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招待講演・セミナー(国外)|招待講演・セミナー(国内)|総説・解説|著書|社会活動・報道|
D. Wu, R. Ono, S. Wang, Y. Kobayashi, K. Sughimoto, H. Liu. Pulse Wave Signal-driven Machine Learning for Identifying Left Ventricular Enlargement in Heart Failure Patients. Biomedical Engineering Online. (2024). (accepted, IF=3.9)
R. Noda, K. Hoshiba, I. Komatsuzaki, Toshiyuki Nakata, H. Liu. Acoustic Characteristics and Sound Source Localization Performance of Gurney Flap-Inspired Low-Noise Propellers in Near- and Far-Field. Drones (2024), 8, https://doi.org/10.3390/xxxxx. (IF=4.8)
Y. Xue, X. Cai, H. Liu. Aerodynamics and stability of hawkmoth forward flight with flexible wing hinge. Phys. Rev. Fluids 9, 063101(2024). https://doi.org/10.1103/PhysRevFluids.9.063101. (IF=2.7)
DY Wang, H. Liu. Turbulence drag reduction by dolphin-inspired near-wall ultrasonic microvibrations. Phys. Fluids. 36(5), 051910(2024) (https://doi.org/10.1063/5.0209761). (IF=4.6)
S. Wang, R. Ono, D. Wu, K. Aoki, H. Kato, T. Iwahana, S. Okada, Y. Kobayashi, H. Liu. Pulse wave-based evaluation of the blood-supply capability of patients with heart failure via machine learning. Biomedical Engineering Online 23:7(2024). https://doi.org/10.1186/s12938-024-01201-7. (IF=3.9)
R. Noda, T. Nakata, H. Liu. Effect of Hindwings on the Aerodynamics and Passive Dynamic Stability of a Hovering Hawkmoth. Biomimetics 8, 578: 80805782023. (IF=4.5)
S. Hara, Y. Maezawa, T. Nakata*, H. Liu*. Simulation-based study on the control of an insect-inspired unmanned aerial vehicle with thrust-vectoring mechanism. J. Aero Aqua Bio-mech. 10(1): 17-23, 2023.
J. Rong, Y. Jiang, Y. Murayama, R. Ishibashi, M. Murakami, H. Liu*. Trailing-edge fringes enable robust aerodynamic force production and noise suppression in a realistic owl wing model. Special Issue: Bioacoustics in Bioinspir. Biomim. 19:016003 (2023). DOI 10.1088/1748-3190/ad0aa9 (IF=3.4)
H. Liu (Correspondence), SZ. Wang, TS Liu.Vortices and Forces in Biological Flight: Insects, Birds and Bats., Annual Review of Fluid Mechanics. https://doi.org/10.1146/annurev-fluid-120821-032304 (2023). (IF=27.7)
Y. Xue, X. Cai, R. Xu, H. Liu. Wing kinematics-based flight control strategy in insect-inspired flight systems: deep reinforcement learning gives solutions and inspires controller design in flapping MAVs. Biomimetics. 8(295)8030295 (2023). (IF=4.5)
TS Liu, SZ Wang, H Liu, GW He. Engineering Perspective on Bird Flight: Scaling, Geometry, Kinematics and Aerodynamics. Prog. Aerospace Sci. (2023) (in press, IF=9.6)
J. Sun, K. Yonezawa, Y. Tanabe, H. Sugawara, H. Liu*. Blade Twist Effects on Aerodynamic Performance and Noise Reduction in A multirotor propeller. Drones doi: 10.3390/drones7040252. (2023). (IF=5.532)
R.C. Li, K. Sughimoto, X.C. Zhang, S.R. Wang, H. Liu*. Impact of respiratory fluctuations on cerebral circulation: a machine learning integrated 0-1D multiscale hemodynamic model. Physiological Measurement DOI 10.1088/1361-6579/acc3d7 (2023). (IF=2.69)
H. Zhang, Y. Zhao, X. Tian, X. Wang, H. Liu. Symmetry breaking of a closed flexible filament behind a rigid plate at low Reynolds numbers. Phys. Fluids. (2023). https://doi.org/10.1063/5.0136797 (IF=4.980)
J. Sun, K. Yonezawa, E. Shima, H. Liu*. Integrated evaluation of the aeroacoustics and psychoacoustics of a single propeller. Int. J. Environ. Res. Public Health. 20, 1955 (2023) https://doi.org/10.3390/ijerph20031955 (IF=4.614)
G. Li, D. Kolomenskiy, H. Liu, R. Godoy-Diana, B. Thiria. Intermittent vs. continuous swimming: an optimization tale. Phys. Rev. Fluids. 8: 013101 (2023). (PRF editors’ suggestion, highlighted in APS magazine “Physics”: Physics 16, 8 (2023) https://physics.aps.org/articles/v16/8, IF=2.895)
S. Wang, G. Li, D. Wu, Z. Zhang, W. Xiao, A. Qiao, L. Jin, H. Liu*. Deep learning-based hemodynamic prediction of carotid stenotic arteries before and after surgical treatments. Frontiers in Physiology. (2022). (in press, IF=4.755)
J. Rong, H. Liu*. Three-dimensional aeroacoustic characteristics of owl-inspired trailing-edge fringes. J. Bionic. Eng. (2022). (accepted, IF=2.995)
Y. Murayama, T. Nakata, H. Liu*. Aerodynamic performance of a bird-inspired morphing tail. J. Biomech. Sci. Eng. (accepted)
G. Li, D. Kolomenskiy, H. Liu, R. Godoy-Diana, B. Thiria. Intermittent vs. continuous swimming:an optimization tale. Phys. Rev. Fluids. 2022. (accepted, IF=2.895)
H.X. Liu, S. Suzuki, W. Wang, H. Liu, Q. Wang. Robust Control Strategy for Quadrotor Drone Using Reference Model-Based Deep Deterministic Policy Gradient. Drones, 1856824 (2022). (IF=5.532)
R. Noda*, T. Ikeda, T. Nakata*, H. Liu. Characterization of the low-noise drone propeller with serrated Gurney flap. Frontiers in Aerospace Engineering. 1:1004828 (2022).
J. Rong, H. Liu*. Effects of owl-inspired leading-edge serrations on tandem wing aeroacoustics. AIP Advances. 12, 115103 (2022). (IF=1.7)
S. Tanaka*, A. Asignacion, T. Nakata, S. Suzuki, H. Liu*. Review of Biomimetic Approaches for Drones. Drones, 6, 320 (2022). (IF=5.532)
S. Koizumi, T. Nakata, H. Liu*. Development of a flapping mechanism inspired by insect wing-base structure. J. Biomech. Sci. Eng. (2022). (accepted)
Y. Xue, X. Cai, H. Liu*. Effects of Wing-body Interaction on Hawkmoth Aerodynamics and Energetics at Various Flight Velocities. Phys. Fluids. (2022). doi.org/10.1063/5.0087161 <https://doi.org/10.1063/5.0087161>. (IF=4.980, selected as featured and AIP Scilight)
Y. Xue, X. Cai, D. Kolomenskiy, R. Xu, H. Liu*. Elastic Storage Enables Robustness of Flapping Wing Dynamics. Bioinspir. Biomim. (2022). doi.org/10.1088/1748-3190/ac6c66 <https://doi.org/10.1088/1748-3190/ac6c66>. (IF=2.985)
A. Jr Asignacion, S. Suzuki, R. Noda, T. Nakata, H. Liu. Frequency-based Wind Gust Estimation for Quadrotors using a Nonlinear Disturbance Observe. IEEE Robotics and Automation Letters (RA-L) (2022). (IF=4.321)
K. Haneda, K. Matsudaira, R. Noda, T. Nakata, S. Suzuki, H. Liu and H. Takahashi. Compact sphere-shaped airflow vector sensor based on MEMS differential pressure sensors. Sensors. 22(1087) (2022). (IF=4.35)
L. Wang, F-B. Tian, H. Liu. Numerical study of three-dimensional flexible flapping wings hovering in ultra-low density atmosphere. Phys. Fluids 34(4), 041903(2022). (IF=4.980)
S. E. Farisenkov, D. Kolomenskiy, N. A. Lapina, P. N. Petrov, T. Engels, F-O Lehmann, R. Onishi, H. Liu, A. A. Polilov. Novel flight style and light wings boost flight performance of tiny beetles. https://doi.org/10.1038/s41586-021-04303-7 <https://doi.org/10.1038/s41586-021-04303-7>. Nature (2022). (IF=69.504)
R. Li, K. Sughimoto, X. Zhang, S. Wang, Y. Hiraki and H. Liu*. Impact of respiratory fluctuation on hemodynamics in human cardiovascular system: a 0-1D multiscale model. Fluids. 7(28). 2022.
