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- Naoki Moriya, "Efficient training process using hierarchical neuralnetworks for flow field reconstruction," MEng Thesis, Keio University (2024), 57 pp.
- Takeru Ishize, "Extracting essential physics in fluid flows using machine learning: towards innovative flow control design," MEng Thesis, Keio University (2024), 58 pp.
- Takuya Osugi, "Optimization of discrete roughness elements and consideration for simultaneous achievement of heat transfer augmentation and drag reduction," MEng Thesis, Keio University (2024), 50 pp.
- Hikaru Chida, "Neural network-based estimation of flow with an oscillating cylinder," MEng Thesis, Keio University (2024), 55 pp.
- Reno Miura, "Semi-supervised machine learning model for flow state estimation from floating sensors," MEng Thesis, Keio University (2024), 53 pp.

- Yusuke Okochi, "Drag reduction effect by blowing and suction in turbulent channel flow with a bump," MEng Thesis, Keio University (2023), 69 pp.
- Shoei Kanehira, "Development of an autoencoder based linearization method for flow control," MEng Thesis, Keio University (2023), 53 pp.
- Aoi Sato, "Proposal of feedback control laws by two-dimensional resolvent analysis for suppression of vortex shedding," MEng Thesis, Keio University (2023), 53 pp.
- Yoko Fujima, "Numerical simulation of PM2.5 behavior in an experimental device for particle deposition assessment," MEng Thesis, Keio University (2023), 49 pp.
- Mitsuaki Matsuo, "Applications of machine learning to external flows: toward efficient numerical simulation and data handling," MEng Thesis, Keio University (2023), 112 pp.

- Yusuke Nabae, "Drag Reduction Effect by Traveling Wave-Like Wall Deformation in Turbulent Channel Flow," PhD Thesis, Keio University (2022), 101 pp.

- Mehdi Badri Ghomizad, "Development of a versatile and accurate immersed boundary method with adaptive mesh refinement approach," PhD Thesis, Keio University (2021), 123 pp.

- Kazuto Hasegawa, "Machine learning-based reduced-order modeling for fluid dynamics," MEng Thesis, Keio University (2022), 60 pp.
- Rino Arai, "Numerical modeling of spark path and electrode shape optimization in internal combustion engine," MEng Thesis, Keio University (2022), 47 pp.
- Taichi Nakamura, "Weight surface analysis of neural networks and linear regressions for flow state estimation," MEng Thesis, Keio University (2022), 59 pp.
- Senri Miura, "Uniform blowing on Clark-Y airfoil for improving lift-to-drag ratio," MEng Thesis, Keio University (2022), 94 pp.
- Hikaru Murakami, "Mechanism behind turbulence suppression in a flow around a perforated square cylinder," MEng Thesis, Keio University (2022), 43 pp.
- Masaki Morimoto, "Generalization techniques and model-form uncertainty quantification of neural networks for fluid flow estimation," MEng Thesis, Keio University (2022), 85 pp.

- Yuki Morita, "Applying Bayesian optimization to computational fluid dynamics problems," MEng Thesis, Keio University & KTH Royal Institute of Technology (2021), 52 pp.

- Masahiro Ohashi, "Adjoint based sensitivity analysis for flow control to improve lift-to-drag ratio of airfoils," MEng Thesis, Keio University (2021), 58 pp.

- Riko Uekusa, "Resolvent analysis of turbulent friction drag reduction by various control strategies," MEng Thesis, Keio University (2021), 57 pp.

- Kai Fukami, "Space-time data recovery of fluid flows using machine learning based super resolution," MEng Thesis, Keio University (2020), 56 pp.

- Shiho Hirokawa, "Experimental assessment of friction drag reduction on a Clark-Y airfoil by passive blowing," MEng Thesis, Keio University (2020), 75 pp.

- Takaaki Murata, "Reduced order modeling of unsteady flow fields based on convolutional neural network," MEng Thesis, Keio University (2020), 93 pp.

