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Publications about 'Energy amplification'


A. Dwivedi.
Global inputoutput analysis of flow instabilities in highspeed compressible flows.
PhD thesis,
University of Minnesota,
2020.
Keyword(s): Adjoint equations,
Baseflow sensitivity,
Compressible flows,
Compression ramp flow,
Direct numerical simulations,
Energy amplification,
Flow modeling and control,
Global stability analysis,
Hypersonic flows,
Inputoutput analysis,
Shock Boundary layer interaction,
Reattachment vortices,
Transient growth,
Transition to turbulence.
[bibtexentry]

W. Ran.
Modeling and analysis of parallel and spatiallyevolving wallbounded shear flows.
PhD thesis,
University of Southern California,
2020.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Controloriented modeling,
Distributed systems,
Drag reduction,
Energy amplification,
Floquet theory,
Flow modeling and control,
Freestream turbulence,
Lowcomplexity modeling,
NavierStokes equations,
Parabolized Floquet equations,
Parabolized stability equations,
Riblets,
Sensorfree flow control,
Spatiallyevolving flows,
Spatiallyperiodic systems,
Spatiotemporal frequency responses,
Stochasticallyforced NavierStokes equations,
Transition to turbulence,
Turbulence modeling.
[bibtexentry]

H. A. Castillo,
M. R. Jovanovic,
S. Kumar,
A. Morozov,
V. Shankar,
G. Subramanian,
and H. J. Wilson.
Understanding viscoelastic flow instabilities: OldroydB and beyond.
J. NonNewtonian Fluid Mech.,
302:104742 (39 pages),
April 2022.
Note: Part of the special issue commemorating the birth centenary of James Oldroyd.
Keyword(s): Flow modeling and control,
Inputoutput analysis,
Elastic turbulence,
Energy amplification,
Transition to turbulence,
Uncertainty quantification in PDEs,
Spatiotemporal frequency responses,
Viscoelastic fluids,
Viscoelastic instabilities.
[bibtexentry]

M. R. Jovanovic.
From bypass transition to flow control and datadriven turbulence modeling: An inputoutput viewpoint.
Annu. Rev. Fluid Mech.,
53(1):311345,
January 2021.
Keyword(s): Colored noise,
Convex optimization,
Drag reduction,
Energy amplification,
Flow modeling and control,
Inputoutput analysis,
Lowcomplexity modeling,
Lowrank approximation,
Matrix completion problems,
NavierStokes equations,
Nuclear norm regularization,
Simulationfree design,
Structured covariances,
Transition to turbulence,
Turbulence modeling.
[bibtexentry]

A. Dwivedi,
N. Hildebrand,
J. W. Nichols,
G. V. Candler,
and M. R. Jovanovic.
Transient growth analysis of oblique shock wave/boundarylayer interactions at Mach 5.92.
Phys. Rev. Fluids,
5(6):063904 (20 pages),
June 2020.
Keyword(s): Adjoint equations,
Baseflow sensitivity,
Compressible flows,
Direct numerical simulations,
Energy amplification,
Global stability analysis,
Flow modeling and control,
Hypersonic flows,
Transient growth,
Transition to turbulence.
[bibtexentry]

W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Stochastic receptivity analysis of boundary layer flow.
Phys. Rev. Fluids,
4(9):093901 (28 pages),
September 2019.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Controloriented modeling,
Distributed systems,
Energy amplification,
Flow modeling and control,
Freestream turbulence,
Lowcomplexity modeling,
NavierStokes equations,
Spatiallyevolving flows,
Transition to turbulence.
[bibtexentry]

V. L. Thomas,
B. K. Lieu,
M. R. Jovanovic,
B. F. Farrell,
P. J. Ioannou,
and D. F. Gayme.
Selfsustaining turbulence in a restricted nonlinear model of plane Couette flow.
Phys. Fluids,
26(10):105112 (17 pages),
October 2014.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic and S. Kumar.
Nonmodal amplification of stochastic disturbances in strongly elastic channel flows.
J. NonNewtonian Fluid Mech.,
166(1415):755778,
August 2011.
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Elastic turbulence,
Transition to turbulence,
Singular perturbation methods.
[bibtexentry]

M. R. Jovanovic and S. Kumar.
Transient growth without inertia.
Phys. Fluids,
22(2):023101 (19 pages),
February 2010.
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Elastic turbulence,
Transition to turbulence.
[bibtexentry]