Y. Jiang*, P. Zhao, X. Cai, J. Rong, Z. Dong, H. Chen, P. Wu*, H. Hu, X. Jin, D. Zhang, H. Liu*. Bristled-wing design of materials, microstructures and aerodynamics enables flapping flight in tiny wasps. iScience. 25(103692) (2021). (IF=6.107)
J. Rong, H. Liu*. Aeroacoustic interaction between owl-inspired trailing-edge fringes and leading-edge serrations. Phys. Fluids. 34, 011907 (2022). (IF=4.980)
G. Li, D. Kolomenskiy, H. Liu, R. Godoy-Diana, B. Thiria. Lateral-Line Fingerprint of a Neighbor Fish. Frontiers in Robotics and AI. 9(825889) (2022). (IF=4.33)
S. Wang, D. Wu, G. Li, X. Song, A. Qiao, R. Li, Y. Liu, H. Anzai, H. Liu*. A machine learning strategy for fast prediction of cardiovascular function based on pulse wave. Computer Methods and Programs in Biomedicine. 216(10664)(2022).(https://doi.org/10.1016/j.cmpb.2022.106664 <https://doi.org/10.1016/j.cmpb.2022.106664> (IF=7.027)
J. Wang, K. Ishibashi, T. Ikeda, T. Fujii, T. Nakata*, H. Liu*. Morphological effects of leading-edge serrations on acoustic signatures of a mixed flow fan. Phys. Fluids. 34(4), 041909(2022). (IF=4.980)
K. Sughimoto, J. Levman, F. Baig, D. Berger, Y. Oshima, H. Kurosawa, K. Aoki, Y. Seino, T. Ueda, H. Liu, K. Miyaji. Machine Learning Predicts Blood Lactate Levels in High-Risk Children After Cardiac Surgery in Pediatric ICU. Cardiology in the Young (2022). doi:10.1017/S1047951122000932 (IF=1.1)
R. Xu, X. Zhang, H. Liu*. Effects of wing-to-body mass ratio on insect flapping flights. Physics of Fluids. <> 33, 021902(2021). https://doi.org/10.1063/5.0034806 <https://doi.org/10.1063/5.0034806> (IF=4.980)
X, Cai, T. Nakata, D. Kolomenskiy, H. Liu*. A CFD Data-Driven Aerodynamic Model for Fast and Precise Prediction of Flapping Aerodynamics in Various Flight Velocities. Journal of Fluid Mechanics.915, A114, doi:10.1017/jfm.2021.68 <https://www.doi.org/10.1017/jfm.2021.68> (2021). (IF=3.96)
S. Koizumi, T. Nakata*, H. Liu*. Effects of the flexibility of flapping mechanisms inspired by insect musculoskeletal system on the flight performance of flapping wing robot. Frontiers in Bioengineering and Biotechnology. https://doi.org/10.3389/fbioe.2021.612183 <https://doi.org/10.3389/fbioe.2021.612183>. (IF=6.064)
Y. Murayama, T. Nakata*, H. Liu*. Flexible flaps inspired by avian feathers can enhance aerodynamic robustness in low Reynolds number airfoils. Frontiers in Bioengineering and Biotechnology. https://doi.org/10.3389/fbioe.2021.612182 <https://doi.org/10.3389/fbioe.2021.612182>. (IF=6.064)
Xuefei Cai, H. Liu*. A six-degree-of-freedom proportional-derivative control strategy for bumblebee flight stabilization. J. Biomech. Sci. Eng. 16(4),21-00113. https://doi.org/10.1299/jbse. 21-00113 <https://doi.org/10.1299/jbse.%2021-00113>
Y. Li, K. Yonezawa, R. Xu, H. Liu*. A Biomimetic Rotor-Configuration Design for Optimal Aerodynamic Performance in Quadrotor drone. Journal of Bionic Engineering. https://doi.org/10.1007/s42235-021-0069-0 <https://doi.org/10.1007/s42235-021-0069-0>. 18: 824?839 (2021). (IF=2.995)
J. Wang, K. Ishibashi, M. Joto, T. Ikeda, T. Fujii, T. Nakata, H. Liu*. Aeroacoustic characteristics of owl-inspired blade designs in a mixed flow fan: effects of leading-and trailing-edge serration. Bioinspir. Biomim. 16:066003 (2021). (IF=3.13)
X. Zhang, J. Liu, Z. Cheng, B. Wu, J. Xie, L. Zhang, H. Liu. Personalized 0-1D multiscale hemodynamic modeling and wave dynamics analysis of cerebral circulation for an elderly patient with dementia. International Journal for Numerical Methods in Biomedical Engineering. 37(9):e3510. https://doi.org/10.1002/cnm.3510 <https://doi.org/10.1002/cnm.3510> (2021). (IF=2.747)
Y. Li, K. Yonezawa, H. Liu*. Effect of ducted-rotor configuration on aerodynamic performance in quadrotor drone. Drones. 5(3), 101; https://doi.org/10.3390/drones5030101(2021). (IF=5.532)
K. Sughimoto, T. Ueda, T. Fujiwara, M. Kabasawa, H. Liu*. Impact of Atrial Fibrillation on Fontan Circulation: Fontan Computational Model. The Annals of Thoracic Surgery https://doi.org/10.1016/ j.athoracsur.2021.08.061 <https://doi.org/10.1016/%20j.athoracsur.2021.08.061>(2021). (IF=5.102)
G. Li, H. Liu*, J. Leeuwen, U. Muller. Fish regulate tail-beat kinematics to minimize speed-specific cost of transport. Proc. R. Soc. B. 288(1964), 20211601 (2021). (IF=5.530)
Toshiyuki Nakata, Nathan Phillips, Patricio Simoes, Ian J. Russell, Jorn A. Cheney, Simon M. Walker and Richard J. Bomphrey Aerodynamic imaging by mosquitoes inspires a surface detector for autonomous flying vehicles. Science, 368 (6491), ? DOI: 10.1126/science.aaz9634
Z. Zhao, G. Li, Q. Xiao, H. Jiang, G. Mbuta Tchivelekete, X. Shu, H. Liu. Quantification of the influence of drugs on zebrafish larvae swimming kinematics and energetics. Peer J. https://doi.org/10.7717/peerj.8374 <https://doi.org/10.7717/peerj.8374>. (IF=2.984)
R. Li, Q. Xiao, Y. Liu, L. Li, H. Liu. Computational investigation on a self-propelled pufferfish driven by multiple fins. Ocean Engineering https://doi.org/10.1016/j.oceaneng.2019.106908 <https://doi.org/10.1016/j.oceaneng.2019.106908>. (IF=4.372)
X. Zhang, D. Wu, Y. Li*, H. Liu*. Personalized Hemodynamic Modeling of the Human Cardiovascular System: A Reduced-Order Computer Model. IEEE Transactions on Biomedical Engineering. DOI 10.1109/TBME.2020.2970244, IEEE.2020. (IF=5.04)
K. Matsuura <https://www.ncbi.nlm.nih.gov/pubmed/?term=Matsuura%20K%5BAuthor%5D&cauthor=true&cauthor_uid=30962982>, W. Jin <https://www.ncbi.nlm.nih.gov/pubmed/?term=Jin%20WW%5BAuthor%5D&cauthor=true&cauthor_uid=30962982>, H. Liu <https://www.ncbi.nlm.nih.gov/pubmed/?term=Liu%20H%5BAuthor%5D&cauthor=true&cauthor_uid=30962982>, G. Matsumiya <https://www.ncbi.nlm.nih.gov/pubmed/?term=Matsumiya%20G%5BAuthor%5D&cauthor=true&cauthor_uid=30962982>. Computational fluid dynamic study of multiple sequential coronary artery bypass anastomoses in a native coronary stenosis model. Coronary Artery Disease. doi: 10.1097/MCA.0000000000000864. 2020. (IF=1.554)
T. Xiao, H. Liu*. Exploring a bumblebee-inspired power-optimal flapping-wing design for hovering on Mars based on a surrogate model. <https://www.jstage.jst.go.jp/article/jbse/advpub/0/advpub_20-00001/_article/-char/ja/>. J. Biomech Eng Sci. DOI:10.1299/jbse.20-00001.2020.
D. Kolomenskiy, S. Farisenkov, T. Engels, N. Lapina, P. Petrov, F-O. Lehmann, R. Onishi, H. Liu, A. Polilov. Aerodynamic performance of a bristled wing of a very small insect. Experiments in Fluids. https://doi.org/10.1007/s00348-020-03027-0. (IF=2.797)
C. Rao, H. Liu*. Effects of Reynolds number and distribution on passive flow control in owl-inspired leading-edge serrations. Integrative and Comparative Biology. https://doi.org/10.1093/icb/icaa119 <https://doi.org/10.1093/icb/icaa119> (IF=3.326)
H. Wang, Y. Li, X. Zheng, S. Pro ?bsting, Q. Hu, D. Chen, H. Liu, X. Wu. Aerodynamics of the Wells turbine with a hawkmoth-inspired blade design. Bioinspir. Biomim. 15 066001.2020. (IF=3.13)
H. Liu*. Simulation-based Insect-inspired Flight Systems. Current Opinion in Insect Science. https://doi.org/10.1016/j.cois.2020.10.001 <https://doi.org/10.1016/j.cois.2020.10.001>. 2020. (invited, IF=5.254)
R. Xu, T. Nakata, X. Cai, H. Liu*. Intermittent control strategy can enhance stabilization robustness in bumblebee hovering. Bioinspir. Biomim.16:016013 (2020). (IF=3.13)
Ashim Panta ・ Alex Fisher ・ Abdulghani Mohamed ・ Matthew Marino ・ Hao Liu ・ Simon Watkins. Low Reynolds number aerodynamics of leading-edge and trailing-edge hinged control surfaces: Part I Statics. Aerospace Science and Technology. 2019 (tin press, IF=2.829)
S. Ravi, R. Noda, Susan Gagliardi, D. Kolomenskiy, Stacey Combes, H. Liu, Andrew Biewener, Nicolai Konow. Modulation of flight muscle recruitment and wing rotation enables hummingbirds to mitigate aerial roll perturbations. Current Biology. S0960-9822(19)31464-2. 2019. (IF=9.193)
J. Wang, T. Nakata, H. Liu*. Development of Mixed Flow Fans with Bio-Inspired Grooves. Biomimetics 2019, 4, 72; doi:10.3390/biomimetics4040072.
