Khaled Mohammed

Ph.D. student

Field of expertise

Data assimilation, flood forecasting, hydroinformatics, hydrology and climate change.
My work in the research chair will focus on using artificial intelligence to improve hydrological data assimilation


  • Philip, S., Sparrow, S., Kew, S.F., van der Wiel, K., Wanders, N., Singh, R., Hassan, A., Mohammed, K., Javid, H., Haustein, K., Otto, F.E.L., Hirpa, F., Rimi, R.H., Islam, A.K.M.S., Wallom, D.C.H. and van Oldenborgh, G.J. (2018) Attributing the 2017 Bangladesh floods from meteorological and hydrological perspectives. Hydrology and Earth System Sciences Discussions, DOI: 10.5194/hess-2018-379
  • Mondal, M.S., Islam, A.K.M.S., Haque, A., Islam, M.R., Biswas, S. and Mohammed, K. (2018) Assessing High-End Climate Change Impacts on Floods in Major Rivers of Bangladesh Using Multi-Model Simulations. Global Science and Technology Journal, 6(2), 1-14
  • Mohammed, K., Islam, A.K.M.S., Islam, G.M.T., Aflieri, L., Khan, M.J.U., Bala, S.K. and Das, M.K. (2018) Future floods in Bangladesh under 1.5°C, 2°C and 4°C global warming scenarios. Journal of Hydrologic Engineering (In press)
  • Mohammed, K., Islam, A.K.M.S., Islam, G.M.T., Aflieri, L., Bala, S.K. and Khan, M.J.U. (2017) Extreme flows and water availability of the Brahmaputra river under 1.5°C and 2°C global warming scenarios. Climatic Change, 145(1-2), 159-175, DOI: 10.1007/s10584-017-2073-2
  • Mohammed, K., Islam, A.K.M.S., Islam, G.M.T., Aflieri, L., Bala, S.K. and Khan, M.J.U. (2017) Impact of high-end climate change on floods and low flows of the Brahmaputra River. Journal of Hydrologic Engineering, 22(10), 04017041, DOI: 10.1061/(ASCE)HE.1943-5584.0001567
  • Islam, A.K.M.S., Paul, S., Mohammed, K., Billah, M., Fahad, M.G.R., Hasan, M.A., Islam, G.M.T and Bala, S.K. (2017) Hydrological response to climate change of the Brahmaputra basin using CMIP5 General Circulation Model ensemble. Journal of Water and Climate Change, DOI: 10.2166/wcc.2017.076