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N. Moriya, K. Fukami, Y. Nabae, M. Morimoto, T. Nakamura, and K. Fukagata,

"Inserting machine-learned virtual wall velocity for large-eddy simulation of turbulent channel flows,"

arXiv preprint, arXiv:2106.09271 [physics.flu-dyn].M. Matsuo, T. Nakamura, M. Morimoto, K. Fukami, and K. Fukagata,

"Supervised convolutional network for three-dimensional fluid data reconstruction from sectional flow fields with adaptive super-resolution assistance,"

arXiv preprint, arXiv:2103.09020 [physics.flu-dyn].

K. Fukami, K. Fukagata, and K. Taira,

"Super-resolution analysis via machine learning: A survey for fluid flows,"

*Theor. Comput. Fluid Dyn.***37**, 421–444 (2023).

(Preprint, arXiv:2301.10937 [physics.flu-dyn])M. Atzori, F. Mallor, R. Pozuelo, K. Fukagata, R. Vinuesa, and P. Schlatter,

"A new perspective on skin-friction contributions in adverse-pressure-gradient turbulent boundary layers,"

*Int. J. Heat Fluid Flow***101**, 109117 (2023).M. Morimoto, K. Fukami, R. Maulik, R. Vinuesa, and K. Fukagata,

"Assessments of epistemic uncertainty using Gaussian stochastic weight averaging for fluid-flow regression,"

*Physica D***440**, 133454 (2022).

(Preprint, arXiv:2109.08248 [physics.flu-dyn])Y. Nabae and K. Fukagata,

"Drag reduction effect of streamwise traveling wave-like wall deformation with spanwise displacement variation in turbulent channel flow,"

*Flow Turbul. Combust.***109**, 1175–1194 (2022).T. Nakamura and K. Fukagata,

"Robust training approach of neural networks for fluid flow state estimations,"

*Int. J. Heat Fluid Flow***96**, 108977 (2022).

(Preprint, arXiv:2112.02751 [physics.flu-dyn])D. Hiruma, R. Onishi, K. Takahashi, and K. Fukagata,

"Sensitivity study on storm modulation through a strategic use of consumer air conditioners,"

*Atmos. Sci. Lett.***23**, e1091 (2022).S. Miura, M. Ohashi, K. Fukagata, and N. Tokugawa,

"Drag reduction by uniform blowing on the pressure surface of an airfoil,"

*AIAA J.***60**, 2241-2250 (2022).T. Nakamura, K. Fukami, and K. Fukagata,

"Identifying key differences between linear stochastic estimation and neural networks for fluid flow regressions,"

*Sci. Rep.***12**, 3726 (2022).

(Preprint: arXiv:2105.00913 [physics.flu-dyn]).M. Morimoto, K. Fukami, K. Zhang, and K. Fukagata,

"Generalization techniques of neural networks for fluid flow estimation,"

*Neural Comput. Appl.***34**, 3647-3669 (2022).

(Preprint: arXiv:2011.11911 [physics.flu-dyn]).Y. Morita, S. Rezaeiravesh, N. Tabatabaei, R. Vinuesa, K. Fukagata, and P. Schlatter,

"Applying Bayesian optimization with Gaussian process regression to computational fluid dynamics problems,"

*J. Comput. Phys.***449**, 110788 (2022).

(Preprint: arXiv:2101.09985 [physics.flu-dyn]).Y. Nabae and K. Fukagata,

"Bayesian optimization of traveling wave-like wall deformation for friction drag reduction in turbulent channel flow,"

*J. Fluid Sci. Technol.***16**, JFST0024 (2021).K. Fukami, K. Hasegawa, T. Nakamura, M. Morimoto, and K. Fukagata,

"Model order reduction with neural networks: Application to laminar and turbulent flows,"

*SN Comput. Sci.***2**, 467 (2021).

(Preprint: arXiv:2011.10277 [physics.flu-dyn]).H. Seki, K. Fukagata, S. Ito, R. Okada, and T. Ouchi,

"The effect of a high-flow nasal cannula on oxygen concentration at the surgical site: A pilot study,"

*Br. J. Anaesth.***127**, E192-E195 (2021).M. Morimoto, K. Fukami, and K. Fukagata,

"Experimental velocity data estimation for imperfect particle images using machine learning,"

*Phys. Fluids***33**, 087121 (2021).**Editor's pick**

(Preprint, arXiv:2005.00756 [physics.flu-dyn]).K. Fukami, T. Murata, K. Zhang, and K. Fukagata,

"Sparse identification of nonlinear dynamics with low-dimensionalized flow representations,"

*J. Fluid Mech.***926**, A10 (2021).

