Void fraction measurements in breaking waves CE Blenkinsopp, JR Chaplin Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2007 | 152 | 2007 |
Measurements of the time-varying free-surface profile across the swash zone obtained using an industrial LIDAR CE Blenkinsopp, MA Mole, IL Turner, WL Peirson Coastal Engineering 57 (11-12), 1059-1065, 2010 | 133 | 2010 |
Net sediment transport and morphological change in the swash zone of a high-energy sandy beach from swash event to tidal cycle time scales G Masselink, P Russell, I Turner, C Blenkinsopp Marine Geology 267 (1-2), 18-35, 2009 | 115 | 2009 |
Swash zone sediment transport, step dynamics and morphological response on a gravel beach G Masselink, P Russell, C Blenkinsopp, I Turner Marine Geology 274 (1-4), 50-68, 2010 | 108 | 2010 |
Swash zone sediment fluxes: Field observations CE Blenkinsopp, IL Turner, G Masselink, PE Russell Coastal engineering 58 (1), 28-44, 2011 | 98 | 2011 |
Application of LiDAR technology for measurement of time-varying free-surface profiles in a laboratory wave flume CE Blenkinsopp, IL Turner, MJ Allis, WL Peirson, LE Garden Coastal Engineering 68, 1-5, 2012 | 88 | 2012 |
Void fraction measurements and scale effects in breaking waves in freshwater and seawater CE Blenkinsopp, JR Chaplin Coastal Engineering 58 (5), 417-428, 2011 | 77 | 2011 |
Bubble size measurements in breaking waves using optical fiber phase detection probes CE Blenkinsopp, JR Chaplin IEEE Journal of Oceanic Engineering 35 (2), 388-401, 2010 | 76 | 2010 |
High-resolution monitoring of wave transformation in the surf zone using a LiDAR scanner array K Martins, CE Blenkinsopp, HE Power, B Bruder, JA Puleo, EWJ Bergsma Coastal Engineering 128, 37-43, 2017 | 73 | 2017 |
The effect of relative crest submergence on wave breaking over submerged slopes CE Blenkinsopp, JR Chaplin Coastal Engineering 55 (12), 967-974, 2008 | 72 | 2008 |
Laboratory investigation of the Bruun Rule and beach response to sea level rise AL Atkinson, TE Baldock, F Birrien, DP Callaghan, P Nielsen, T Beuzen, ... Coastal Engineering 136, 183-202, 2018 | 67 | 2018 |
Comprehensive field study of swash-zone processes. II: Sheet flow sediment concentrations during quasi-steady backwash T Lanckriet, JA Puleo, G Masselink, IL Turner, D Conley, C Blenkinsopp, ... Journal of Waterway, Port, Coastal, and Ocean Engineering 140 (1), 29-42, 2014 | 59 | 2014 |
Monitoring deformations of infrastructure networks: A fully automated GIS integration and analysis of InSAR time-series V Macchiarulo, P Milillo, C Blenkinsopp, G Giardina Structural Health Monitoring 21 (4), 1849-1878, 2022 | 53 | 2022 |
Observations of the swash zone on a gravel beach during a storm using a laser-scanner (Lidar) LP Almeida, G Masselink, P Russell, M Davidson, T Poate, R McCall, ... Journal of Coastal Research, 636-641, 2013 | 53 | 2013 |
The influence of swash-based reflection on surf zone hydrodynamics: A wave-by-wave approach K Martins, CE Blenkinsopp, R Almar, J Zang Coastal Engineering 122, 27-43, 2017 | 52 | 2017 |
Modes of berm and beachface recovery following storm reset: Observations using a continuously scanning lidar MS Phillips, CE Blenkinsopp, KD Splinter, MD Harley, IL Turner Journal of Geophysical Research: Earth Surface 124 (3), 720-736, 2019 | 50 | 2019 |
Wave runup and overwash on a prototype-scale sand barrier CE Blenkinsopp, A Matias, D Howe, B Castelle, V Marieu, IL Turner Coastal Engineering 113, 88-103, 2016 | 50 | 2016 |
Energy dissipation in the inner surf zone: New insights from Li DAR‐based roller geometry measurements K Martins, CE Blenkinsopp, R Deigaard, HE Power Journal of Geophysical Research: Oceans 123 (5), 3386-3407, 2018 | 46 | 2018 |
Monitoring individual wave characteristics in the inner surf with a 2‐dimensional laser scanner (LiDAR) K Martins, CE Blenkinsopp, J Zang Journal of Sensors 2016 (1), 7965431, 2016 | 46 | 2016 |
Bed level fluctuations in the inner surf and swash zone of a dissipative beach JA Puleo, T Lanckriet, C Blenkinsopp Marine geology 349, 99-112, 2014 | 45 | 2014 |