The surface gradient method for the treatment of source terms in the shallow-water equations JG Zhou, DM Causon, CG Mingham, DM Ingram Journal of Computational physics 168 (1), 1-25, 2001 | 749 | 2001 |
Methodology of the modular ECG analysis system MEANS JH Van Bemmel, JA Kors, G Van Herpen Methods of information in medicine 29 (04), 346-353, 1990 | 339 | 1990 |
Electronic health record standards D Kalra Yearbook of medical informatics 15 (01), 136-144, 2006 | 324 | 2006 |
Developments in Cartesian cut cell methods DM Ingram, DM Causon, CG Mingham Mathematics and Computers in Simulation 61 (3-6), 561-572, 2003 | 323 | 2003 |
Calculation of shallow water flows using a Cartesian cut cell approach DM Causon, DM Ingram, CG Mingham, G Yang, RV Pearson Advances in water resources 23 (5), 545-562, 2000 | 198 | 2000 |
Numerical solutions of the shallow water equations with discontinuous bed topography JG Zhou, DM Causon, DM Ingram, CG Mingham International journal for numerical methods in fluids 38 (8), 769-788, 2002 | 158 | 2002 |
Numerical prediction of dam-break flows in general geometries with complex bed topography JG Zhou, DM Causon, CG Mingham, DM Ingram Journal of hydraulic engineering 130 (4), 332-340, 2004 | 154 | 2004 |
Multi-criteria site selection for offshore renewable energy platforms L Cradden, C Kalogeri, IM Barrios, G Galanis, D Ingram, G Kallos Renewable energy 87, 791-806, 2016 | 153 | 2016 |
A Cartesian cut cell method for compressible flows part A: Static body problems G Yang, DM Causon, DM Ingram, R Saunders, P Battent The Aeronautical Journal 101 (1002), 47-56, 1997 | 147 | 1997 |
Resonant wave energy harvester based on dielectric elastomer generator G Moretti, GPR Papini, M Righi, D Forehand, D Ingram, R Vertechy, ... Smart Materials and Structures 27 (3), 035015, 2018 | 124 | 2018 |
A free-surface capturing method for two fluid flows with moving bodies L Qian, DM Causon, CG Mingham, DM Ingram Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2006 | 121 | 2006 |
A Cartesian cut cell method for shallow water flows with moving boundaries DM Causon, DM Ingram, CG Mingham Advances in water Resources 24 (8), 899-911, 2001 | 114 | 2001 |
Calculation of compressible flows about complex moving geometries using a three‐dimensional Cartesian cut cell method G Yang, DM Causon, DM Ingram International Journal for Numerical Methods in Fluids 33 (8), 1121-1151, 2000 | 108 | 2000 |
Protocols for the equitable assessment of marine energy converters DM Ingram Lulu. com, 2011 | 93 | 2011 |
Modelling and testing of a wave energy converter based on dielectric elastomer generators G Moretti, GP Rosati Papini, L Daniele, D Forehand, D Ingram, R Vertechy, ... Proceedings of the Royal Society A 475 (2222), 20180566, 2019 | 91 | 2019 |
A cartesian cut cell method for compressible flows Part B: moving body problems G Yang, DM Causon, DM Ingram, R Saunders, P Battent The Aeronautical Journal 101 (1002), 57-65, 1997 | 84 | 1997 |
Characterisation of tidal flows at the european marine energy centre in the absence of ocean waves BG Sellar, G Wakelam, DRJ Sutherland, DM Ingram, V Venugopal Energies 11 (1), 176, 2018 | 77 | 2018 |
Advances in calculation methods for supercritical flow in spillway channels DM Causon, CG Mingham, DM Ingram Journal of Hydraulic Engineering 125 (10), 1039-1050, 1999 | 76 | 1999 |
Capture and simulation of the ocean environment for offshore renewable energy S Draycott, B Sellar, T Davey, DR Noble, V Venugopal, DM Ingram Renewable and Sustainable Energy Reviews 104, 15-29, 2019 | 68 | 2019 |
The development of a clinical skills centre J Dacre, M Nicol, D Holroyd, D Ingram Journal of the Royal College of Physicians of London 30 (4), 318, 1996 | 68 | 1996 |