(Preprint, arXiv:2010.12177 [physics.flu-dyn]).K. Fukami, R. Maulik, N. Ramachandra, K. Fukagata, and K. Taira,

"Global field reconstruction from sparse sensors with Voronoi tessellation-assisted deep learning,"

*Nat. Mach. Intell.***3**, 945-951 (2021).

(Preprint, arXiv:2101.00554 [physics.flu-dyn]).M. Morimoto, K. Fukami, K. Zhang, A. G. Nair, and K. Fukagata,

"Convolutional neural networks for fluid flow analysis: toward effective metamodeling and low dimensionalization,"

*Theor. Comput. Fluid Dyn.***35**, 633-658 (2021).

(Preprint, arXiv:2101.02535 [physics.flu-dyn]).M. Badri Ghomizad, H. Kor, and K. Fukagata,

"A structured adaptive mesh refinement strategy with a sharp interface direct-forcing immersed boundary method for moving boundary problems,"

*J. Fluid Sci. Technol.***16**, JFST0014 (2021).- Sample code: Available on https://github.com/M-Badri/Afivo_fsi_I

M. Badri Ghomizad, H. Kor, and K. Fukagata,

"A sharp interface direct-forcing immersed boundary method using the moving least square approximation,"

*J. Fluid Sci. Technol.***16**, JFST0013 (2021).M. Ohashi, K. Fukagata, and N. Tokugawa,

"Adjoint-based sensitivity analysis for airfoil flow control aiming at lift-to-drag ratio improvement,"

*AIAA J.***59**, 4437-4448 (2021).T. Nakamura, K. Fukami, K. Hasegawa, Y. Nabae, and K. Fukagata,

"Convolutional neural network and long short-term memory based reduced order surrogate for minimal turbulent channel flow,"

*Phys. Fluids***33**, 025116 (2021).**Editor's pick**

(Preprint, arXiv:2010.13351 [physics.flu-dyn]).K. Fukami, K. Fukagata, and K. Taira,

"Machine-learning-based spatio-temporal super resolution reconstruction of turbulent flows,"

*J. Fluid Mech.***909**, A9 (2021).

(Preprint, arXiv:2004.11566 [physics.flu-dyn]).K. Hasegawa, K. Fukami, T. Murata, and K. Fukagata,

"CNN-LSTM based reduced order modeling of two-dimensional unsteady flows around a circular cylinder at different Reynolds numbers,"

*Fluid Dyn. Res.***52**, 065501 (2020).**Highlights of 2020**R. Maulik, K. Fukami, N. Ramachandra, K. Fukagata, and K. Taira,

"Probabilistic neural networks for fluid flow surrogate modeling and data recovery,"

*Phys. Rev. Fluids***5**, 104401 (2020).

(Preprint: arXiv:2005.04271 [physics.flu-dyn]).- K. Fukami, T. Nakamura, and K. Fukagata,

"Convolutional neural network based hierarchical autoencoder for nonlinear mode decomposition of fluid field data,"

*Phys. Fluids***32**, 095110 (2020).

(Preprint: arXiv:2006.06977 [physics.comp-ph]) S. Hirokawa, M. Ohashi, K. Eto, K. Fukagata, and N. Tokugawa,

"Turbulent friction drag reduction on Clark-Y airfoil by passive uniform blowing,"

*AIAA J.***58**, 4178-4180 (2020).R. Uekusa, A. Kawagoe, Y. Nabae, and K. Fukagata,

"Resolvent analysis of turbulent channel flow with manipulated mean velocity profile,"

*J. Fluid Sci. Technol.***15**, JFST0014 (2020).K. Hasegawa, K. Fukami, T. Murata, and K. Fukagata,

"Machine-learning-based reduced-order modeling for unsteady flows around bluff bodies of various shapes,"

*Theor. Comput. Fluid Dyn.***34**, 367-383 (2020).