G. Li, D. Kolomenskiy, H. Liu, B. Thiria and R. Godoy-Diana. On the energetics and stability of a minimal fish school. PlosONE. DOI:10.1371/journal.pone.0215265. 2019. (IF=2.766)
D. Kolomenskiy, S. Ravi, R. Xu, K. Ueyama, T. Jakobi, T. Engels, T. Nakata, J. Sesterhenn, M. Farge, K. Schneider, R. Onishi, H. Liu. Wing morphology and inertial properties of bumblebees. Journal of Aero Aqua Bio-mechanisms. 8(1), 41-47, 2019.
X. Zhang, H. Haneishi, H. Liu. Impact of ductus arteriosus constriction and restrictive foramen ovale on global hemodynamics for term fetuses with d-TGA. International Journal for Numerical Methods in Biomedical Engineering. https://doi.org/10.1002/cnm.3231. 2019. (invited, IF=2.338)
G. Li, D. Kolomenskiy, H. Liu, B. Thiria and R. Godoy-Diana. On the interference of vorticity and pressure fields of a minimal fish school. Journal of Aero Aqua Bio-mechanisms. 8(1), 27-33, 2019.
X. Zhang, H. Haneishi, H. Liu*. Multi-scale modeling of the cardiovascular system for infants, children and adolescents under normal and abnormal conditions. Computers in Biology and Medicine, 108: 200?212. 2019. (IF=2.29)
D. Kolomenskiy, S. Ravi, R. Xu, K. Ueyama, T. Jakobi, T. Engels, T. Nakata, J. Sesterhenn, M. Farge, K. Schneider, R. Onishi, H. Liu. The dynamics of passive feathering rotation in hovering flight of bumblebees. Journal of Fluid & Structure, doi.org/10.1016/j.jfluidstructs.2019.03.021. (IF=3.070)
H. Tanaka*, G. Li, Y. Uchida, M. Nakamura, T. Ikeda, H. Liu*. Measurement of time-varying kinematics of a dolphin in burst accelerating swimming. PlusONE https:// doi.org/10.1371/journal.pone.0210860.2019. (IF=3.02)
K. Matsuura, et al. H. Liu. Computational fluid dynamic study of different length of coronary artery bypass grafting in a native coronary stenosis model. Journal of Thoracic Disease. doi: 10.21037/jtd.2019.01.35. 2019. (IF=1.804)
T. Fujiwara, K. Sughimoto, A. Baker, F. Liang, H. Liu*. Orientation effects of the of bicuspid aortic valve and stenosis on aortic hemodynamics: a computational study. J. Biomech Eng Sci. DOI:10.1299/jbse.18-00417. 2018.
T. Jakobi, Dm. Kolomensky, T. Ikeda, S. Watkins, A. Fisher, H. Liu, S. Ravi. Bees with attitude: the effect of directed gusts on flight trajectories. Biology Open. doi: 10.1242/bio.034074 2018. (IF=2.1)
D. Chen, D. Kolomenskiy, R. Onishi, H. Liu*. Versatile Reduced-Order Model of Leading-Edge Vortices on Rotary Wings. Physical Review Fluids 3, 114703. 2018 (IF= 2.02)
L. Xu, H. Liu*, B. Zhao, F. Liang*. Influence of aging-associated flow waveform variation on hemodynamics in internal carotid artery aneurysms. Computers in Biology and Medicine. 101(51-60). doi: 10.1016/j.compbiomed.2018.08.004. 2018. (IF=2.115)
M. Miyazaki, Y. Hirai. H. Moriya, M. Shimomura, A. Miyauchi, H. Liu*. Biomimetic Design Inspired Sharkskin Denticles and Modeling of Diffuser for Fluid Control. Journal of Photopolymer Science and Technology. 31(1):133-138, 2018.
R. Li, Q. Xiao, Y. Liu, J. Hu, L. Li, G. Li, H. Liu, K. Hu, L. Wen. A Multi-Body Dynamics based numerical modelling tool for solving biomimetic problems. Bioinspi. Biomim. 2018. (accepted, IF=2.94)
C. Rao, H. Liu. Aerodynamic Robustness in Owl-inspired Leading-edge Serrations: A Computational Wind-gust Model. Bioinspi. Biomim. https://doi.org/10.1088/1748-3190/aacb43.2018. (accepted, IF=2.94)
T. Nakata, R. Noda, S. Kumagai, H. Liu. A simulation-based study on longitudinal gust response of flexible flapping wings. Acta Mechanica Sinica, 2018. (accepted, IF=1.32)
R. Noda, T. Nakata, T. Ikeda, D. Chen, Y. Yoshinaga, K. Ishibashi, C. Rao, H. Liu. Development of bio-inspired low-noise propeller for drone. Journal of Robotics and Mechatronics. 30(3), 2018.
H. Liu, T. Nakata, R. Noda, D. Chen, K. Ueyama, K. Akiyama, D. Kolomenskiy. Robustness strategies in bio-inspired flight systems: morphology, dynamics, and flight control. Proc. SPIE 10593, Bioinspiration, Biomimetics, and Bioreplication VIII, 105930U (27 March 2018). DOI: 10.1117/12.2296483
T. Nakata*, R. Noda, H. Liu*. Effect of twist, camber and spanwise bending on the aerodynamic performance of flapping wings. Journal of Biomechanical Science and Engineering. 2018. (in press)
T. Nakata*, R. Noda, H. Liu*. Fluid-structure interaction enhances the aerodynamic performance of flapping wings - a computational study. Journal of Biomechanical Science and Engineering. Online ISSN: 1880-9863, 2018 DOI: 10.1299/jbse.17-00666
T. Ikeda, T. Ueda, T. Nakata, R. Noda, H. Tanaka, T. Fujii, H. Liu*. Morphology effects of leading-edge serrations on aerodynamic force production: an integrated study with PIV and force measurements. Journal of Bionic Engineering 2018 (accepted, IF=2.39)
L. Xu, F. Liang, L. Gu, H. Liu*. Flow instability detected in ruptured versus unruptured cerebral aneurysms at the internal carotid artery. Journal of Biomechanics. 72, 187-199, 2018. (IF=4.36) DOI: 10.1016/j.jbiomech.2018.03.014
T. Ikeda, H. Tanaka*, R. Yoshimura, R. Noda, T. Fujii, T. Nakata, H. Liu*. A Robust Biomimetic Blade Design for Micro Wind Turbines. Renewable Energy. 125, 155-165, 2018. (IF=4.36) DOI: 10.1016/j.renene.2018.02.093.
L. Li, G. Li, XX, Q. Xiao, H. Liu*. Multi-fin kinematics and deformation in pufferfish steady swimming. Ocean Engineering. 158, 111-122, 2018. (IF=1.32)
X. Zhang, H. Liu*. A three-axis PD control model for bumblebee hovering stabilization. Journal of Bionic Engineering. 15(3), 494?504 2018. (selected as highlights, IF=2.39)
Kaoru Matsuura, Wei Wei Jin, Hao Liu, Goro Matsumiya; Computational fluid dynamics study of the end-side and sequential coronary artery bypass anastomoses in a native coronary occlusion model, Interactive CardioVascular and Thoracic Surgery, , ivx376
CHEN, Di, et al. Forewings match the formation of leading-edge vortices and dominate aerodynamic force production in revolving insect wings. Bioinspiration & Biomimetics, 2017.
YAMAGUCHI, Ryuhei, et al. Universality of Periodic Oscillation Induced in Side Branch of a T-Junction in Numerical Simulation. Journal of Flow Control, Measurement & Visualization, 2017, 5.04: 73.
MIYOSHI, Hiromi, et al. Cell migration guided by a groove with branches. Journal of Biomechanical Science and Engineering, 2017, 12.1: 16-00613-16-00613.
MAEDA, Masateru, et al. Quantifying the dynamic wing morphing of hovering hummingbird. Royal Society Open Science, 2017, 4.9: 170307.
Rao, C., Ikeda, T., Nakata, T., & Liu, H. Owl-inspired leading-edge serrations play a crucial role in aerodynamic force production and sound suppression. Bioinspir. Biomim, 2017, 12: 046008.
Richard J. Bomphrey, Toshiyuki Nakata, Nathan Phillips & Simon M. Walker. Smart wing rotation and trailing-edge vortices enable high frequency mosquito flight. Nature, 2017. (doi:10.1038/nature21727).
D. Chen, D. Kolomenskiy, H. Liu*. Closed-form solution for the edge vortex of a revolving plate. Journal of Fluid Mechanics. 821,pp.200-218.doi:10.1017/jfm.2017.257.2017.
K. Sugimoto*, Y. Asakura, C. Brizard, F. Liang, T. Fujiwara, K. Miyaji, H. Liu*. Impact of the location of the fenestration on Fontan circulation hemodynamics: A three-dimensional model study. Cardiology in the Young,
H. MIYOSHI, M. NISHIMURA, Y. YAMAGATA, H LIU, Y. WATANABE, M. SUGAWARA. Cell migration guided by a groove with branches. Journal of Biomechanical Engineering and Science. http://doi.org/10.1299/jbse.16-00613 2017.
H. Liu*, T. Nakata, G. Li, D. Kolomenskiy. Unsteady Bio-fluid Dynamics in Swimming and Flying. Acta Mechanica Sinica. DOI: 10.1007/s10409-017-0677-4, 2017.
Xiancheng Zhang, Shigeho Noda, Ryutaro Himeno and Hao Liu. Cardiovascular disease-induced thermal responses during passive heat stress: an integrated computational study. International Journal for Numerical Methods in Biomedical Engineering.
M. Sugawara, H. Miyoshi, T. Miura, H. Tanaka, K. Tsubota, H. Liu. Dynamics of Actin Stress Fibers and Focal Adhesions during Slow Migration in Swiss 3T3 Fibroblasts: Intracellular Mechanism of Cell Turning. BioMed Research International. http://dx.doi.org/10.1155/2016/5749749. 2016.