B. K. Lieu,
R. Moarref,
and M. R. Jovanovic.
Controlling the onset of turbulence by streamwise traveling waves. Part 2: Direct numerical simulations.
J. Fluid Mech.,
663:100119,
November 2010.
Keyword(s): Controlling the onset of turbulence,
Direct numerical simulations,
Energy amplification,
Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Parametric resonance,
Relaminarization,
Spatiallyperiodic systems,
Traveling waves,
Turbulent flows,
Vibrational control.
[bibtexentry]

R. Moarref and M. R. Jovanovic.
Controlling the onset of turbulence by streamwise traveling waves. Part 1: Receptivity analysis.
J. Fluid Mech.,
663:7099,
November 2010.
Keyword(s): Controlling the onset of turbulence,
Energy amplification,
Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Parametric resonance,
Perturbation analysis,
Simulationfree design,
Spatiallyperiodic systems,
Traveling waves,
Vibrational control.
[bibtexentry]

N. Hoda,
M. R. Jovanovic,
and S. Kumar.
Frequency responses of streamwiseconstant perturbations in channel flows of OldroydB fluids.
J. Fluid Mech.,
625:411434,
April 2009.
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

N. Hoda,
M. R. Jovanovic,
and S. Kumar.
Energy amplification in channel flows of viscoelastic fluids.
J. Fluid Mech.,
601:407424,
April 2008.
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic.
Turbulence suppression in channel flows by small amplitude transverse wall oscillations.
Phys. Fluids,
20(1):014101 (11 pages),
January 2008.
Keyword(s): Controlling the onset of turbulence,
Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Parametric resonance,
Timeperiodic systems,
Vibrational control,
Energy amplification.
[bibtexentry]

M. R. Jovanovic and B. Bamieh.
Componentwise energy amplification in channel flows.
J. Fluid Mech.,
534:145183,
July 2005.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

A. Dwivedi and M. R. Jovanovic.
Energy amplification of stochasticallyforced hypersonic blunt body flows.
In Proceedings of the 2023 American Control Conference,
San Diego, CA,
2023.
Note: Submitted.
Keyword(s): Hypersonic flows,
Inputoutput analysis,
Flow modeling and control,
Energy amplification,
Transition to turbulence.
[bibtexentry]

W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Boundary layer receptivity analysis via the algebraic Lyapunov equation.
In Proceedings of the 2020 AIAA SciTech Forum and Exposition,
Orlando, FL,
pages 0109 (15 pages),
2020.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Controloriented modeling,
Distributed systems,
Energy amplification,
Flow modeling and control,
Freestream turbulence,
Lowcomplexity modeling,
NavierStokes equations,
Spatiallyevolving flows,
Transition to turbulence.
[bibtexentry]

W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Relating global and local stochastic receptivity analysis of boundary layer flows.
In Proceedings of the 2019 American Control Conference,
Philadelphia, PA,
pages 32123217,
2019.
Note: (Invited paper).
Keyword(s): Boundary layers,
Boundary layer receptivity,
Controloriented modeling,
Distributed systems,
Energy amplification,
Flow modeling and control,
Freestream turbulence,
Lowcomplexity modeling,
NavierStokes equations,
Spatiallyevolving flows,
Transition to turbulence.
[bibtexentry]

B. K. Lieu and M. R. Jovanovic.
Modelbased analysis of polymer drag reduction in a turbulent channel flow.
In Proceedings of the 2013 American Control Conference,
Washington, DC,
pages 485490,
2013.
Note: (Invited paper).
Keyword(s): Drag reduction,
Control of turbulent flows,
Flow modeling and control,
Inputoutput analysis,
Energy amplification,
Simulationfree design,
Transition to turbulence,
Viscoelastic fluids.
[bibtexentry]

B. F. Farrell,
D. F. Gayme,
P. J. Ioannou,
B. K. Lieu,
and M. R. Jovanovic.
Dynamics of the roll and streak structure in transition and turbulence.
In Proceedings of the 2012 Summer Program,
Center for Turbulence Research, Stanford University/NASA,
pages 4354,
2012.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

B. K. Lieu and M. R. Jovanovic.
Analysis of drag reduction by polymers in a turbulent channel flow.
In Proceedings of the 2012 Summer Program,
Center for Turbulence Research, Stanford University/NASA,
pages 6574,
2012.
Keyword(s): Drag reduction,
Control of turbulent flows,
Flow modeling and control,
Inputoutput analysis,
Energy amplification,
Simulationfree design,
Transition to turbulence,
Viscoelastic fluids.
[bibtexentry]