(Preprint: arXiv:2003.07548 [physics.flu-dyn])K. Fukami, K. Fukagata, and K. Taira,

"Assessment of supervised machine learning methods for fluid flows,"

*Theor. Comput. Fluid Dyn.***34**, 497–519 (2020).

(Preprint: arXiv:2001.09618 [physics.flu-dyn])S. Hirokawa, K. Eto, K. Fukagata, and N. Tokugawa,

"Experimental investigation on friction drag reduction on an airfoil by passive blowing,"

*J. Fluid Sci. Technol.***15**, JFST0011 (2020).M. Ohashi, Y. Morita, S. Hirokawa, K. Fukagata, and N. Tokugawa,

"Parametric study toward optimization of blowing and suction locations for improving lift-to-drag ratio on a Clark-Y airfoil,"

*J. Fluid Sci. Technol.***15**, JFST0008 (2020).Y. Nabae, K. Kawai, and K. Fukagata,

"Prediction of drag reduction effect by streamwise traveling wave-like wall deformation in turbulent channel flow at practically high Reynolds numbers,"

*Int. J. Heat Fluid Flow***82**, 108550 (2020).T. Murata, K. Fukami, and K. Fukagata,

"Nonlinear mode decomposition with convolutional neural networks for fluid dynamics,"

*J. Fluid Mech.***882**, A13 (2020).

(Preprint: arXiv:1906.04029 [physics.comp-ph])K. Fukami, Y. Nabae, K. Kawai, and K. Fukagata,

"Synthetic turbulent inflow generator using machine learning,"

*Phys. Rev. Fluids***4**, 064603 (2019).

(Preprint: arXiv:1806.08903 [physics.flu-dyn])K. Fukami, K. Fukagata, and K. Taira,

"Super-resolution reconstruction of turbulent flows with machine learning,"

*J. Fluid Mech.***870**, 106-120 (2019).

(Preprint: arXiv:1811.11328 [physics.flu-dyn])A. Kawagoe, S. Nakashima, M. Luhar, and K. Fukagata,

"Proposal of control laws for turbulent skin-friction reduction based on resolvent analysis,"

*J. Fluid Mech.***866**, 810-840 (2019).K. Eto, Y. Kondo, K. Fukagata, and N. Tokugawa,

"Assessment of friction drag reduction on a Clark-Y airfoil by uniform blowing,"

*AIAA J.***57**, 2774-2782 (2019).A. Iwata, K. Fujioka, T. Yonemichi, K. Fukagata, K. Kurosawa, R. Tabata, M. Kitagawa, T. Takashima, and T. Okuda,

"Seasonal variation in atmospheric particle electrostatic charging states determined using a parallel electrode plate device,"

*Atmos. Environ.***203**, 62-69 (2019).T. Yonemichi, K. Fukagata, K. Fujioka, and T. Okuda,

"Numerical simulation of parallel-plate particle separator for estimation of charge distribution of PM2.5,"

*Aerosol Sci. Technol.***53**, 394-405 (2019).

(Supplemental Information: UAST_1569198_Supplemental File.pdf (12 pages))W. Hua and K. Fukagata,

"Near-surface electron transport and its influence on the discharge structure of nanosecond-pulsed dielectric-barrier-discharge under different electrode polarities,"

*Phys. Plasmas***26**, 013514 (2019).S. Nakashima, M. Luhar, and K. Fukagata,

"Reconsideration of spanwise rotating turbulent channel flows via resolvent analysis,"

*J. Fluid Mech.***861**, 200-222 (2019).H. Kor, M. Badri Ghomizad, and K. Fukagata,

"Extension of the unified interpolation stencil for immersed boundary method for moving boundary problems,"

*J. Fluid Sci. Technol.***13**, JFST0008 (2018).K. Date, K. Fukagata, and T. Ishigure,

"Core position alignment in polymer optical waveguides fabricated using the Mosquito method,"

*Opt. Express***26**, 15632-15641 (2018).W. Hua and K. Fukagata,

"Influence of grid resolution in fluid-model simulation of nanosecond dielectric barrier discharge plasma actuator,"

*AIP Advances***8**, 045209 (2018).Y. Kametani, A. Kotake, K. Fukagata, and N. Tokugawa,