F. Liang X. Liu, R. Yamaguchi, H. Liu. Sensitivity of flow patterns in aneurysms on the anterior communicating artery to anatomic variations of the cerebral arterial network. Journal of Biomechanics. http://doi.org/10.1016/j.jbiomech.2016.09.031. 2016.
Xiancheng Zhang, Shigeho Noda, Ryutaro Himeno & Hao Liu. Gravitational effects on global hemodynamics at different postures: A closed-loop multi-scale mathematical analysis. Acta Mechanica Sinica, 2016: 1.
L. Xu, H. Liu. Exploring potential association between flow instability and rupture in patients with matched-pairs of ruptured-unruptured intracranial aneurysms. Biomedical Engineering Online DOI 10.1186/s12938-016-0277-8. 2016.
A. Fisher, S. Ravi, S. Watkins, J. Watmuff, C. Wang, H. Liu, P. Petersen. The gust-mitigating potential of flapping wings. Bioinspiration & Biomimetics. 11(4):046010. 2016.
R. Yamaguchi, G. Tanaka, H. Liu. Effect of Elasticity on Flow Characteristics Inside Intracranial Aneurysms. International Journal of Neurology and Neurotherapy. DOI: 10.23937/2378-3001/3/3/1049 . 2016.
L. Xu, A. Saito, Y. Yokoyama, K. Sato, T. Sasaki, R. Yamaguchi, M. Sugawara, H. Liu. Low-frequency harmonics in inlet flow rate play a crucial role in inducing flow instabilities in terminal cerebral aneurysms. Journal of Biomechanical and Science Engineering. DOI:10.1299/jbse.15-00523. 2016.
W. Jin, F. Liang, H. Liu. Hemodynamic response to exercise in supine and standing attitudes: an integrated model. Journal of Biomechanical and Science Engineering, DOI:10.1299/jbse.15-00523. 2016.
G. Tanaka, R. Yamaguchi, H. Liu, T. Hayase. Fluid Vibration Induced by High-Shear-Rate Flow in a T-Junction, Journal of Fluids Engineering, DOI: 10.1115/1.4032935. 2016.
R. Yamaguchi, G. Tanaka, H. Liu, T. Hayase. Fluid Vibration Induced in T-Junction with Double Side Branches. World Journal of Mechanics, 6, 169-179, 2016.
Sridhar Ravi, Dmitry Kolomenskiy, Thomas Engels, Kai Schneider, Chun Wang, Jorn Sesterhenn & Hao Liu. Bumblebees minimize control challenges by combining active and passive modes in unsteady winds. Scientific Reports 6, Article number: 35043 (2016)
Hao Liu, Sridhar Ravi, Dmitry Kolomenskiy, Hiroto Tanaka. Biomechanics and biomimetics in insect-inspired flight systems. Philosophical Transactions of the Royal Society B, 2016(371) 20150390 (DOI: 10.1098/rstb.2015.0390).
Dmitry Kolomenskiy , Masateru Maeda, Thomas Engels, Hao Liu , Kai Schneider, Jean-Christophe Nave. Aerodynamic Ground Effect in Fruitfly Sized Insect Takeoff. PLoS ONE 11(3): e0152072. (DOI: 10.1371/journal.pone.0152072).
Gen Li, Ulrike K. Muller, Johan L. van Leeuwen and Hao Liu. Fish larvae exploit edge vortices along their dorsal and ventral fin folds to propel themselves. Journal of the Royal Society Interface, 13: 20160068. (DOI:10.1098/rsif.2016.0068).
Robert Ray, Toshiyuki Nakata, Per Henningsson and Richard Bomphrey. Enhanced Flight Performance by Genetic Manipulation of Wing Shape in Drosophila. Nature Communications 7 (March 1, 2016): 10851. (DOI :10.1038/ncomms10851.)
Wei Shyy, Chang-kwon Kang, Pakpong Chirarattananon, Sridhar Ravi and Hao Liu. Aerodynamics, sensing and control of insect-scale flapping-wing flight. Proc. R. Soc. A. The Royal Society, 2016, 472(2186): 20150712. (DOI:10.1098/rspa.2015.0712)
菅原路子, 小倉章裕, 劉浩, 武居昌宏, “マウス線維芽細胞の方向転換遊走時における定性的4ステップの体系化:""”, ライフサポート, 2015. (in Japanese, in press)
菅原路子, 狩野達也, 劉浩, 武居昌宏, “ テンプレート・マッチング法による異なる基質上の集団細胞遊走解析”, ライフサポート, 2015. (in Japanese, in press)
W. Shyy, C. Kang, P. Chirarattananon, S. Ravi, H. Liu. Aerodynamics, Sensing, and Control of Insect-scale Flapping-Wing Flight. Proceedings of the Royal Society A, 2015.
L. Xu, M. Sugawara, G. Tanaka, M. Ohta, H. Liu and R. Yamaguchi. Effect of elasticity on wall shear stress inside cerebral aneurysm at anterior cerebral artery. Technology and Health Care. doi: 10.3233/THC-161135. 2015.
Toshiyuki Nakata, Hao Liu, Richard Bomphrey. A CFD-informed quasi-steady model of flapping wing aerodynamics. Journal of Fluid Mechanics, 2015. DOI: http://dx.doi.org/10.1017/jfm.2015.537.
Koichi Sughimoto , Yoshiaki Shimamura, Chie Tezuka, Ken-ichi Tsubota, Hao Liu, Kenichiro Okumura, Yoshitada Masuda, Hideaki Haneishi. Effects of arterial blood flow on walls of the abdominal aorta: distributions of wall shear stress and oscillatory shear index determined by phase-contrast magnetic resonance imaging. Heart and Vessels. DOI:10.1007/s00380-015-0758.
Xiaoqian Guo, Di Chen, Hao Liu. Does a revolving wing stall at low Reynolds numbers? Journal of Biomechanical Science and Engineering. DOI:10.1299/jbse.15-00588.
Fuyou Liang, Marie Oshima, Huaxiong Huang, Hao Liu, Shu Takagi. Numerical study of cerebroarterial hemodynamic changes following carotid artery operation: a comparison between multi-scale modeling and stand-alone 3-D modeling. ASME Journal of Biomech
Hiroto Tanaka, H. Okada, Y. Shimasue and Hao Liu. Flexible flapping wings with self-organised microwrinkles. Bioinspiration & Biomimetics, 2015. (featured article)
Koichi Sughimoto, Ken-ichi Tsubota, Kazuki Okauchi, Christian Brizard, Fuyou Liang and Hao Liu. Total Cavopulmonary Connection is Superior to Atriopulmonary Connection Fontan in Preventing Thrombus Formation: Computer Simulation of Flow-Related Blood Coagulation. Pediatric Cardiology, 2015.
Takashi Fujiwara, Fuyou Liang, Ken-ichi Tsubota, Michiko Sugawara, Yu-qi Fan and Hao Liu. Effects of vessel dynamics and compliance on human right coronary artery hemodynamics with / without stenosis. Journal of Biomechanical Science and Engineering
Ryuhei Yamaguchi, Gaku Tanaka, Hao Liu and H. Ujiie, Repression of wall shear stress inside cerebral aneurysm at bifurcation of anterior cerebral artery by stents. Heart and Vessel, DOI: 10.1007/s00380-015-0665-1. 2015.
Hao Liu, Fuyou Liang, Jasmin Wong, Takashi Fujiwara, W.J. Ye, Ken-ichi Tsubota, Michiko Sugawara. Multi-scale Modeling of Hemodynamics in the Cardiovascular System. Acta Mechanica Sinica (AMS), DOI: 10.1007/s10409-015-0460-3. 2015. (invited)
R. Noda, T. Nakata, H. Liu, Body flexion effect on the flight dynamics of a hovering hawkmoth. Journal of Biomechanical Science and Engineering (JBSE), Vol.9, No.3, 2014.
Gen Li, Ulrike K. Muller, Johan L. van Leeuwen and Hao Liu. Escape trajectories are deflected when fish larvae intercept their own C-start wake. Journal of the Royal Society Interface, 11: 20140848.2014.
R. Noda, T. Nakata, H. Liu, Effects of wing deformation on aerodynamic performance of a revolving insect wing, Acta Mechanica Sinica, DOI 10.1007/ s10409-015-0002-z. 2014.
F. Liang, H. Senzaki, C. Kurishima, K. Sughimoto, R. Inuzuka, H. Liu, Hemodynamic performance of the Fontan circulation compared with a normal biventricular circulation: a computational model study. AJP-Heart and Circulatory Physiology, DOI: 10.1152/
Y. Miura, M. Sugawara, T. Yagi, K. Tsubota, and H. Liu, Analysis of actin protein dynamics at the protrusion process of cell movement, IEEJ Transactions on Electronics, Information and Systems, 134 (2), pp. 177-182, 2014.
F. Liang, H. Senzaki, Z. Yin, Y. Fan, K. Sughimoto, H. Liu. Patient-specific assessment of cardiovascular function by combination of clinical data and computational model with applications to patients, International Journal for Numerical Methods in B
Q. Xiao, J. Hu, H. Liu. Effect of torsional stiffness and inertia on the dynamics of low aspect ratio flapping wings. Bioinspiration & Biomimetics. doi:10.1088/1748-3182/9/1/016008, 2014.
M. Maeda, H. Liu. Ground Effect in Fruit Fly Hovering: A Three-dimensional Computational Study. Journal of Biomechanical Science and Engineering (JBSE), 8 (4), 344-355, 2013.