- Weizhuo Hua, "Numerical investigation on the discharge process of a nanosecond-pulsed surface dielectric-barrier-discharge plasma actuator," PhD Thesis, Keio University (2019), 123 pp.

- Hosnieh Kor, "Development of an efficient immersed boundary method for simulation of flows around stationary and moving bodies," PhD Thesis, Keio University (2018), 106 pp.

- Kaoruko Eto, "Experimental assessment of friction drag reduction on an airfoil using uniform blowing," MEng Thesis, Keio University (2019), 71 pp.

- Daisuke Hiruma, "Numerical sensitivity analysis toward weakening of heavy rainfall," MEng Thesis, Keio University (2019), 54 pp.

- Daiki Iwasa, "Comprehensive grid resolution and improvement study for large eddy simulation of turbulent pipe flows," MEng Thesis, Keio University (2019), 100 pp.

- Aika Kawagoe, "Resolvent-based design of control laws for turbulent friction drag reduction," MEng Thesis, Keio University (2019), 115 pp.

- Yusuke Nabae, "Reynolds number scaling of drag reduction effect in turbulent channel flow using traveling wave-like wall deformation," MEng Thesis, Keio University (2019), 77 pp.

- Takuto Yonemichi, "Quantification of charge distribution of PM2.5 based on a numerical simulation of a parallel-plate particle separator," MEng Thesis, Keio University (2019), 112 pp.

- Yosuke Fujita, "Extension of Suboptimal Control Theory for Flow Around a Square Cylinder", MEng Thesis, Keio University (2018), 60 pp.

- Yusuke Izawa, "Measurement of Flow Induced by a Ceramic Plate Plasma Actuator," MEng Thesis, Keio University (2018), 102 pp.

- Ken Kawai, "Data-oriented Turbulence Modeling for Large Eddy Simulation," MEng Thesis, Keio University (2018), 106 pp.

- Yusuke Kondo, "Numerical Study on Effects of Uniform Blowing and Suction in a Flow Around a Clark-Y Airfoil," MEng Thesis, Keio University (2018), 127 pp.

- Satoshi Nakashima, "Resolvent Analysis of Manipulated Turbulent Channel Flows," MEng Thesis, Keio University (2018), 118 pp.

- Anna Mizobuchi, "Very Large Eddy Simulation of Turbulent Heat Transfer and Mixing in a T-Junction," MEng Thesis, Keio University (2017), 95 pp.

- Eisuke Mori, "Direct Numerical Simulation of Drag Reduction with Uniform Blowing over a Two-dimensional Roughness," MEng Thesis, Keio University (2017), 78 pp.

- Yuta Ikeya, "Revisiting Hot-Wire Anemometry Close to Solid Walls," MEng Thesis, Keio University & KTH Royal Institute of Technology (2017), 83 pp.

- Shota Mukumoto, "An Attempt for Flexible Control of Drag and Lift Forces by Plasma Actuators," MEng Thesis, Keio University (2017), 79 pp.

- Satoru Hataoka, "Measurement of Vortex Suppression Effects by Plasma Actuators Using Stereo Particle Image Velocimetry," MEng Thesis, Keio University (2016), 95 pp.

- Yuta Morimoto, "Numerical Study on Body-Force Improvement of a Plasma Actuator Using Spanwise Non-Uniformity," MEng Thesis, Keio University (2016), 85 pp.

- Hiroshi Naito, "Numerical Studies on Control of Flow Around a Circular Cylinder," PhD Thesis, Keio University (2015), 108 pp.

- Yosuke Anzai, "Numerical Simulation of a Low-Reynolds Number Flow Around a Square Cylinder Controlled Using Plasma Actuators," MEng Thesis, Keio University (2015), 117 pp.

- Haruhiko Gejima, "Experimental Study on Vortex Generator-Type Plasma Actuator: Basic Performance and Application to Suppression of Vortex Shedding," MEng Thesis, Keio University (2015), 152 pp.

- Ryosuke Kidogawa, "Friction Drag Reduction in High Reynolds Number Spatially Developing Turbulent Boundary Layer Using Uniform Blowing Control," MEng Thesis, Keio University (2015), 87 pp.

