman, K Debnath, Turbulent wakes behind bed-mounted hemispheres in co-existing surface wave, 44(2), 169-183, International Journal of Fluid Mechanics Research, Begell House, 2017 |
| 86 | K Barman, K Debnath, B S Mazumder, Turbulence between two inline hemispherical obstacles under wave--current interactions, 88, 32--52, Advances in Water Resources, Elsevier, 2016 |
| 87 | S K Singh, K Debnath, Combined effects of wave and current in free surface turbulent flow, 127, 170--189, Ocean Engineering, Elsevier, 2016 |
| 88 | S K Singh, K Debnath, B S Mazumder, Spatially-averaged turbulent flow over cubical roughness in wave-current co-existing environment, 114, 77--85, Coastal Engineering, Elsevier, 2016 |
| 89 | S K Singh, K Debnath, B S Mazumder, Changes in turbulent flow structure over rough-bed under combined wave-current motions, 22 (3), 305--313, ISH Journal of Hydraulic Engineering, Taylor& Francis, 2016 |
| 90 | S K Singh, K Debnath, B S Mazumder, Turbulence statistics of wave-current flow over a submerged cube, 142, 04015027, Journal of waterway, Port, coastal, and Ocean Engineering, ASCE, 2015 |
| 91 | I Datta, K Debnath, Volume of fluid model of open channel contraction, 95, 251--259, Journal of The Institution of Engineers (India): Series C, Springer, 2014 |
| 92 | K Debnath, S Chaudhuri, M K Manik, Local scour around abutment in clay/sand-mixed cohesive sediment bed, 20 (1), 46--64, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2014 |
| 93 | S Chaudhuri, K Debnath, Observations on initiation of pier scour and equilibrium scour hole profiles in cohesive Sediments, 19 (1), 27--37, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2013 |
| 94 | K Debnath, M K Manik, B S Mazumder, Turbulence statistics of flow over scoured cohesive sediment bed around circular cylinder, 41, 18--28, Advances in Water Resources, Elsevier, 2012 |
| 95 | K Debnath, S Chaudhuri, Local scour around non-circular piers in clay--sand mixed cohesive sediment beds, 151, 1--14, Engineering Geology, Elsevier, 2012 |
| 96 | K Debnath, S Chaudhuri, Effect of suspended sediment concentration on local scour around cylinder for clay--sand mixed sediment beds, 117, 236--245, Engineering Geology, Elsevier, 2011 |
| 97 | K Debnath, S Chaudhuri, Closure to “Bridge Pier Scour in Clay-Sand Mixed Sediments at Near-Threshold Velocity for Sand” by Koustuv Debnath and Susanta Chaudhuri, 137 (10), 1306--1307, Journal of Hydraulic Engineering, ASCE, 2011 |
| 98 | Debnath, K., and Chaudhury, S., Field Measurement and Formulations of Cohesive Sediment Erosion: A Review, 91, 7-15, Journal of the Institution of Engineers (Environmental Engineering Section), 2011 |
| 99 | K Debnath, S Chaudhuri, Laboratory experiments on local scour around cylinder for clay and clay--sand mixed beds, 111(1-4), 51--61, Engineering Geology, Elsevier, 2010 |
| 100 | K Debnath, S Chaudhuri, Bridge pier scour in clay-sand mixed sediments at near-threshold velocity for sand, 136(9), 597--609, Journal of Hydraulic Engineering, ASCE, 2010 |
| 101 | K Debnath, S Chaudhuri, Cohesive sediment erosion threshold: A review, 16 (1), 36--56, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2010 |
| 102 | V Nikora, S Larned, N Nikora, K Debnath, G Cooper, M Reid, Hydraulic resistance due to aquatic vegetation in small streams: field study, 134(9), 1326--1332, Journal of Hydraulic Engineering, ASCE, 2008 |
| 103 | K Debnath, A K Bhattacharya, B Mahato, A Chakrabarti, Volume of Fluid Model for Numerical Simulation of Vegetated Flows, 14 (2), 72--87, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2008 |
| 104 | K Debnath, V Nikora, J Aberle, B Westrich, M Muste, Erosion of cohesive sediments: Resuspension, bed load, and erosion patterns from field experiments, 133(5), 508--520, Journal of Hydraulic Engineering, ASCE, 2007 |
| 105 | K Debnath, V Nikora, A Elliott, Stream bank erosion: In situ flume tests, 133, 256--264, Journal of Irrigation and Drainage Engineering, ASCE, 2007 |
| 106 | A K Bhattacharya, K Debnath, Discussion of “Flow Interaction of Meandering River with Floodplains,” by Kanhu Charan Patra and Srijib K. Kar, 128, 245--245, Journal of Hydraulic Engineering, ASCE, 2002 |
| 107 | S Dey, K Debnath, Sediment pickup on streamwise sloping beds, 127(1), 39--43, Journal of Irrigation and Drainage Engineering, ASCE, 2001 |
| 108 | Dey, S and Debnath, K, Sediment pick-up on stream-wise sloping beds (vol 127, pg 39, 2001), 127, 263--263, Journal of Irrigation and Drainage Engineering, ASCE, 2001 |
| 109 | S Dey, K Debnath, Influence of streamwise bed slope on sediment threshold under stream flow, 126, 255--263, Journal of Irrigation and Drainage Engineering, ASCE, 2000 |
| 110 | S Dey, H K Dey Sarkar, K Debnath, Sediment threshold under stream flow on horizontal and sloping beds, 125 (5), 545--553, Journal of Engineering Mechanics, ASCE, 1999 |
Created: 23 November 2019