"Drag reduction capability of uniform blowing in supersonic wall-bounded turbulent flows,"

*Phys. Rev. Fluids***2**, 123904 (2017).E. Mori, M. Quadrio, and K. Fukagata,

"Turbulent drag reduction by uniform blowing over a two-dimensional roughness,"

*Flow Turbul. Combust.***99**, 765–785 (2017).Y. Ikeya, R. Örlü, K. Fukagata, and P. H. Alfredsson,

"Towards a theoretical model of heat transfer for hot-wire anemometry close to solid walls,"

*Int. J. Heat Fluid Flow***68**, 248-256 (2017).S. Nakashima, K. Fukagata, and M. Luhar,

"Assessment of suboptimal control for turbulent skin friction reduction via resolvent analysis,"

*J. Fluid Mech.***828**, 496-526 (2017).H. Kor, M. Badri Ghomizad, and K. Fukagata,

"A unified interpolation stencil for ghost-cell immersed boundary method for flow around complex geometries,"

*J. Fluid Sci. Technol.***12**, JFST0011 (2017).Y. Anzai, K. Fukagata, P. Meliga, E. Boujo, and F. Gallaire,

"Numerical simulation and sensitivity analysis of a low-Reynolds-number flow around a square cylinder controlled using plasma actuators,"

*Phys. Rev. Fluids***2**, 043901 (2017).K. Uchino, H. Mamori, and K. Fukagata,

"Heat transfer in fully developed turbulent channel flow with streamwise traveling wave-like wall deformation,"

*J. Therm. Sci. Technol.***12**, JTST0003 (2017).S. Watanabe, H. Mamori, and K. Fukagata,

"Drag-reducing performance of obliquely aligned superhydrophobic surface in turbulent channel flow,"

*Fluid Dyn. Res.***49**, 025501 (2017).**Highlights of 2017**A. Segalini, T. Nakamura, and K. Fukagata,

"A linearized k-ε model of forest canopies and clearings,"

*Boundary-Layer Meteorol.***161**, 439–460 (2016).Y. Kametani, K. Fukagata, R. Örlü, and P. Schlatter,

"Drag reduction in spatially developing turbulent boundary layers by spatially intermittent blowing at constant mass-flux,"

*J. Turbulence***17**, 913-929 (2016).D. Noguchi, K. Fukagata, and N. Tokugawa,

"Friction drag reduction of a spatially developing boundary layer using a combined uniform suction and blowing,"

*J. Fluid Sci. Technol.***11**, JFST0004 (2016).Y. Iijima, K. Hosoda, K. Takemura, K. Fukagata, and K. Edamura,

"Numerical simulation of electro-conjugate fluid flow considering electric double layer,"

*Mech. Eng. J.***2**, 15-00341 (2015).Y. Kametani, K. Fukagata, R. Örlü, and P. Schlatter,

"Effect of uniform blowing/suction in a turbulent boundary layer at moderate Reynolds number,"

*Int. J. Heat Fluid Flow***55**, 132-142 (2015).H. Bottini, M. Kurita, H. Iijima, and K. Fukagata,

"Effects of wall temperature on skin-friction measurements by oil-film interferometry,"

*Meas. Sci. Technol.***26**, 105301 (2015).H. Gejima, R. Takinami, K. Fukagata, T. Mitsumoji, T. Sueki, and M. Ikeda,

"Suppression of vortex shedding from a pantograph head using vortex generator-type plasma actuators,"

*J. Fluid Sci. Technol.***10**, JFST0006 (2015).Y. Kametani, M. Kawagoe, and K. Fukagata,

"Direct numerical simulation of a turbulent mixing layer with a perpendicularly oscillated inflow,"

*J. Fluid Sci. Technol.***10**, JFST0004 (2015).H. Naito and K. Fukagata,

"Control of flow around a circular cylinder for minimizing energy dissipation,"

*Phys. Rev. E***90**, 053008 (2014).