K. Tusbota, S. Wada and H. Liu, Elastic behavior of a red blood cell with the membranes nonuniform natural state: Equilibrium shape, motion transition under shear flow, and elongation during tank- treading motion, Biomechanics and Modeling in Mechan
H. Miyoshi, K. Tsubota, T. Hoyano, T. Adachi, and H. Liu, Three-dimensional modulation of cortical plasticity during pseudopodial protrusion of mouse leukocytes, Biochemical and Biophysical Research Communications, http://dx.doi.org/10.1016/ j.bbrc.2
F. Liang, H. Senzaki, Z. Yin, Y. Fan, K. Sughimoto, H. Liu. Transient Hemodynamic Changes upon Changing a BCPA into a TCPC in Staged Fontan Operation: A Computational Model Study, The Scientific World Journal, Article ID 486815, 2013. doi:10.1155/201
H. Liu, H. Aono and H. Tanaka, Bio-inspired Air Vehicles for Mars Exploration, Acta Futura, 6, 81-95, 2013. (invited).
K. Sughimoto, Y. Takahara, K. Mogi, K. Yamazaki, K. Tsubota, F. Liang, and H. Liu, Blood Flow Dynamic Improvement with Aneurysm Repair Detected by A Patient-Specific Model of Multiple Aortic Aneurysms, Heart and Vessel, DOI 10.1007/s00380-013-0381-7,
F. Liang, S.Takagi, R.Himeno, H. Liu. A computational model of the cardiovascular system coupled with an upper-arm oscillometric cuff and its application to studying the suprasystolic cuff oscillation wave, concerning its value in assessing arterial stiffness, Computer Methods in Biomechanics and Biomedical Engineering 16 (2), pp. 141-157, 2013.
K. Sughimoto; F. Liang, Y. Takahara, K. Yamazaki, H. Senzaki, S. Takagi, and H. Liu, Assessment of cardiovascular function by combining clinical data with a computational model of the cardiovascular system, The Journal of Thoracic and Cardiovascular
R. Noda, M. Maeda, H. Liu, Effect of Passive Body Deformation of Hawkmoth on Flight Stability. Advances in Intelligent Systems and Computing 193 AISC (VOL.1), pp. 835-842, 2013.
H. Aono and H. Liu, Flapping Wing Aerodynamics of a Numerical Biological Flyer Model in Hovering Flight, Computers & Fluids, 85, 85-92, 2013.
Gen Li, Ulrike Muller, Johan van Leeuwen, and Hao Liu, Body dynamics and hydrodynamics of swimming fish larvae: a computational study, Journal of Experimental Biology, 215, 4015-4033, 2012 (doi: 10.1242/ jeb.071837).
F. Liang, H. Liu and S. Takagi, The effects of brachial arterial stiffening on the accuracy of oscillometric blood pressure measurement: A computational model study, Journal of Biomechanical Science and Engineering, 7(1), pp. 15-30, 2012.
F. Liang, S. Takagi, R. Himeno, and H. Liu, The influences of cardiovascular properties on suprasystolic brachial cuff wave studied by a simple arterial-tree model, Journal of Mechanics in Medicine and Biology, 12 (1), pp. 1-25, 2012.
T. Nakata and H. Liu, Aerodynamic performance of a hovering hawkmoth with flexible wings: a computational approach, Proceedings of Royal Society: B, 2012, 279 (1729) pp. 722-731, 2012.
T. Nakata and H. Liu, A fluid-structure interaction model of insect flight with flexible wings, Journal of Computational Physics, doi:10.1016/j.jcp.2011.11.005, 2012.
T. Nakata, H. Liu, Y. Tanaka, N. Nishihashi, X. Wang, and A. Sato, Flexible wings aerodynamics of a bio-inspired flapping micro air vehicle, Bioinspiration & Biomimetics, 6 045002 doi:10.1088/1748-3182/6/4/045002. 2011. (invited, cover image)
F. Liang, K. Fukasaku, H. Liu and S. Takagi, A computational model study of the influence of the anatomy of the Circle of Willis on cerebral hyperperfusion following carotid artery surgery, BioMedical Engineering OnLine, 10, pp.1-22, 2011.
Q. Xiao, K. Sun, H. Liu, and J. Hu, Computational study on near wake interaction between undulation body and a D-section cylinder, Ocean Engineering, doi:10.1016/j.oceaneng.2010. 12.017, 2011.
N. Gao, H. Aono, H. Liu, Perturbation analysis of 6DoF flight dynamics and passive dynamic stability of hovering fruitfly Drosophila melanogaster, Journal of Theoretical Biology, doi:10.1016/j.jtbi.2010.11.022, 2010.
H. Liu, T. Nakata, N. Gao, M. Maeda, H. Aono, and W. Shyy, Micro Air Vehicle-Motivated Computational Biomechanics in Bio-flights: Aerodynamics, Flight Dynamics and Maneuvering Stability, Acta Mechanica Sinica, DOI 10.1007/s10409-010-0389-5, 2010.
N. Gao and H. Liu, A Numerical Analysis of Dynamic Flight Stability of Hawkmoth Hovering Passive dynamic stability of a hovering fruitfly: a comparison between linear and nonlinear methods, Journal of Biomechanical Science and Engineering, 5, pp. 591
M. Maeda, N. Gao, N. Nishihashi and H. Liu, A Free-Flight Simulation of Insect Flapping Flight, Journal of Aero Aqua Bio-mechanisms, 1 (1), pp.71-79, 2010.
Y. Inada, M. Maeda, T. Moriyama, H. Aono, H. Liu, T. Aoyama, Numerical Analysis of Sound Generation and Transmission from Flapping Wings. Journal of Aero Aqua Bio-mechanisms, 1(1), pp.99?103, 2010.
W. Shyy, H. Aono, S. K. Chimakurthi, P. Trizila, C.-K. Kang, C. E. S. Cesnik, and H. Liu, Recent Progress in Flapping Wing Aerodynamics and Aeroelasticity, Progress in Aerospace, 46, pp.284-327, 2010.
H. Liu and W. Shyy. Micro Air Vehicle-Motivated Aerodynamics, Micro Air Vehicles (MAVs), Encyclopedia of Aerospace Engineering, 2010.
W. Shyy, H. Aono, and H. Liu, Flapping Wing Aerodynamics, Incompressible Flows and Aerodynamics, Encyclopedia of Aerospace Engineering, 2010.
F. Liang, S. Takagi, R. Himeno, and H. Liu, Biomechanical characterization of ventricular-arterial coupling during aging: a multi-scale model study, Journal of Biomechanics, 42(6), pp.692-704, 2009.
K. Sugimoto, Y. Takahara, K. Mogi, H. Liu and K. Yamazaki, Annular Excursion Contributes to Efficient Cardiac Output: A three-dimensional echocardiographic approach, Journal of Heart Valve Disease, 19 (2), pp. 244-248, 2009.
K. Tsubota, K. Takahashi, H. Liu, Influence of red cell motion on blood properties in a bifurcated micro-tube ? a study based on particle method, Transactions of the Japanese Society for Medical and Biological Engineering, 47(6), 501-507, 2009.
F. Liang, S. Takagi, R. Himeno, and H. Liu, Multi-scale modeling of the human cardiovascular system with applications to aortic valvular and arterial stenoses, Medical and Biological Engineering and Computing, 47(7), 743-755. (2009)
H. Aono, S. K. Chimakurthi, C. E. S. Cesnik, H. Liu, and W. Shyy, Computational Modeling of Spanwise Flexibility Effects on Flapping Wing Aerodynamics, AIAA Paper 2009-0413, 2009.
H. Liu and H. Aono, Size effects on insect hovering aerodynamics: an integrated computational study, Bioinspiration and Biomimetics, 4, 1-13, 2009. (invited) (Annual highlights in 2009, Mostly cited in 2011)
H. Liu, Integrated modeling of insect flight: from morphology, kinematics to aerodynamics, Journal of Computational Physics, 228(2), 439-459, 2009.
H. Aono, W. Shyy, and H. Liu, Near wake vortex dynamics of a hovering hawkmoth, Acta Mechanica Sinica, 25(1), 23-36, 2009.
Y. Inada, H. Aono, H. Liu, T. Aoyama, Numerical Analysis of Sound Generation of Flapping Wings of Insect, Theoretical and Applied Mechanics, 57, pp. 437-447, 2009.
Ulrike K Muller, Johan L van Leeuwen, Stephan van Duin, and H. Liu, An Un-momentous Start to Life: Can Hydrodynamics Explain Why Fish Larvae Change Swimming Style? Journal of Biomechanical Science and Engineering, 4 (1), 41-53, 2009.
Yohei Katumata, Ulrike K Muller and H. Liu, Computation of self-propelled swimming in larva fishes, Journal of Biomechanical Science and Engineering, 4(1), 54-66, 2009.
Na Gao, Hikaru Aono and H. Liu, A Numerical Analysis of Dynamic Flight Stability of Hawkmoth Hovering, Journal of Biomechanical Science and Engineering, 4(1), 105-116, 2009.
N. Akazawa, Y. Nozaki, N. Kataoka, F. Liang, H. Liu, T. Matsuzawa, K. Fujii, R. Yamaguchi, Flow structures at bifurcation of renal arteries under pulsation, Transaction of the JSME(B), 74 (745), 1965-1969, 2008.
W. Shyy, Y. Liang, J. Tang, H. Liu, O. Trizila, B. Stanford, L. Bernal, C. Cesnik, P. Friedmann and P. Ifju, Computational Aerodynamics of Low Reynolds Number Plunging, Pitching and Flexible Wings, Acta Mechanica Sinica, 24(4), 351-374, 2008.
