Prof.dr.ir. A.W. Heemink

publicaties
Accelerating volcanic ash data assimilation using a mask-state algorithm based on an ensemble Kalman filter: a case study with the LOTOS-EUROS model (version 1.10)

peer reviewed : Y

Geoscientific Model Development (2017) 16 pagina's , p. 1751-1766

auteurs

  • Guangliang Fu
  • Hai Xiang Lin
  • Arnold Heemink
  • Sha Lu
  • Arjo Segers
  • Nils van Velzen
  • Tongchao Lu
  • Shiming Xu
Evaluation criteria on the design for assimilating remote sensing data using variational approaches

peer reviewed : Y

Monthly Weather Review (2017) 11 pagina's , p. 2165-2175

auteurs

  • Sha Lu
  • Arnold Heemink
  • Hai Xiang Lin
  • Arjo Segers
  • Guangliang Fu
Data assimilation for volcanic ash plumes using a satellite observational operator

peer reviewed : Y

Atmospheric Chemistry and Physics (2017) 19 pagina's , p. 1187-1205

auteurs

  • Guangliang Fu
  • Fred Prata
  • Hai Xiang Lin
  • Arnold Heemink
  • AJ Segers
  • Sha Lu
Improving the computational efficiency of approximate gradients using a multiscale reservoir simulation framework

peer reviewed : Y

SPE Reservoir Simulation Conference (2017) 20 pagina's , p.

auteurs

  • Rafael Jesus de Moraes
  • Rahul Fonseca
  • M. Helici
  • Arnold Heemink
  • Jan Dirk Jansen
Tracing the Ventilation Pathways of the Deep North Pacific Ocean Using Lagrangian Particles and Eulerian Tracers

peer reviewed : Y

Journal of Physical Oceanography (2017) 20 pagina's , p. 1261-1280

auteurs

  • Hyder Ali Syed
  • F.W. Primeau
  • Eric Deleersnijder
  • Arnold W. Heemink
Estimation of volcanic ash emissions through assimilating satellite data and ground-based observations

peer reviewed : Y

Journal Of Geophysical Research-Atmospheres (2016) 24 pagina's , p. 10.971–10.994

auteurs

  • Sha Lu
  • Hai Xiang Lin
  • Arnold Heemink
  • Arjo Segers
  • Guangliang Fu
Model-based aviation advice on distal volcanic ash clouds by assimilating aircraft in situ measurements

peer reviewed : Y

Atmospheric Chemistry and Physics (2016) 12 pagina's , p. 9189-9200

auteurs

  • Guangliang Fu
  • Arnold Heemink
  • Sha Lu
  • Arjo Segers
  • Konradin Weber
  • Hai-Xiang Lin
An accelerated data assimilation approach for volcanic ash forecast

peer reviewed : N

Geophysical Research Abstracts (online) (2016) 1 pagina's , p. 1-1

auteurs

  • Guangliang Fu
  • Hai Xiang Lin
  • Arnold Heemink
  • A Segers
  • Sha Lu
  • Xavier Lapillonne
Assimilation of satellite-retrieved data to improve forecasts of volcanic ash concentrations

peer reviewed : N

Geophysical Research Abstracts (online) (2016) 1 pagina's , p. 1-1

auteurs

  • Guangliang Fu
  • Hai Xiang Lin
  • Arnold Heemink
  • A Segers
  • Sha Lu
  • H Olafsson
Estimation of volcanic ash emissions from satellite data using trajectory-based 4D-Var

