Personal Information
Unternehmen/Arbeitsplatz
Glasgow, United Kingdom, Scotland United Kingdom
Branche
Education
Info
Professor Adhikari's research areas are multidisciplinary in nature and include uncertainty quantification in computational mechanics, bio & nanomechanics (nanotubes, graphene, cell mechanics, nano-bio sensors), dynamics of complex systems, inverse problems for linear and non-linear dynamics and vibration energy harvesting. He has obtained more than £3M of competitive research funding as principal investigator, published over 350 peer-reviewed journal papers and 200 conference papers in these areas.
Potential Ph.D. students, MRes project students (one year project), and post-doctoral scholars interested in any of the above areas, or areas related to them, please contact me directly.
Tags
dynamics
structural dynamics
vibration
applied mathematics
lattice structures
energy
sdof systems
dynamic response
random system
renewable energy
energy harvesting
stochastic
uncertainties
nonlocal dynamic systems
natural frequency
harmonic
resonance
mechanics
finite element method
uncertainty
buckling
honeycomb
2d materials
metamaterials
case study
advanced design
design
optimization
random vibration
nonlinear
differential equations
harvesting
homogenisation
viscoelasticity
irregularity
molecular simulation
biosensors
nanoscale
computational methods
multidisciplinary
composite
structures
transient dynamic response
delaminated composite shell
low velocity oblique impact
nonlocal
dynamic stiffness
eigenvalues
nano beams
modal analysis
finite element modelling
two dof systems
mode shapes
eigenvalue problem
base excitation
wind turbine
nanocomposites
multiscale
graphene
nanotechnology
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Präsentationen
(27)Dokumente
(1)Personal Information
Unternehmen/Arbeitsplatz
Glasgow, United Kingdom, Scotland United Kingdom
Branche
Education
Info
Professor Adhikari's research areas are multidisciplinary in nature and include uncertainty quantification in computational mechanics, bio & nanomechanics (nanotubes, graphene, cell mechanics, nano-bio sensors), dynamics of complex systems, inverse problems for linear and non-linear dynamics and vibration energy harvesting. He has obtained more than £3M of competitive research funding as principal investigator, published over 350 peer-reviewed journal papers and 200 conference papers in these areas.
Potential Ph.D. students, MRes project students (one year project), and post-doctoral scholars interested in any of the above areas, or areas related to them, please contact me directly.
Tags
dynamics
structural dynamics
vibration
applied mathematics
lattice structures
energy
sdof systems
dynamic response
random system
renewable energy
energy harvesting
stochastic
uncertainties
nonlocal dynamic systems
natural frequency
harmonic
resonance
mechanics
finite element method
uncertainty
buckling
honeycomb
2d materials
metamaterials
case study
advanced design
design
optimization
random vibration
nonlinear
differential equations
harvesting
homogenisation
viscoelasticity
irregularity
molecular simulation
biosensors
nanoscale
computational methods
multidisciplinary
composite
structures
transient dynamic response
delaminated composite shell
low velocity oblique impact
nonlocal
dynamic stiffness
eigenvalues
nano beams
modal analysis
finite element modelling
two dof systems
mode shapes
eigenvalue problem
base excitation
wind turbine
nanocomposites
multiscale
graphene
nanotechnology
Mehr anzeigen