B. K. Lieu and M. R. Jovanovic.
Slowfast decomposition of an inertialess flow of viscoelastic fluids.
In Proceedings of the 2012 American Control Conference,
Montreal, Canada,
pages 43694374,
2012.
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Elastic turbulence,
Transition to turbulence,
Singular perturbation methods.
[bibtexentry]

R. Moarref and M. R. Jovanovic.
Turbulent drag reduction by transverse wall oscillations.
In Proceedings of the 2012 American Control Conference,
Montreal, Canada,
pages 33593364,
2012.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Drag reduction,
Turbulence modeling.
[bibtexentry]

R. Moarref,
B. K. Lieu,
and M. R. Jovanovic.
Spatiallylocalized optimal control of transition to turbulence.
In Proceedings of the 2011 American Control Conference,
San Francisco, CA,
pages 35773582,
2011.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

R. Moarref,
B. K. Lieu,
and M. R. Jovanovic.
Optimal localized control of transitional channel flow.
In Proceedings of the 2010 Summer Program,
Center for Turbulence Research, Stanford University/NASA,
pages 107118,
2010.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic and S. Kumar.
Variance amplification in channel flows of strongly elastic polymer solutions.
In Proceedings of the 2009 American Control Conference,
Saint Louis, MO,
pages 842847,
2009.
Note: (Invited paper).
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Elastic turbulence,
Transition to turbulence,
Singular perturbation methods.
[bibtexentry]

N. Hoda,
M. R. Jovanovic,
and S. Kumar.
Inputoutput analysis of the 2D/3C model in channel flows of viscoelastic fluids.
In Proceedings of the 47th IEEE Conference on Decision and Control,
Cancun, Mexico,
pages 841846,
2008.
Note: (Invited paper).
Keyword(s): Flow modeling and control,
Viscoelastic fluids,
Inputoutput analysis,
Energy amplification,
Transition to turbulence.
[bibtexentry]

F. Lin and M. R. Jovanovic.
Energy amplification in a parallel Blasius boundary layer flow subject to freestream turbulence.
In Proceedings of the 2008 American Control Conference,
Seattle, WA,
pages 30703075,
2008.
Keyword(s): Boundary layers,
Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Freestream turbulence,
Energy amplification,
Transition to turbulence.
[bibtexentry]

R. Moarref and M. R. Jovanovic.
On using the streamwise traveling waves for variance suppression in channel flows.
In Proceedings of the 2007 American Control Conference,
New York City, NY,
pages 20602065,
2007.
Note: (Invited paper; Finalist, Best Student Paper Award).
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Parametric resonance,
Spatiallyperiodic systems,
Vibrational control,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic.
Turbulence suppression in channel flows by small amplitude transverse wall oscillations.
In Proceedings of the 2006 American Control Conference,
Minneapolis, MN,
pages 11611166,
2006.
Note: (Invited paper).
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Parametric resonance,
Timeperiodic systems,
Vibrational control,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic,
R. Moarref,
and D. You.
Turbulence suppression in channel flows by means of a streamwise traveling wave.
In Proceedings of the 2006 Summer Program,
Center for Turbulence Research, Stanford University/NASA,
pages 481494,
2006.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Parametric resonance,
Spatiallyperiodic systems,
Vibrational control,
Energy amplification,
Transition to turbulence.
[bibtexentry]

R. Moarref and M. R. Jovanovic.
Transition control using an array of streamwise vortices.
In Proceedings of the 45th IEEE Conference on Decision and Control,
San Diego, CA,
pages 107112,
2006.
Note: (Invited paper).
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Parametric resonance,
Timeperiodic systems,
Vibrational control,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic and B. Bamieh.
Unstable modes versus nonnormal modes in supercritical channel flows.
In Proceedings of the 2004 American Control Conference,
Boston, MA,
pages 22452250,
2004.
Keyword(s): Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Energy amplification,
Transition to turbulence.
[bibtexentry]

M. R. Jovanovic and B. Bamieh.
Frequency domain analysis of the linearized NavierStokes equations.
In Proceedings of the 2003 American Control Conference,
Denver, CO,
pages 31903195,
2003.
Keyword(s): Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Energy amplification,
Transition to turbulence.
[bibtexentry]
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Last modified: Sun Oct 23 23:45:07 2022
Author: mihailo.
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