Erratum:*Phys. Rev. E***90**, 069902(E) (2014).H. Mamori and K. Fukagata,

"Drag reduction effect by a wave-like wall-normal body force in a turbulent channel flow,"

*Phys. Fluids***26**, 115104 (2014).S. J. Illingworth, H. Naito, and K. Fukagata,

"Active control of vortex shedding: An explanation of the gain window,"

*Phys. Rev. E***90**, 043014 (2014).T. Igarashi, H. Naito, and K. Fukagata,

"Direct numerical simulation of flow around a circular cylinder controlled using plasma actuators,"

*Math. Probl. Eng.***2014**, 591807 (2014).N. Tomiyama and K. Fukagata,

"Direct numerical simulation of drag reduction in a turbulent channel flow using spanwise traveling wave-like wall deformation,"

*Phys. Fluids***25**, 105115 (2013).K. Nakahara, M. Yamamoto, Y. Okayama, K. Yoshimura, K. Fukagata, and N. Miki,

"A peristaltic micropump using traveling waves on a polymer membrane,"

*J. Micromech. Microeng.***23**, 085024 (2013).S. Yamamoto and K. Fukagata,

"Numerical simulation of a plasma actuator based on ion transport,"

*J. Appl. Phys.***113**, 243302 (2013).H. Naito and K. Fukagata,

"Numerical simulation of flow around a circular cylinder having porous surface,"

*Phys. Fluids***24**, 117102 (2012).Y. Kametani and K. Fukagata,

"Direct numerical simulation of spatially developing turbulent boundary layer for skin friction drag reduction by wall surface-heating or cooling,"

*J. Turbulence***13**, N34, 1-20 (2012).R. Nakanishi, H. Mamori, and K. Fukagata,

"Relaminarization of turbulent channel flow using traveling wave-like wall deformation,"

*Int. J. Heat Fluid Flow***35**, 152-159 (2012).N. Kasagi, Y. Hasegawa, K. Fukagata, and K. Iwamoto,

"Control of turbulent transport: Less friction and more heat transfer,"

*J. Heat Transfer***134**, 031009 (2012).K. Higashi, H. Mamori, and K. Fukagata,

"Simultaneous control for friction drag reduction and heat transfer augmentation by traveling wave-like blowing/suction,"

*Comput. Therm. Sci.***3**, 521-530 (2011).K. Kakikura, K. Fukagata, and T. Hibiya,

"System engineering analysis and optimization of a parabolic flight experiment for thermophysical property measurement under microgravity,"

*J. Jpn. Soc. Microgravity Appl.***28-2**, S92-S99 (2011).Y. Kametani and K. Fukagata,

"Direct numerical simulation of spatially developing turbulent boundary layer with uniform blowing or suction,"

*J. Fluid Mech.***681**, 154-172 (2011).K. Fukagata, K. S. Furukawa, and T. Ushida,

"Analysis of cell accumulation mechanism in a rotational culture system,"

*J. Mech. Med. Biol.***11**, 407-421 (2011).J. Hœpffner, Y. Naka, and K. Fukagata,

"Realizing turbulent statistics,"

*J. Fluid Mech.***676**, 54-80 (2011).D. Kurashima, Y. Naka, K. Fukagata, and S. Obi,

"Simultaneous measurements of disk vibration and pressure fluctuation in turbulent flow developing in a model hard disk drive,"

*Int. J. Heat Fluid Flow***32**, 567-574 (2011).T. Kawata, Y. Naka, K. Fukagata, and S. Obi,

"Simultaneous measurement of velocity and fluctuating pressure in a turbulent wing-tip vortex using triple hot-film sensor and miniature total pressure probe,"

*Flow Turbul. Combust.***86**, 419-437 (2011).H. Hasebe, Y. Naka, and K. Fukagata,

"An attempt for suppression of wing-tip vortex using plasma actuators,"

*J. Fluid Sci. Technol.***6**, 976-988 (2011).K. Fukagata, M. Kobayashi, and N. Kasagi,

"On the friction drag reduction effect by a control of large-scale turbulent structures,"

*J. Fluid Sci. Technol.***5**, 574-584 (2010).H. Mamori and K. Fukagata,

"Consistent scheme for computation of Reynolds stress and turbulent kinetic energy budgets for energy-conservative finite difference method,"

*J. Comput. Sci. Technol.***4**, 64-75 (2010).H. Mamori, K. Fukagata, and J. Hœpffner,

"The phase relationship in laminar channel flow controlled by traveling wave-like blowing or suction,"

*Phys. Rev. E***81**, 046304 (2010).Y. Naka, K. Tsuboi, Y. Kametani, K. Fukagata, and S. Obi,

"Near-field development of a turbulent mixing layer periodically forced by a bimorph PVDF film actuator,"

*J. Fluid Sci. Technol.***5**, 156-168 (2010).J. Hœpffner and K. Fukagata,

"Pumping or drag reduction?"

