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Mr LIU Jianyu (Jerry)

IT System Analyst
High Performance Computing Branch

  • jerry_liu@nea.gov.sg

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Mr LIU Jianyu (Jerry)

Mr Liu Jianyu has 18 years of diverse experience in research, field operations and computer analysis in the meteorological science and technologies. He is presently working on a collaboration project with UK Met Office. His research can be categorised into (1) ensuring efficient use of the CCRS high performance computing system; (2) implementing and maintaining robust operation systems; and (3) working with the research scientists to maintain their high performance and productivity by providing support and advice in weather science IT matters.

Education

    • 1993-1997
    • BSc in Atmospheric Science, Sun Yat-Sen University, China

Working Experience

    • 2015-present
    • IT System Analyst, Centre for Climate Research Singapore, MSS
    • 2013-2015
    • Senior Software Engineer, Nanjing University of Information Science & Technology, CAS, China
    • 2010-2013
    • Research Scholar, National Centre for Atmospheric Research, MMM, USA
    • 2001-2010
    • Senior Software Engineer, Yunnan Institute of Meteorology, China
    • 1997-2001
    • Forecaster, Yunnan Meteorological Observatory, China

Research Interests

  • Operational application research and development in meteorology
  • Technical support for high performance computing application in meteorology
  • Operational management for HPC centres for education and research
  • Development and maintenance of the mesoscale numerical weather prediction system

Huang, X.-Y., Barker, D., Webster, S., Dipankar, A., Lock, A., Mittermaier, M., Sun, X.M., North, R., Darvell, R., Boyd, D., Lo, J., Liu, J.Y., Macpherson, B., Heng, P., Maycock, A., Pitcher, L., Tubbs, B., McMillan, M., Zhang, S.J., Hagelin, S., Porson, A., Song, G.T., Beckett, B., Cheong, W.K., Semple, A., and Gordon, C., 2019.

SINGV – the convective-scale numerical weather prediction system for Singapore.

ASEAN Journal on Science & Technology for Development, 36(3), 81-90, doi:10.29037/ajstd.581.

Wang, H., Huang, X.-Y., Liu, J., Xu, D. 2014.

A scale-dependent blending scheme for WRFDA: Impact on regional weather forecasting.

Geosci. Model Dev., 7, 1819-1828. doi:10.5194/gmd-7-1819-2014.

Zhang, X., Huang, X.-Y., Liu, J.,Poterjoy, J., Weng, Y., Zhang, F., Wang, H. 2014.

Development of an efficient regional four-dimensional variational data assimilation system for WRF.

J. Atmos. Oceanic Technol., 31, 2777-2794, doi:10.1175/JTECH-D-13-00076.1.

Haginoya S., Fujii, H., Sun J., Liu J. 2012.

Features of air-lake interaction in heat and water exchanges over Erhai Lake.

J. Meteorol. Soc. Japan, 90C, 55-73. doi:10.2151/JMSJ.2012-C04.

Wang, L., Koike, T., Wang, M., Liu, J., Sun, J., Lu, H., Tsutsui, H., Tamagawa, K., Xu, X. 2012.

Use of integrated observations to improve the 0-36h stream flow forecasts: A case study in the Nanpan River Basin (Yunnan province, China) on 1 July 2008.

J. Meteorol. Soc. Japan, 90C, 131-144.

Sun, J., Baker, B., Bachelet, D., Daly, C., Ma, J., Liu, J. 2006.

Impact of climate change in the Hengduan Mountains of northwestern Yunnan, P.R. China: vegetation distribution change in the foretime and future.

Proc. Spie 6296, Earth Observing Systems XI, 62960X (September 08, 2006); doi:10.1117/12.678964.