- Ayane Kotake, "Mach Number Dependency of Drag Reduction/Enhancement Effect by Uniform Blowing/Suction in a Supersonic Turbulent Channel Flow," MEng Thesis, Keio University (2015), 75 pp.

- Kohei Matsumoto, "Numerical Experiments of Ion Transport Around a Plasma Actuator," MEng Thesis, Keio University (2015), 79 pp.

- Daigo Noguchi, "Friction Drag Reduction of a Spatially Developing Boundary Layer Using a Combined Uniform Suction and Blowing," MEng Thesis, Keio University (2015), 73 pp.

- Keisuke Uchino, "Direct Numerical Simulation of Dissimilar Control of Momentum and Heat Transfers Using Traveling Wave-Like Wall Deformation," MEng Thesis, Keio University (2015), 80 pp.

- Kazutaka Hashimoto, "Phase Field Simulation of Two-Phase Surface Behavior Under a Uniform Shear," MEng Thesis, Keio University (2014), 64 pp.

- Takuji Mizokami, "Lift and Drag Manipulation Using Dielectric Barrier Discharge Plasma Actuators Installed on the Wingtips," MEng Thesis, Keio University (2014), 84 pp.

- Tetsuya Nakamura, "Effects of a Forest Clearing: Experimental and Numerical Assessment," MEng Thesis, Keio University & KTH Royal Institute of Technology (2014), 53 pp.

- Kazutaka Nakayama, "Extension of Extremum Seeking Toward Dynamical Optimization in Unsteady Flow Problems, " MEng Thesis, Keio University (2014), 81 pp.

- Yumi Utsugi, "Numerical Simulation of Flow Around Two Airfoils in Formation Flight," MEng Thesis, Keio University (2014), 60 pp.

- Yakashi Yanai, "Analysis of Start-Up Properties of Vertical Axis Wind Turbine by Means of Flow Simulation," MEng Thesis, Keio University (2014), 78 pp.

- Yukinori Kametani, "Direct Numerical Simulation of Friction Drag Reduction in Spatially Developing Turbulent Boundary Layers," PhD Thesis, Keio University (2013), 137 pp.

- Taichi Igarashi, "Direct Numerical Simulation of Flow Around a Circular Cylinder Controlled Using Plasma Actuators," MEng Thesis, Keio University (2013), 84 pp.

- Nobuhito Tomiyama, "Direct Numerical Simulation of Drag Reduction in a Turbulent Channel Flow using Spanwise Traveling Wave-Like Wall Deformation," MEng Thesis, Keio University (2013), 72 pp.

- Seiya Yamamoto, "Numerical Simulation of a Plasma Actuator Based on Ion Transport," MEng Thesis, Keio University (2013), 79 pp.

- Sho Watanabe, "Direct Numerical Simulation of Friction Drag Reduction in a Turbulent Channel Flow Using Superhydrophobic Surfaces," MEng Thesis, Keio University (2013), 88 pp.

- Hiroya Mamori, "Numerical Analysis of Drag Reduction in Channel Flow by Traveling Wave-Like Blowing and Suction," PhD Thesis, Keio University (2012), 138 pp.

K. Fukagata, "Numerical Analyses on Dispersed Gas-particle Two-phase Turbulent Flows, PhD Thesis (The Univ. of Tokyo, 2000), iv + 214pp.

K. Fukagata, "Large Eddy Simulation of Particulate Turbulent Channel Flows,"

*TRITA-MEK Technical Report***1999:17**(Doctoral Thesis), vi + 54 pp. + 7 papers, (KTH, Stockholm, 1999), ISRN KTH/MEK/TR-99/17-SE.

K. Fukagata, "Large Eddy Simulation of Particulate Turbulent Channel Flows,"

*TRITA-MEK Technical Report***1997:11**(Licentiate Thesis), vi + 16pp. + 3 papers (KTH, Stockholm, 1997), ISRN KTH/MEK/TR-97/11-SE.

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: 2024-09-05 (Thu) 13:39:59