D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Mechanical and Aerospace Engineering D-index 33 Citations 7,183 60 World Ranking 902 National Ranking 382

Overview

What is he best known for?

The fields of study he is best known for:

  • Mechanical engineering
  • Cardiology
  • Finite element method

His scientific interests lie mostly in Isogeometric analysis, Fluid–structure interaction, Structural engineering, Finite element method and Applied mathematics. His research integrates issues of Basis function, Discretization and Mathematical analysis in his study of Isogeometric analysis. His Fluid–structure interaction research includes elements of Fully coupled, Aerodynamics, Blood flow and Shear stress.

In the subject of general Aerodynamics, his work in Wind-turbine aerodynamics is often linked to Wind speed, thereby combining diverse domains of study. His work in Structural engineering addresses issues such as Shell, which are connected to fields such as Stiffness, Bending, STRIPS, Bending stiffness and Transverse plane. His Finite element method research includes themes of Navier–Stokes equations, Convection–diffusion equation, Non-uniform rational B-spline and Reynolds number.

His most cited work include:

  • Isogeometric shell analysis: The Reissner-Mindlin shell (462 citations)
  • The bending strip method for isogeometric analysis of Kirchhoff–Love shell structures comprised of multiple patches (355 citations)
  • 3D simulation of wind turbine rotors at full scale. Part II: Fluid–structure interaction modeling with composite blades (336 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Isogeometric analysis, Fluid–structure interaction, Finite element method, Aerodynamics and Structural engineering. His work carried out in the field of Isogeometric analysis brings together such families of science as Discretization, Basis function, Mathematical optimization and Applied mathematics. In his study, Numerical analysis is strongly linked to Augmented Lagrangian method, which falls under the umbrella field of Applied mathematics.

His Fluid–structure interaction research is multidisciplinary, relying on both Lagrange multiplier, Mechanics, Shear stress and Modeling and simulation. His Finite element method research is multidisciplinary, incorporating elements of Mathematical analysis, Boundary value problem, Laminar flow, Geometry and Non-uniform rational B-spline. His Aerodynamics study combines topics from a wide range of disciplines, such as Turbine, Polygon mesh, Rotor and Full scale.

He most often published in these fields:

  • Isogeometric analysis (41.75%)
  • Fluid–structure interaction (29.13%)
  • Finite element method (26.21%)

What were the highlights of his more recent work (between 2019-2021)?

  • Turbine blade (11.65%)
  • Discretization (12.62%)
  • Turbine (15.53%)

In recent papers he was focusing on the following fields of study:

The scientist’s investigation covers issues in Turbine blade, Discretization, Turbine, Heart valve and Turbomachinery. His Turbine blade research incorporates elements of Composite number, Coupling, Shell and Rotor. Ming-Chen Hsu has researched Discretization in several fields, including Flow and Computation.

His Flow research is multidisciplinary, incorporating perspectives in Compressibility, Supersonic speed, Aerospace engineering and Finite element method. Many of his studies on Turbomachinery involve topics that are commonly interrelated, such as Isogeometric analysis. The Isogeometric analysis study combines topics in areas such as Aerodynamics, Deflection and Nonlinear system.

Between 2019 and 2021, his most popular works were:

  • Heart valve isogeometric sequentially-coupled FSI analysis with the space–time topology change method (21 citations)
  • An immersogeometric formulation for free-surface flows with application to marine engineering problems (15 citations)
  • Wind Turbine and Turbomachinery Computational Analysis with the ALE and Space-Time Variational Multiscale Methods and Isogeometric Discretization (8 citations)

In his most recent research, the most cited papers focused on:

  • Mechanical engineering
  • Cardiology
  • Mathematical analysis

Ming-Chen Hsu mostly deals with Discretization, Isogeometric analysis, Turbomachinery, Space time and Computation. His studies in Isogeometric analysis integrate themes in fields like Basis function, Turbine, Slip and Applied mathematics. His research in Turbomachinery intersects with topics in Turbine blade and Rotor.

He combines subjects such as Flow, Cardiovascular surgeons, Computational science, Range and Point with his study of Computation. His biological study spans a wide range of topics, including Basis and Computational fluid dynamics. His work is dedicated to discovering how Heart valve, Complex geometry are connected with Convection–diffusion equation and Marine engineering and other disciplines.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Isogeometric shell analysis: The Reissner-Mindlin shell

D. J. Benson;Y. Bazilevs;Ming-Chen Hsu;T.J.R. Hughes.
Computer Methods in Applied Mechanics and Engineering (2010)

679 Citations

3D simulation of wind turbine rotors at full scale. Part II: Fluid–structure interaction modeling with composite blades

Y. Bazilevs;M.-C. Hsu;J. Kiendl;R. Wüchner.
International Journal for Numerical Methods in Fluids (2011)

482 Citations

The bending strip method for isogeometric analysis of Kirchhoff–Love shell structures comprised of multiple patches

J. Kiendl;Y. Bazilevs;M.-C. Hsu;R. Wüchner.
Computer Methods in Applied Mechanics and Engineering (2010)

451 Citations

3D simulation of wind turbine rotors at full scale. Part I: Geometry modeling and aerodynamics

Y. Bazilevs;Ming-Chen Hsu;I. Akkerman;S. Wright.
International Journal for Numerical Methods in Fluids (2011)

406 Citations

A large deformation, rotation-free, isogeometric shell

D. J. Benson;Y. Bazilevs;Ming-Chen Hsu;T. J. R. Hughes.
Computer Methods in Applied Mechanics and Engineering (2011)

355 Citations

An immersogeometric variational framework for fluid-structure interaction: Application to bioprosthetic heart valves

David Kamensky;Ming Chen Hsu;Dominik Schillinger;John A. Evans.
Computer Methods in Applied Mechanics and Engineering (2015)

345 Citations

Isogeometric fluid–structure interaction analysis with emphasis on non-matching discretizations, and with application to wind turbines

Y. Bazilevs;Ming-Chen Hsu;M. A. Scott.
Computer Methods in Applied Mechanics and Engineering (2012)

336 Citations

Fluid---structure interaction modeling of wind turbines: simulating the full machine

Ming-Chen Hsu;Yuri Bazilevs.
Computational Mechanics (2012)

301 Citations

X‐FEM in isogeometric analysis for linear fracture mechanics

E. De Luycker;E. De Luycker;D. J. Benson;T. Belytschko;Y. Bazilevs.
International Journal for Numerical Methods in Engineering (2011)

260 Citations

A generalized finite element formulation for arbitrary basis functions: From isogeometric analysis to XFEM

D. J. Benson;Y. Bazilevs;E. de Luycker;M. C. Hsu.
International Journal for Numerical Methods in Engineering (2010)

253 Citations

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