igor kavrakov
igor kavrakov
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Physics-informed Gaussian process model for Euler-Bernoulli beam elements
A physics-informed machine learning model for reconstruction of dynamic loads.
Gledson Rodrigo Tondo
,
Igor Kavrakov
,
Guido Morgenthal
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Physics-informed Gaussian process model for Euler-Bernoulli beam elements
Phyisics-informed machine learning model for damage identification for a Euler-Bernoulli beam.
Gledson Rodrigo Tondo
,
Sebastian Rau
,
Igor Kavrakov
,
Guido Morgenthal
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Super-long span bridge aerodynamics benchmark: additional results for TG3.1 Step 1.2
IABSE Task Group: Bridge Aerodynamics Verification - Part 2, full bridge model.
Giorgio Diana
,
and 17 others, including Igor Kavrakov
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DOI
Advancements in vortex particle methods for aeroelastic analysis of line-like structures
An overview of recent advances of vortex particle methods for fluid-structure interaction
Guido Morgenthal
,
Igor Kavrakov
,
Samir Chawdhury
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DOI
A CFD study on the influence of free-stream deterministic gusts on the critical flutter velocity of streamlined bridge decks
A CFD study on the influence of vertical sinusoidal gusts on the flutter limit.
Igor Kavrakov
,
Samuel Tesfaye
,
Guido Morgenthal
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DOI
Super-long span bridge aerodynamics: On-going results of the TG3.1 benchmark test – Step 1.2
IABSE Task Group: Bridge Aerodynamics Verification - Part 2, full bridge model.
Giorgio Diana
,
and 14 others, including Igor Kavrakov
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DOI
Quantification of the influence of aerodynamic model assumptions for dynamic analyses of bridges
We present comparison metrics for time-histories
Igor Kavrakov
,
Ahsan Kareem
,
Guido Morgenthal
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DOI
Super-long span bridge aerodynamics: First results of the numerical benchmark tests from Task Group 10
IABSE Task Group: Bridge Aerodynamics Verification - Part 1, two and three degrees of freedom, analytical aerodynamics.
Giorgio Diana
,
and 16 others, including Igor Kavrakov
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DOI
An active turbulence generator based on the Vortex Method for simulation of a complex aerodynamic admittance for bridge decks
We present a novel methodology for generating sinusoidal gusts
Igor Kavrakov
,
Tommaso Argentini
,
Simone Omarini
,
Daniele Rocchi
,
Guido Morgenthal
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Influence of aerodynamic model assumptions on the wind-vehicle-bridge interaction
We study which aerodynamic model of wind forces is sufficient for wind-vehicle-bridge interaction
Igor Kavrakov
,
Alfredo Camara
,
Guido Morgenthal
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DOI
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