Y. He, R. Himeno, H. Liu, H. Yokota and Z. Sun, Finite element analysis of blood flow and heat transfer in three-dimensional image-based finger model, International Journal of Numerical Methods for Heat and Fluid Flow, 18 (7/8), 932-953, 2008.
Y. He, H. Liu, R. Himeno, J. Sunaga, N. Kakusho, H. Yokota, Finite element analysis of blood flow and heat transfer in an image-based human finger, Computes in Biology and Medicine, 38(5), 555-562, 2008.
W. Shyy, Y. Liang, J. Tang, H. Liu, O. Trizila, B. Stanford, L. Bernal, C. Cesnik, P. Friedmann and P. Ifju, Computational Aerodynamics of Low Reynolds Number Plunging, Pitching and Flexible Wings, AIAA Paper 2008-0523, 2008. (Invited)
H. Aono, W. Shyy, and H. Liu, Vortex dynamics in near wake of a hovering hawkmoth, AIAA Paper 2008-0260, 2008.
Y. Inada, H. Aono, H. Liu, T. Aoyama. Numerical analysis of flapping sound generated by hovering insects. The Journal of the Acoustical Society of America. 124(4): 2565, 2008/11.
H. Aono, F. Liang and H. Liu, Near- and far-field aerodynamics in insect hovering flight: an integrated computational study, Journal of Experimental Biology, 211, 239-257, 2008.
H. Liu, Passive mechanisms in bio-inspired flight systems: flexibility and robustness. Workshop on Fluid-Structure Interaction, Canberra, Australia, May 7-9, 2018.
H. Liu, Lessen from Insects: Robustness Strategies for Bio-inspired Flying Robots. Biomimetics: Learning from Nature for an Innovative Future, JSPS Japanese-German Symposium, Frankfurt, German, April 19-21, 2018.
H. Liu, T. Nakata, R. Noda, D. Kolomenskiy, D. Chen, K. Ueyama, K. Akiyama. Robustness strategies in bio-inspired flight systems: morphology, dynamics and flight, Bioinspiration, Biomimetics, and Bioreplication VIII, SPIE Smart Structures/ NDE Symposium, Denver, USA, March 5-8, 2018.
H. Liu, Bioinspiration and biomimetics: from bio-inspired flight systems to the cardiovascular system, Seminar at The University of Waterloo, Canada, November 3, 2017.
H. Liu and X. Zhang, Passive heat stress-induced thermoregulation in the cardiovascular system: an integrated model. 5TH SWITZERLAND-JAPAN WORKSHOP ON BIOMECHANICS SJB 2017, Zermatt, Switzerland, September 14-17, 2017.
H. Liu, Biomechanics and Biomimetics in Bio-inspired Flight Systems, Seminar at EPFL, Switzerland, Sept. 8, 2017.
H. Liu, Challenges and Future Opportunities in Insect-inspired Flight Systems: from Biomechanics to Biomimetics. Seminar at Hong Kong Polytechnic University, Hong Kong, June 30, 2017.
H. Liu. Bio-inspired wind turbine blade designs enable robust harvesting of wing energy. To be presented at 2017 International Workshop on Bionic Engineering (IWBE2017). ITV Denkendorf in Denkendorf, Germany. 13-14 June 2017.
H. Liu, D. Kolomenskiy and T. Nakata, Biomechanics and Biomimetics in Bio-inspired Flight Systems. 17th Chitose International Forum on Photonics Science & Technology, Chitose Hokkaido, Japan. November 14-15, 2016.
H. Liu, C. Rao, T. Ikeda. Solving the trade-off between flow separation and force generation in owl flight: a computational study. The 5th International Conference of Bionic Engineering (ICBE2016), Ningbo China 2016.
H. Liu, Bio-inspired flight system and biomimetic micro air vehicles. JSME/KSME Joint Symposium on Biomimetics, Tokyo Japan, January. 7-9, 2016.
H. Liu, Association between flow-rate waveform-based flow instabilities and rupture status indicators in cerebral aneurysms: a CFD study, Interdisciplinary Cerebrovascular Symposium, Intracranial Stent Meeting (ICS2015), Gold Coast, Australia, November 13-14, 2015.
H. Liu, Flexible wing-and body-based strategies for bio-inspired flight system: aerodynamics and flight stability, mini-symposium “Bio-inspired Flight System: Biomechanics and Biomimetics”, The 8th Asian-Pacific Conference on Biomechanics (APBiomech2015), Sapporo Japan, September 17, 2015.
H. Liu and X. Zhang, Gravitational effects on human cardiovascular system during postural change. 4th International Conference on Computational and Mathematical Biomedical Engineering (CMBE2015). Paris France, 29 June -1 July 2015.
H. Liu, Bioinspiration and biomimetics: from bio-inspired flight system to the cardiovascular system. Seminar at University College of London (UCL), London, UK June 26, 2015
H. Liu, Bio-inspired Mechanical System and Biomimetic Design in Wind Turbines. Seminar at University of Strathclyde, Glasgow, UK June 23, 2015.
H. Liu, Bio-inspired mechanical system: from animal locomotion to the cardiovascular system, Seminar at The Hong Kong Polytechnic University, Hong Kong, January 23, 2015.
H. Liu, Learn From Nature: Bio-inspired Flight System and Biomimetic Micro Air Vehicles. Plenary Lecture at Shen Zhen-Hong Kong Workshop on Robotics, Shen Zhen, January 22-24, 2015.
H. Liu, Computational Biomechanics and Biomimetics of Bio-inspired flight system. Lecture at IAS Focused Program on Bio-inspired Flight System and Bio-inspired Autonomous System, HKUST Jockey Club Institute for Advanced Study (IAS). Hong Kong Nov 24 - Dec 3 2014.
H. Liu, Bio-inspired flight system: integration of biology, computing, mechanical, and aeronautical engineering. Short Course at The Hong Kong University of Science and Technology (HKUST). Hong Kong, Nov 24-28, 2014.
H. Liu, Flexible wing-and body-based strategies for bio-inspired flight system: aerodynamics and flight control Lecture at IAS Focused Program on Neural Engineering, HKUST Jockey Club Institute for Advanced Study (IAS). Hong Kong, Nov 3-7, 2014.
H. Liu, Bio-inspired Engineering of Flight and Mechanical System. Seminar at The Hong Kong University of Science and Technology (HKUST). Hong Kong, Oct 23, 2014.
H. Liu, M. Maeda, R. Noda, C. Rao and H. Tanaka, Flexible wings can enhance aerodynamic performance and dynamic stability in flapping-wing flights, World Congress of Biomechanics (WCB2014) 2014/7, Boston, USA, 2014/7.
H. Liu, Patient-specific modeling?based assessment of cardiovascular function, 4th International Conference on Engineering Frontiers in Pediatric and Congenital Heart Disease, Paris, France, 2014/5.
H. Liu, Bio-inspired Mechanical Systems and Biomimetics in Bio-flights, The 15th International Conference on Biomedical Engineering (ICBME2013), Singapore, 2013/12.
H. Liu, H. Tanaka, T. Nakata, M. Maeda, R. Noda, Bio-inspired Flight Systems and Micro Air Vehicles: Aerodynamics and Flight Stability. Proceedings of The 7th World Congress on Biomimetics, Artificial Muscles and Nano-Bio (BAMN2013), August 26-30, Jeju Island, South Korea.
H. Liu, Lessons from Insect and Bird Flights, Seminar at Hong Kong University of Science and Technology (HKUST), November 15, 2013.
H. Liu, Computational Biomechanics in Bio-inspired Flights: Aerodynamics, Flight Dynamics & Maneuvering Stability, Seminar at McGill University (MU), Canada, May 27, 2013.
H. Liu, Flexible Wing Biomechanics: Aerodynamics, Flight Dynamics and Maneuvering Stability. Joint Scientific Symposium of The Hong Kong University of Science and Technology, Shanghai Jiao Tong University and Chiba University (JSSHSC2013) (Hong Kong, April 25-26, 2013/4).
H. Liu, T. Nakata, N. Gao, M. Maeda and R. Noda, Biomechanics in Bio-inspired Flights: Aerodynamics, Flight Dynamics and Maneuvering Stability, Proceedings of Advances in Computational Mechanics, San Diego, USA, Feb. 25-28, 2013.
H. Liu, Multi-scale Biomechanical Modeling and its Application in Predictive Medicine, Proceedings of the HKUST International Conference on Biomedical Engineering (USTBME) 2013, Hong Kong, January 8-10, 2013.
H. Liu, Towards Simulation-based Predictive Medicine: A Multi-scale Biomechanical Modeling and Evaluation of Aortic Aneurysm, Proceedings of 10th National Congress of Biomechanics, Chengdu, Sihuan, China, October 11-15, 2012.
H. Liu, X. Wang, T. Nakata and K. Yoshida, Aerodynamics and Flight Stability of A Prototype Flapping Micro Air Vehicle, Proceedings of 2012 International Conference on Complex Medical Engineering (ICME 2012), Kobe, Japan, July 1-4, 2012.
H. Liu, T. Nakata, N. Gao and M. Maeda, Biomechanics in Bio-flights and its Application to Bio-inspired Robots, Mining Smartness from Nature, CIMETC2012 ? 4th International Conference on Smart Materials, Structures and Systems, Montecatini Terme, Italy, June 10-15, 2012.
H. Liu, Towards Systems Biomechanics and Biomimetics in Animal Locomotion and the Cardiovascular System, Seminar at Department of Biomedical Engineering, College of Engineering, Beijing University (BU), March 21, 2012.
