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Suvranu De

Suvranu De
Tue, 2010-05-18 02:00 — des
Name: Suvranu De
Title:Department Head, Professor and Director, CeMSIM
Department Biomedical Engineering IT and Web Science Mechanical Aerospace and Nuclear Engineering
School Engineering
Center Center for Modeling, Simulation and Imaging in Medicine (CEMSIM)
Website:http://www.rpi.edu/~des/
Bio
  • Professor, MANE, BME and ITWS Departments, RPI
    2011 - present
  • Director, Center for Modeling, Simulation and Imaging in Medicine (CeMSIM), RPI
    2010 - present
  • Associate Professor, MANE, BLE and ITWS Departments, RPI
    2007 - 2010
  • Assistant Professor, MANE Department, RPI
    2002 - 2007
  • Research Scientist, Research Laboratory of Electronics, MIT
    Oct 2000 - Dec 2001
    • Fast computational tools for MEMS design
    • Multimodal medical simulations
  • Graduate Research Assistant, Department of Mechanical Engineering, MIT
    May 1997 - Sep 2000
    • Meshfree Methods: Method of Finite Spheres
    • Virtual environments for medical simulation
    • Biomechanics of touch
  • Research Associate, Department of Mechanical Engineering, Indian Institute of Science, Bangalore
    Sept 1993 - Jan 1995
    • FE algorithms for large deformation elastoplastic boundary value problems
Details
Keywords
Education Sc.D. Massachusetts Institute of Technology
Scholarly Works:
  • The method of finite spheres (2000)
  • De, S. and Bathe, K. J., The method of finite spheres with improved numerical integration(2001)
  • De, S. and Bathe, K. J., Towards an efficient meshless computational technique: the method of finite spheres (2001)
  • Displacement/ pressure mixed interpolation in the method of finite spheres (2001)
  • On the method of finite spheres in applications: towards the use with ADINA and a surgical simulator (2003)
  • Hierarchical tree-based discretization in the method of finite spheres (2003)
  • Efficient computation of drag forces on micro-machined devices using a boundary integral equation-based solver (2003)
  • Physically-based real time simulation of soft tissues in multimodal medical simulations
  • Towards an automatic discretization scheme for the method of finite spheres and its coupling with the finite element method
  • The role of haptics in medical simulations
  • A unified approach to multimodal rendering of heterogeneous scenes using point clouds
  • A finite element mode