*J. Fluid Mech.***635**, 171-187 (2009).K. Fukagata, K. Sugiyama, and N. Kasagi,

"On the lower bound of net driving power in controlled duct flows,"

*Physica D***238**, 1082-1086 (2009).Y. Naka, S. Azegami, T. Kawata, K. Fukagata, and S. Obi,

"Simultaneous measurement of velocity and pressure in a wing-tip vortex,"

*J. Fluid Sci. Technol.***4**, 107-115 (2009).C. Chaktranond, K. Fukagata, and N. Kasagi,

"Performance assessment and improvement of a split-and-recombine micromixer for immunomagnetic cell sorting,"

*J. Fluid Sci. Technol.***3**, 1008-1019 (2008).K. Fukagata, S. Kern, P. Chatelain, P. Koumoutsakos, and N. Kasagi,

"Evolutionary optimization of an anisotropic compliant surface for turbulent friction drag reduction,"

*J. Turbulence***9**, N35, 1-17 (2008).M. Suzuki, N. Shikazono, K. Fukagata, and N. Kasagi,

"Numerical analysis of coupled transport and reaction phenomena in an anode-supported flat-tube solid oxide fuel cell,"

*J. Power Sources***180**, 29-40 (2008).K. Fukagata, N. Kasagi, P. Ua-arayaporn, and T. Himeno,

"Numerical simulation of gas-liquid two-phase flow and convective heat transfer in a micro tube,"

*Int. J. Heat Fluid Flow***28**, 72-82 (2007).A. Mitsuishi, K. Fukagata, and N. Kasagi,

"Near-field development of large-scale vortical structures in a controlled confined coaxial jet,"

*J. Turbul.***8**, N23, 1-27 (2007).K. Fukagata, N. Kasagi, and P. Koumoutsakos,

"A theoretical prediction of friction drag reduction in turbulent flow by superhydrophobic surfaces,"

*Phys. Fluids***18**, 051703 (2006).

Erratum:*Phys. Fluids***18**, 089901 (2006).K. Iwamoto, K. Fukagata, N. Kasagi, and Y. Suzuki,

"Friction drag reduction achievable by near-wall turbulence manipulation at high Reynolds numbers,"

*Phys. Fluids***17**, 011702 (2005).K. Fukagata and N. Kasagi,

"Suboptimal control for drag reduction via suppression of near-wall Reynolds shear stress,"

*Int. J. Heat Fluid Flow***25**, 341-350 (2004).K. Fukagata, S. Zahrai, and F. H. Bark,

"Dynamics of Brownian particles in a turbulent channel flow,"

*Heat Mass Transfer***40**, 715-726 (2004).

Errata: fukagata-hmt04-errata.pdfK. Fukagata and N. Kasagi,

"Drag reduction in turbulent pipe flow with feedback control applied partially to wall,"

*Int. J. Heat Fluid Flow***24**, 480-490 (2003).K. Fukagata, K. Iwamoto, and N. Kasagi,

"Contribution of Reynolds stress distribution to the skin friction in wall-bounded flows,"

*Phys. Fluids***14**, L73-L76 (2002).

Details of derivation: fukagata-pof02-detail.pdfK. Fukagata and N. Kasagi,

"Highly energy-conservative finite difference method for the cylindrical coordinate system,"

*J. Comput. Phys.***181**, 478-498 (2002).

Errata: fukagata-jcp02-errata.pdfK. Fukagata, S. Zahrai, S. Kondo, and F. H. Bark,

"Anomalous velocity fluctuations in particulate turbulent channel flow,"

*Int. J. Multiphase Flow***27**, 701-719 (2001).F. Gurniki, K. Fukagata, S. Zahrai, and F. H. Bark,

"LES of turbulent channel flow of a binary electrolyte,"

*J. Appl. Electrochem.***30**, 1335-1343 (2000).K. Fukagata, S. Zahrai, and F. H. Bark,

"Force balance in a turbulent particulate channel flow,"

*Int. J. Multiphase Flow***24**, 867-887 (1998).