H. Liu, Towards Systems Biomechanics and Biomimetics in Animal Locomotion and the Cardiovascular System, Seminar at Institute of Biomechanics and Medical Engineering, School of Aerospace, Tsinghua University (TU), March 21, 2012.
H. Liu, Towards Systems Biomechanics and Biomimetics in Animal Locomotion and the Cardiovascular System, Seminar at School of Biological Science and Medical Engineering, Beihang University (BUAA), March 20, 2012.
H. Liu, Towards Systems Biomechanics and Biomimetics in Animal Locomotion and the Cardiovascular System, Seminar at The Faculty of Vehicle Engineering and Mechanics, Dalian University of Technology (DUT), March 19, 2012.
H. Liu, Flexible Wing Aerodynamics in Insect Flight and Bio-inspired Micro Air Vehicles, LNM Conference in Beijing, Institute of Mechanics, Chinese Academy of Sciences, Beijing, China, Dec 17-18, 2011.
H. Liu, Computational Biomechanics in Cardiovascular System - An Integrated Simulation Approach of Systems Circulation -, Seminar at Hong Kong University of Science and Technology, September 18, 2011.
H. Liu, Coupling the Flexible Wing Aerodynamics and Structural Dynamics in Insect Flapping Flight, Coupled Problems for Biomimetics 2011, Kos Island, Greece.
H. Liu, Computational biomechanics in bio-flights and bio-inspired Micro Air Vehicles, Workshop on Biomimetics Aero-/Hydro-dynamic Applications 2011, Glasgow, UK.
H. Liu, Computational Biomechanics and Biomimetics: From Micro Air Vehicle-motivated Bioflights to the Cardiovascular System, Sir David Anderson Bequest Seminar 2011, Glasgow, UK.
H. Liu, T. Nakata, N. Gao and M. Maeda, Micro air vehicle ?motivated computational biomechanics in bio-flights and insect-inspired biomimetics, Bio-Inspired Robots Workshop 2011, Nantes, France.
H. Liu, Computational biomechanics in bio-flight: aerodynamics, flight dynamics and maneuvering stability, Animal Flight Mechanics & Muscle Performance: a symposium in honour of Prof. Charlie Ellington FRS, The University of Cambridge, Oct. 20-21, 2010.
H. Liu, Y. Katumata, U. K. Muller and J. L. van Leeuwen, Trade-off between thrust production and propulsive efficiency in a burst of larval zebrafish, Proc. 6th WCB, Singapore, 2010/8.
H. Liu, Y. Tanaka, N. Gao, and M. Maeda, Nonlinear behavior in flying biomechanics: flexible wing aerodynamics, flight dynamics and dynamic stability, Proc. 6th WCB, Singapore, 2010/8.
H. Liu, Micro Air Vehicle-Motivated Biomechanics and Biomimetics in Insect Flight, Seminar at CNRS and Aix-Marseille University, France, April 28th, 2010.
H. Liu, Bio-flights and Micro Air Vehicle-Motivated Aerodynamics, Workshop on Micr33Fluid Dynamics, Nihon Bunri University, Oida, 24th Oct. 2009.
H. Liu, Y. Nakata, N. Gao, and M. Maeda, FLYING BIOMECHANICS AND INSECT-INSPIRED BIOMIMETICS, 1st Joint Symposium of Kogakuin University and Institute of Chemistry, Chinese Academy of Science, Hachioji City, Tokyo, Japan, 8th-12th, Dec. 2009.
H. Liu, H. Aono, Y. Nakata, N. Gao and M. Maeda, Biomechanics and Biomimetics of Insect Flight, International Symposium on Engineering Neo-Biomimetics, AIST Tokyo Waterfront, Japan, 1st-3rd, Oct. 2009.
H. Liu, Computational biomechanics: from bioflights, micro air vehicles to the cardiovascular system, Seminar at Department of Mechanical Engineering, National University of Singapore (NUS), May 5th, 2009.
H. Liu, Simulation-based biomechanics: from animal locomotion to the cardiovascular system, Seminar at Med-X, Shanghai Jiao-Tong University (SJTU), March 25th, 2009.
H. Liu, Integrated Modeling of Bio-flights for MAV Applications: Aerodynamics, Maneuverability and Optimization, Seminar at Department of Aerospace Engineering, University of Michigan (UM), June 16th, 2009.
H. Liu, Simulation-based biomechanics: from animal locomotion to the cardiovascular system, Seminar at MOX, Department of Mathematics, Politecnico di Milano, Italy, June 8th, 2008.
H. Liu, Computer Simulation of fluid dynamics in fish locomotion, Biomimetic Flow Control in Aquatic Systems and its Application to Bioinspired Autonomous Underwater Systems, CIMETC2008 ? 3rd International Conference on Smart Materials, Structures and Systems, Acireale, Sicily, Italy, June 8-13, 2008.
H. Liu and H. Aono, Integrated modeling of insect flight: morphology, kinematics and aerodynamics. Mini-symposium: Computational biomechanics: from animal locomotion to the cardiovascular system, APCOPM’07/EPMESC XI, Kyoto, Japan, Dec. 25th, 2007.
Fuyou Liang and H. Liu, Multi-scale computational biomechanics in the cardiovascular system. Mini-symposium: Computational biomechanics: from animal locomotion to the cardiovascular system, APCOPM’07/EPMESC XI, Kyoto, Japan, Dec 25th, 2007.
H. Liu, Simulation-based biomechanics: from animal locomotion to the cardiovascular system, Seminar at Department of Mechanical and Biomedical Engineering, University of Texas at San Antonio (UTSA), Sept. 25th, 2007.
H. Liu, Computational biomechanics: from animal locomotion to the cardiovascular system, Seminar at Dalian University of Science and Technology, China, August 8th, 2007.
H. Liu, Novel Mechanisms in Insect Flight and MAV, The Sendai Symposium on Insect Mimetics and Nano-Materials, Sendai, Japan, June 20-21, 2007.
H. Liu, Simulation-based biomechanics: from insect flight to the cardiovascular system, Seminar at Department of Ecology and Evolutionary Biology, University of California, Los Angles (UCLA), March 21st, 2007.
H. Liu, K. Oka, T. Taniguchi, Fuyou, Liang, T. Koyama, H. Yokota, and R. Himeno, Multi-scale and multi-physics simulation in cardiovascular system, The 5th Symposium on Integrated Volume-CAD System Research (RIKEN), Wako, Japan, Mach 7-8, 2007.
H. Liu, Fuyou, Liang, and T. Koyama, Towards multi-scale and multi-physics simulation in cardiovascular system, The RIKEN Symposium on Computational Biomechanics Research (RIKEN), Wako, Japan, 11-12, Nov. 2007.
H. Liu, Toward Multi-scale, Multi-physics, Computational Biomechanics in Cardiovascular System, Japan-Korea Joint-Symposium on Biomedical Engineering, World Congress of Biomedical Engineering 2006, Seoul, 2006.
H. Liu, What Can A Biology-inspired Dynamic Flight Simulator Tell about Insect Flight? The 3rd ISABMEC, Okinawa, Japan, 2006.
H. Liu, H. Aono, Y. Inada, and W. Shyy, Size effect in insect flight: leading-edgevortex, trailing-edge vortex and tip vortex, The 5th World Congress of Biomechanics, Munich, German, 2006.
H. Liu, Multi-scale, Multi-physics, Computational Biomechanics in Cardiovascular System, B-J-K Symposium on Biomechanics, 2006.
H. Liu, Novel mechanisms in biological flight and applications to Micro Air Vehicle, The workshop on Smart Material System, JSME annual meeting, 2005.
H. Liu, Towards the ‘in vivo’ Multi-scale, Computational Biomechanics in Cardiovascular System, B-J-K Symposium on Biomechanics, Kanazawa, 2005.
H. Liu, An integrated approach on free flight mechanisms in insects and birds, Annual meeting of American Physical Society, Chicago, USA, 2005.
H. Liu, Recent developments in computational biological fluid dynamics, Annual Meeting of the Society for Experimental Biology, Edinburgh (UK), 2004.
H. Liu, Simulation-Based Biological Fluid Dynamics in Fish Swimming, ICVM-7, Miami (USA), 2004.
H. Liu, Recent developments in computational biological fluid dynamics, Annual Meeting of the Society for Experimental Biology, Southampton, UK, March, 2003.
H. Liu, Computational Biological Fluid Dynamics: towards the digitizing animal swimming and flying, The Second International Symposium on Aqua Bio-Mechanisms (ISABMEC2003), Hawaii, 2003.
H. Liu, Computational biological fluid dynamics: digitizing and visualizing swimming and flying, SICB symposium on Dynamics and Energetics of Animal Swimming and Flying, Anaheim, CA, 2002.
H. Liu, H. Iwase, T. Hayasaka, Y. He, N. Matsunaga, T. Shigetani and R. Himeno, Image-based simulation of cardiovascular blood flow and its clinical application, National CFD Conference, Taiwan, 2002.
H. Liu and R. Himeno, Global computational modeling of cardiovascular blood flow - Analysis of hemodynamics in left ventricle and aorta -,The 6th US National Congress on Computational Mechanics, Dearborn, MI, 2001.
H. Liu, Computational biological fluid dynamics, Symposium on Advances in Biomechanics, Beijing, 2001/8.
H. Liu, Computational fluid dynamics in insect flight, Seminar at Department of Applied Mathematics & Theoretical Physics (DAMTP), University of Cambridge, Cambridge, UK, 2001/9.
劉浩,“昆虫飛行のロバストネスとバイオミメティクス”.日本化学会第97春季年会-T2C新規産業創生のカギを握る機能性材料->これからの“ものづくり”とバイオミメティクス.慶應義塾大学.2017年3月17日.