peer reviewed : N

Geophysical Research Abstracts (online) (2016) 1 pagina's , p. 1-1

auteurs

  • Sha Lu
  • Hai Xiang Lin
  • Arnold Heemink
  • A Segers
  • Guangliang Fu
  • Olivier Talagrand
vakken
2006 - Modelleren en simulatie
2006 - Advanced Modeling
2006 - Transport Modelling and Data Assimilation
2006 - Computational Aspects of Stochastic Differential Equations
2007 - Advanced Modeling
2007 - Transport Modelling and Data Assimilation
2007 - Computational Aspects of Stochastic Differential Equations
2006 - Bachelorproject
2007 - Modelleren en simulatie
2007 - Bachelorproject
2009 - Internship 21 EC
2009 - Bachelorproject
2009 - Mathematisch Fysische Modellen
2009 - Advanced Modeling
2009 - Transport Modelling and Data Assimilation
2009 - Computational Aspects of Stochastic Differential Equations
2009 - Internship 15 EC
2008 - Advanced Modeling
2008 - Transport Modelling and Data Assimilation
2008 - Computational Aspects of Stochastic Differential Equations
2008 - Bachelorproject
2008 - Mathematisch Fysische Modellen
2008 - Modelleren en simulatie
2008 - Internship 12 EC
2008 - Practical Study 15 EC
2008 - Practical Study 22 EC
2009 - Modelleren en simulatie
2010 - Internship 18 EC
2010 - Advanced Modeling
2010 - Transport Modelling and Data Assimilation
2010 - Computational Aspects of Stochastic Differential Equations
2010 - Modelleren en simulatie
2010 - Bachelorproject
2010 - Internship 12 EC
2010 - Mathematisch Fysische Modellen
2011 - Mathematisch Fysische Modellen
2012 - Modelleren en simulatie
2011 - Modelleren en simulatie
2011 - Bachelorproject
2011 - Internship 18 EC
2011 - Internship 12 EC
2011 - Advanced Modeling
2011 - Transport Modelling and Data Assimilation
2011 - Computational Aspects of Stochastic Differential Equations
2014 - Bachelorproject
2014 - Internship 18 EC
2014 - Internship 12 EC
2014 - Advanced Modeling
2014 - Transport Modelling and Data Assimilation
2014 - Computational Aspects of Stochastic Differential Equations
2014 - Modelleren en Simulatie
2014 - Mathematische Fysische modellen
2012 - Mathematisch Fysische Modellen
2013 - Modelleren en Simulatie
2014 - Bachelorproject TWN
2015 - Modelleren 2B
2012 - Bachelorproject
2012 - Internship 18 EC
2012 - Internship 12 EC
2012 - Advanced Modeling
2012 - Transport Modelling and Data Assimilation
2012 - Computational Aspects of Stochastic Differential Equations
2013 - Bachelorproject
2013 - Mathematische Fysische modellen
2013 - Internship 18 EC
2013 - Internship 12 EC
2013 - Advanced Modeling
2013 - Transport Modelling and Data Assimilation
2013 - Computational Aspects of Stochastic Differential Equations
2016 - Bachelorproject TWN
2017 - Numerical methods for Stochastic Differential Equations
2017 - Internship 18 EC
2017 - Internship 12 EC
2016 - Advanced Modeling
2016 - Transport Modelling and Data Assimilation
2016 - Computational Aspects of Stochastic Differential Equations
2015 - Advanced Modeling
2015 - Computational Aspects of Stochastic Differential Equations
2015 - Bachelorproject TWN
2016 - Modelleren 2B
2016 - Bachelorproject
2016 - Mathematische Fysische modellen
2017 - Data Assimilation
2015 - Internship 18 EC
2015 - Bachelorproject
2015 - Mathematische Fysische modellen
2015 - Internship 12 EC
2017 - Advanced Modeling
2017 - Computational Aspects of Stochastic Differential Equations
2015 - Transport Modelling and Data Assimilation
2017 - Modelleren 2B
2017 - Bachelorproject TWN
2017 - Bachelorproject
2017 - Mathematische Fysische modellen
nevenwerkzaamheden
-Geen nevenwerkzaamheden -

2016-01-01 - 2018-01-01

zbMATH

Short CV:

Education
1974-1978 University of Twente, Applied Mathematics, Systems theory, B. Sc.
1978-1980 University of Twente, Applied Mathematics, Mathematical Physics, M.Sc.
1980-1986 University of Twente, Applied Mathematics, PhD degree

Employment history
1979-1981 University of Twente, Research assistent
1981-1990 Rijkswaterstaat, Researcher Applied Mathematics
1990-1993 Rijkswaterstaat, Head section Mathematical modelling
1990-1993 Delft University of Technology, Department of Applied Mathematics, part-time professor Applied Analysis
1993-present Delft University of Technology, Department of Applied Mathematics, full professor Applied Analysis

Research interest:
Large-scale systems, Data assimilation, inverse problems, Numerical schemes for stochastic differential equations

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