K. Fukagata, K. Iwamoto, and Y. Hasegawa,

"Turbulent drag reduction by streamwise traveling waves of wall-normal forcing,"

*Annu. Rev. Fluid Mech.***56**, 45-66 (2024 to appear).K. Fukagata,

Review: "Reduced order modeling of fluid flows using convolutional neural networks,"

*J. Fluid Sci. Technol.***18**, JFST0002 (2023).M. Morimoto, K. Fukami, R. Maulik, R. Vinuesa, and K. Fukagata,

Featured Research in CFD35: "Model-form uncertainty quantification in neural-network-based fluid-flow estimation,"

*Nagare - J. Jpn. Soc. Fluid Mech.***41**, 89-92 (2022).K. Fukagata,

News & Views: "Towards quantum computing of turbulence,"

*Nat. Comput. Sci.***2**, 68-69 (2022).T. Mitsumoji, Y. Sato, M. Ikeda, T. Sueki, and K. Fukagata,

"Basic study on aerodynamic noise reduction techniques for a pantograph head using plasma actuators,"

*Quarterly Report of RTRI***55**, 184-189 (2014).K. Fukagata,

"Drag reduction by wavy surfaces,"

*J. Fluid Sci. Technol.***6**, 2-13 (2011).N. Kasagi, Y. Suzuki, and K. Fukagata,

"Microelectromechanical system-based feedback control of turbulence for skin friction reduction,"

*Annu. Rev. Fluid Mech.***41**, 231-251 (2009).K. Fukagata,

"Theoretical studies on friction drag reduction control with the aid of direct numerical simulation - A review,"

*J. Comput. Fluids Eng.***13-4**, 96-106 (2008).N. Kasagi and K. Fukagata,

"The FIK identity and its implication for turbulent skin friction control,"

*Transition and Turbulence Control,*edited by M. Gad-el-Hak and H. M. Tsai (World Scientific, Singapore, 2006), Chapter 10, pp. 297-324.

S. Obi, K. Fukagata, M. Kameda, C. Kato, Y. Morinishi, Y. Murai, S. Watanabe, and M. Watanabe,

"Preface (Special Issue of the AJK2019, ASME-JSME-KSME Joint Fluids Engineering Conference 2019),"

*J. Fluid Sci. Technol.***15**, JFST0007 (2020).T. Yano, K. Abe, H. Ishikawa, and K. Fukagata,

"Preface (Special Issue of the Ninth JSME-KSME Thermal and Fluids Engineering Conference (TFEC9)),"

*J. Fluid Sci. Technol.***13**, JFST0011 (2018).K. Suga, K. Fukagata, K. Maruta, A. Miyara, and K. Takahashi,

"Preface (Special Issue of the First Pacific Rim Thermal Engineering Conference (PRTEC2016))"

*J. Therm. Sci. Technol.***11**, JTST0034 (2016)M. Yamamoto, K. Fukagata, S. Obi, M. Suzuki, and M. Tanahashi,

"Preface (Special Issue of 2nd International Workshops on Advances in Computational Mechanics -Advanced Turbulent Flow Simulation-),"

*J. Fluid Sci. Technol.***6**, 1 (2011).

K. Fukagata,

"DNS code for turbulent channel flow,"*Fukagata Lab. Internal Textbook*, No. FLIT-1201 (Fukagata Lab., Keio University, 2012), 76 pp.K. Fukagata,

"Development of DNS code for turbulent pipe flow,"

*THTLAB Internal Report*, No. ILR-0104 (Turbulence and Heat Transfer Laboratory, The Univ. of Tokyo, 2001), 62pp.K. Fukagata and S. Zahrai,

"Simulation of particle motion in a turbulent velocity field, part II,"

*ABB Corporate Research Technical Report***1996:107**(ABB Corporate Research, Västerås, 1996), 35pp., ISRN SECRC/B/TR-96/107E.K. Fukagata,

"Simulation of particle motion in a turbulent velocity field, part I,"

*ABB Corporate Research Technical Report***1995:162**(ABB Corporate Research, Västerås, 1995), 20pp. ISRN SECRC/KB/TR-95/162E.

Last-modified: 2023-09-05 (Tue) 16:43:22