Dr Vassilis Glenis Dr Vedrana Kutija Professor Chris Kilsby
| A fully hydrodynamic urban flood modelling system representing buildings, green space and interventions | 2018 |
|
Dr Ciprian Spatar Dr Nigel Penna Dr Henny Mills Dr Vedrana Kutija Dr Martin Cooke et al. | A robust approach for mapping group marks to individual marks using peer assessment | 2015 |
|
Dr Vassilis Glenis Professor Chris Kilsby Dr Vedrana Kutija
| Flood Risk Management in Small Urban River Using a Sustainable Urban Drainage System: Wortley Beck, Leeds, UK | 2014 |
|
Dr Vassilis Glenis Dr Stephen McGough Dr Vedrana Kutija Professor Chris Kilsby Dr Simon Woodman et al. | Flood modelling for cities using Cloud computing | 2013 |
|
Dr Vassilis Glenis Dr Vedrana Kutija Professor Chris Kilsby Dr Stephen McGough Dr Simon Woodman et al. | Urban flood modelling using cloud computing | 2013 |
|
Dr Vedrana Kutija Michael Murray
| An object-oriented approach to the modelling of free-surface flows | 2007 |
|
Dr Vedrana Kutija
| 1D River Model and a GIS Tool for Floodplain Mapping: A case Study of the Ouseburn Catchment, Newcastle, UK | 2006 |
|
Dr Vedrana Kutija
| An Integration of GIS and 1D River Model inFloodplain Mapping | 2006 |
|
Dr Kutsi Erduran Dr Vedrana Kutija Charlotte MacAlister
| Finite volume solution to integrated shallow surface-saturated groundwater flow | 2005 |
|
Dr Kutsi Erduran Dr Vedrana Kutija
| Hybrid finite-volume finite-difference scheme for the solution of Boussinesq equations | 2005 |
|
Dr Vedrana Kutija Dr Kutsi Erduran
| An integrated model for flow in wetlands | 2004 |
|
Dr Kutsi Erduran Dr Vedrana Kutija
| Numerical model for flow through flexible vegetation | 2003 |
|
Dr Kutsi Erduran Dr Vedrana Kutija
| Quasi-three-dimensional numerical model for flow through flexible, rigid, submerged and non-submerged vegetation | 2003 |
|
Dr Vedrana Kutija Michael Murray
| A Fast Hydrodynamic Network Modelling System Using Object-Oriented Numerics | 2002 |
|
Dr Kutsi Erduran Dr Vedrana Kutija Dr Caspar Hewett
| Finite Volume Solution For Flow in a Channel with a Step on its Bottom | 2002 |
|
Dr Vedrana Kutija
| Hydraulic modelling of floods | 2002 |
|
Dr Vedrana Kutija Dr Caspar Hewett
| Modelling of supercritical flow conditions revisited" NewC Scheme | 2002 |
|
Dr Caspar Hewett Dr Vedrana Kutija
| Unconditionally Stable Explicit Finite Difference (USED) Schemes for Four Problems in Hydraulics | 2002 |
|
Dr Kutsi Erduran Dr Vedrana Kutija
| Application of the finite volume method with osher scheme & split technique for different types of flow in a channel. | 2001 |
|
Dr Kutsi Erduran Dr Vedrana Kutija Dr Caspar Hewett
| An Investigation of a Straight Channel Assumption for Meandering Channels | 2000 |
|
Dr Vedrana Kutija Dr Caspar Hewett Dr Kutsi Erduran
| Breaking the taboos - stability of finite difference methods for the solution of flow problems | 2000 |
|
Dr Caspar Hewett Dr Vedrana Kutija Dr Kutsi Erduran
| Breaking the Taboos: Stability of Finite Difference for the Solution of Flow problems | 2000 |
|
Dr Vedrana Kutija Michael Murray
| Experiences in object oriented design | 2000 |
|
Dr Vedrana Kutija
| Use of object oriented programming in modelling of flow in open channel networks | 1998 |
|
Dr Vedrana Kutija
| A numerical model for assessing the additional resistance to flow introduced by flexible vegetation | 1996 |
|