劉浩, “生物規範飛行システムの新展開:バイオメカニクスとバイオミメティクス”.NBCIテクノロジー委員会 バイオミメティクス分科会.東京2016年4月22日.
劉浩, “New Perspectives on Bio-fluid Dynamics in Swimming, Flying, and Beyond”.2016年度研究集会『生物流体現象におけるマクロ運動とミクロ運動』.京都大学数理研究所.2016年10月26日.
劉浩, “生物飛行研究の新展開:生物規範飛行システム”.第32回新生流体科学セミナ.JAXA.2015年10月26日.
劉浩, “生物に学ぶ機械工学のイノベーション:バイオミメティクス-昆虫型飛行ロボットが可能なのか?”.科学技術者フォーラムH26年度第147回セミナー.東京2014年9月20日.
劉浩, “生物に学ぶものつくりのイノベーション :昆虫飛行のバイオミメティクス(生物模倣) ”.株式会社フジクラ平成14年度藤技会講演会.東京2014年5月27日.
劉浩, “生物に学ぶものつくり:バイオミメティクス(生物模倣) ”.H26年度千葉県加工技術研究会講演会.東京2014年5月30日.
劉浩,“生物規範飛行システム”.日本化学会第92春季年会?T3-未来材料 C.バイオミメティック材料とネイチャーテクノロジー.慶應義塾大学.2012年3月26日.
劉浩, “実はナゾ?昆虫の飛行原理=羽ばたきのヒミツ~羽ばたくロボットについて語る~”.KASTサイエンスカフェ3.かながわサイエンスパーク2012年3月11日.
劉浩, “昆虫はどうやって飛んでいるのか――驚きの飛行システムと超小型ロボット”.千葉県稲毛民間航空記念館講演会.2012年2月5日.
劉浩, “蛾に学ぶ:羽ばたき飛行ロボット”.北海道大学バイオミメティクス・市民セミナー.2012年2月4日.
劉浩, 生物規範工学:新学術領域の創成とグローバル化への展開,日本機械学会バイオエンジニアリング部門誌, No. 44, pp.8-10, 2015.
劉浩, 田中博人, 青野光, 生物飛行に学ぶ超小型飛行ロボット,日本機械学会誌?生物に学ぶ機械工学,Vol. 117, No.1148, pp. 78-81, 2013.
劉浩, 昆虫羽ばたき飛行のヒミツ, 自動車技術会会誌「高翔」,Vol. 60, pp.50-53, 2013
劉浩, 生物規範飛行の学理とバイオミメティクス,PENニュースレター(ISSN 2185- 3231),Vol.3, No.8, pp.18-29, 2012.
加藤直三,上村慎治,劉浩, 生物に学ぶ: エアロ・アクアバイオメカニズムとの工学への応用,設計工学, Vol46, No.6, pp. 33-43, 2011.
劉浩, 遊泳・飛翔生物の運動の非定常性と波動性について, バイオメカニズム学会誌,Vol. 34, No. 3, pp. 207-215, 2010.
劉浩,生物の飛行に学ぶ,BIOINDUSTRY-ネオバイオミメティック・エンジニアリング, 16頁, 2010.
劉浩,バイオエンジニアリング-循環器系のバイオメカニクス,日本機械学会誌,Vol. 112, No.1069,2頁,2009.
劉浩,力学シミュレーションが拓く昆虫の飛翔メカニズム,遺伝,pp.50-56, 2006.
劉浩, 昆虫と鳥の飛翔に学ぶ, 日本機械学会誌,Vol. 109, No. 1049, pp. 265-268, 2006.
劉浩,循環器系のマルチスケールシミュレーション,精密工学会誌, Vol.71, No.2, pp.1-6, 2005.
劉浩,循環器系におけるマルチスケール計算バイオメカニクス,バイオメカニズム学会誌,Vol. 28, No. 4, pp. 173-178, 2004.
劉浩,CFD的観点からみた飛翔生物のデザイン,設計工学学会誌, Vol.39, No.7, pp.22-26, 2004.
劉浩, 生物流体現象研究の動態,日本機械学会流体工学ニュースレター, 2001.
劉浩, 血管内の渦流れの意義,日本ME学会雑誌, Vol.14, No. 10, pp: 9-13, 2000.
砂田茂, 劉浩, 昆虫翼に働く空気力の計算, 計算工学, Vol. 3, No. 1, pp: 16-20, 1998.
劉浩, 生物の形や能力を利用する学問-バイオミメティクス-:飛行の原理(第4章1節)(編集:篠原現人・野村周平),東海大学出版会, 2016.
劉浩, 飛躍するドローン-マルチ回転翼型無人航空機の開発と応用研究、海外動向、リスク対策まで-: 超小型飛行体(第1章3節), エヌ・ティー・ーエス出版社, 2015.
劉浩, 生物模倣技術と新材料・新製品開発への応用:生物の飛翔、遊泳運動の計算力学的解析と原理の解明(第2章19節), 技術情報協会, 2014.
W. Shyy, H. Aono, C. Kang, H. Liu, An Introduction to Flapping Wing Aerodynamics, Cambridge University Press, 2013.
S. Sunada, H. Liu. Tokutake, D. Kubo, Handbook of Unmanned Aerial Vehicles: Development of Insect-sized MAVs, (edited by K. P. Valavanis and G. J. Vachtsevanos), Springer, 2013.
H. Liu, X. Wang, T. Nakata, K. Yoshida, Autonomous Control Systems and Vehicles: Aerodynamics and Flight Stability of Bio-inspired Flapping-Wing Micro Air Vehicles, (edited by K. Nonami), Springer, 2012.
劉浩, 生物流体力学: 生物の飛翔・遊泳の流体力学、生物流体力学の展望(谷下一夫・山口隆美),朝倉書店, 2012.
劉浩, 次世代バイオミメティクス研究の最前線: 生物の飛行に学ぶ(第2章6節),シーエムシー出版, 2011.
劉浩, ネイチャーテクノロジー: ハチドリ型ホバリングロボット(監修:石田秀輝), 学研パブリッシング株式会社2011.
劉浩, 生き物の泳ぎと飛行-生物に学ぶエアロ・アクアバイオメカニズム-: ジャンボ飛行機と全く違う昆虫の飛翔メカニズム(第5章1節), 森北出版, 2010.
H. Liu, Micro Air Vehicles (MAVs), Encyclopedia of Aerospace Engineering, John Wiley & Sons, 2010. (MAV section editor)
劉浩, 昆虫のバイオミメティクス: 昆虫飛行の制御, エヌ・ティー・ーエス出版社, 2008.
青野光, 劉浩, 昆虫のバイオミメティクス: 昆虫飛行のシミュレーションベスト・バイオメカニクス, エヌ・ティー・ーエス出版社, 2008.
W. Shyy, Y.S. Lian, J. Tang, D. Viieru, H. Liu, Aerodynamics of low Reynolds Number Flyers. Cambridge University Press, 2007.
N. N’Dri, W. Shyy, H. Liu, R. Tran-Son-Tay, Multi-Scale Modeling Spanning Receptor, Cell and Blood Vessel Scales, Multi-Scale Mechanics, edited by Costas Pozrikidis, Chapter 3, 2003.
劉浩, 砂田茂, メカノクリーチャー- 生物から学ぶデザインテクノロジー:生物のマイクロマシンデザイン(第6章)(日本機械学会編), コロナ社, 2月, 2003.
劉浩, 流れの辞典: 血流, 丸善出版, 2003.
劉浩, 流れの辞典: 心臓中の血流, 丸善出版, 2003.
TBS, EARTH Lab -次の100年を考える-"千葉大学教授・劉浩-ハチドリ型飛行ロボット”, 2015年9月19日.
日本経済新聞, “ハチドリ規範型羽ばたき飛行ロボット”, 2014年6月19日.
BBC, "Slow motion footage reveals hummingbird wing secret", June 7, 2013.
朝日新聞, “災害現場羽ばたくロボ”, 2013年8月23日.
日刊工業新聞, “自然に学ぶものづくり”, 2013年10月3日.
日本未来館サイエンスアゴラ展示, “昆虫を規範とした羽はたく小型ロホット”, 2013年11月9日-10日.
BSフジガリレオX,“バイオミメティクスの新潮流?昆虫規範型飛行ロボット”,2012年6月12日.
日刊工業新聞, “ハチドリロボット研究開発”, 2012年10月8日.
BS日本, 地球★アステク,“生物多様性に学ぶバイオミメティクス(生物模倣)の技術 ?昆虫型ロボット”, 2011年10月6日.
日本経済新聞, “超小型飛行ロボット”, 2011年2月15日.
ものづくりNEXT特別企画「ネクストネイチャープロダクツ生物に学ぶ、次世代ものづくり技術展」バイオミメティクス、ネイチャーテクノロジー、ロボット,東京ビッグサイト展示場東ホール,2011年11月16日-18日.
NHK朝6時, 7時ニュース, “昆虫型飛行ロボット”, 2010年2月7日.
読売新聞夕刊, “ハチドリ型飛行ロボットー千葉大学劉教授”, 2010年1月14日.
国立科学博物館「ネイチャー・テクノロジー展」, “生物飛行と羽ばたき飛行ロボット”, 2010年10月26日? 2011年2月6日.
AFP (L'Agence France-Press), “Hummingbird-inspired flying robot by Chiba U”, January 3, 2010.
中国新華社, “Hummingbird-inspired flying robot by Chiba U”, January 21, 2010.
JST基礎研究最前線Vol.10: 生物飛行を再現出来るシミュレータが誕生-ジェット機は落ちても、昆虫が落ちない秘密解明