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迈克尔TRIANTAFYLLOU

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联系信息

房间 5-226

bt365手机

77马萨诸塞大道

马萨诸塞州剑桥市02139

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相关研究领域
管理联系人 riefstahl,玛丽亚 5-228 617.253.4330

教师细节

教育

  • 1974

    雅典国家技术大学

  • 1977

    美国bt365手机(MIT)

    硕士

  • 1977

    美国bt365手机(MIT)

    硕士

  • 1979

    美国bt365手机(MIT)

    科学博士

研究兴趣

  • 实验流体力学
  • 仿生
  • 感测和控制

在线数据

  • 谷歌学术: (//scholar.google.com/citations?user=Q7BIbQ8AAAAJ&hl=en)

荣誉奖励+

  • 研究员,美国物理学会2014
  • 勒·斯托多拉奖章和讲座“仿生生存流体力学和传感”,苏黎世联邦理工学院,2014年5月。
  • 威廉一世。海洋技术( - 2017年2008年)的科赫教授。
  • 客座编辑,对动物游泳特刊,在流体实验,2007年11月;编辑为一本由施普林格出版社(2010)。
  • 文章旋涡还对科学的封面,11月的鳟鱼。 28,2003。
  • 在科学,伦敦博物馆(自1998年)上永久展览第一代robotuna。原型robotuna在机器人全国巡回展览,通过minnessota科学博物馆(2003- 2004年)举办;目前在bt365手机博物馆永久展出。
  • 在机器人金枪鱼史密森杂志的一篇文章(2000年8月)。
  • 探索科技创新(1998年)杂志的奖项。
  • ABS / linnard一等奖的sname(1997)的交易最佳论文。
  • 关于科学美国人(1995年3月)的封面机器人金枪鱼工作。
  • 1995年突出科学美国人的纸。
  • H。湖多尔蒂教授在海洋的利用(1983- 1985年)。
  • 最佳研究生论文奖(SNAME)1978年。
  • 特别奖的顶级性能,雅典国家技术大学(1972年)。
  • 优秀学生奖学金,雅典国家技术大学(1969-1974)。
     

相关工作经验

  • 客座教授:新加坡 - bt365手机联盟,新加坡国立大学(2012年,2015年)
  • NTNU,挪威特隆赫姆(1993,2001,2011)
  • 苏黎世联邦理工学院(1999年4月)
  • National Technical University of Athens, Greece (1994-1995 & 2007-2008)
  • 日本九州大学(1986年4月)。

会员资格

  • 美国物理学会
  • 海军建筑师和海事工程师(SNAME)的社会
  • 离岸力学和极地工程师(ISOPE)美国机械工程师协会(ASME)的国际社会

专业服务

  • 2013至今:董事长,雅典,希腊的国家技术大学
  • 1994年至今:SNAME,论文委员会;教育委员会;副会长辛-2-委员会停泊和海上码头。
  • 2002年 - 至今:副主编,J。 ISOPE。
  • 1996-1998:副主编,流体工程杂志。

bt365手机服务

  • 2005至17年:导演,中心海洋工程
  • 2008- 2010年:副系主任,机械enging。部。
  • 1988年至今:董事,拖曳水池设施
  • 2003年至今:共同主任,螺旋桨隧道设施

教学

  • 设计原则海洋车辆(2.22)
  • 操纵和表面和水下航行器的控制
  • 多变量控制系统i和ii(在多变量线性系统控制跨部门控制2门学期的课程)

出版物

1. G. Weymouth, V. Subramaniam, & M.S. Triantafyllou, 2015, “Ultra-fast escape maneuver of an octopus-inspired robot”, 生物inspiration & 仿生, 10, 016016.
2. A. Mazubdar, H. Asada, & M.S. Triantafyllou, 2015, “Dynamic Analysis and 设计 of Spheroidal Underwater Robots for Precision Multi-Directional Maneuvering”, IEEE/ASME Transactions on Mechatronics (TMECH), (to appear).
3. A. Kottapalli, Asadnia M., J.M. Miao, & M.S. Triantafyllou, 2014, “Touch at a Distance Sensing: Lateral-Line inspired MEMS Flow Sensors”, 生物inspiration & 仿生, 9, 046011 (14pp).
4. R. Bourguet, G.E. Karniadakis, & M.S. Triantafyllou, 2014, “On the validity of the independence principle applied to the vortex induced vibrations of a flexible cylinder inclined at 60 degrees”, Journal of Fluids and Structures (to appear).
5.A.梅尔滕斯,M.S。 TRIANTAFYLLOU,2014年,“滑行鱼的边界层不稳定性有助于而不是防止物体识别”,流体力学期刊,757,179-207。
6. R. Bourguet, G.E. Karniadakis, & M.S. Triantafyllou, 2014, “Vortex induced vibrations of a flexible cylinder at large inclination angle”, Phil. Trans. R. Soc. A 373, 20140108. //dx.doi.org/10.1098/rsta.2014.0108.
7.h.古筝,R.E.价格,Y。勒斯 - sadeghi,M.S。 TRIANTAFYLLOU,2014年,“对由于高次谐波的力分量和混乱的涡激振动长柔性气缸的疲劳损伤”,海洋工程,88,318-329。
8. H. Hans, J.M. Miao, & M.S. Triantafyllou, 2014, “Mechanical characteristics of harbor seal (Phoca vitulina) vibrissae under different circumstances and their implications for sensing methodology”, Bioinspir. 生物mim., 9, 036013 (14pp).
9. J.S. Izraelevitz, & M.S. Triantafyllou, 2014, “Adding in-line motion and model-based optimization offers exceptional force control authority in flapping foils”, Journal of Fluid 机械学, 742, 5-34.
10. A. Kottapalli, Asadnia M., J.M. Miao, & M.S. Triantafyllou, 2014, “Soft-polymer Membrane Micro-sensor Arrays Inspired by the Mechanosensory Lateral-line on the Blind Cavefish”, J. Intelligent Material Systems and Structures (JIMSS), DOI: 10.1177/1045389X14521702.
11. G. Weymouth, & M.S. Triantafyllou, 2013, “Ultra-fast escape of a deformable jet-propelled body”, Journal of Fluid 机械学, 721, 36-385.
12.j. dusek,a.g.p. kottapalli,M.E。佑,米。 asadnia,J。苗,J.H.郎,M.S。 TRIANTAFYLLOU,2013年,“开发和仿生MEMS压力传感器阵列用于通过海上交通工具增加情景意识的测试”,智能材料和结构,22,DOI:10.1088 / 0964-1726 / 22/1/014002。
13. R. Bourguet, G.E. Karniadakis, & M.S. Triantafyllou, 2013, “Multi-frequency vortex-induced vibrations of a long tensioned beam in linear and exponential shear flow”, Journal of Fluids and Structures, 41, 33-42.
14. R. Bourguet, G. Karniadakis, & M.S. Triantafyllou, 2013, “Distributed lock-in drives broadband vortex-induced vibrations of a long flexible cylinder in shear flow”, Journal of Fluid 机械学, 717, 361-375.
15. M. Asadnia, A. Kottapalli, Z. Shen, J. Miao, & M.S. Triantafyllou, 2013, “Flexible and surface mountable piezoelectric sensor arrays for underwater sensing in marine vehicles”, IEEE Sensors Journal, 13 (10), 3918- 3925.
16. H.R. Beem, M.R. Hildner, & M.S. Triantafyllou, 2013, “Calibration and validation of a harbor seal whisker-inspired flow sensor”, Smart Materials and Structures, 22, doi: 10.1088/0964-1726/22/1/014022.
17. R. Bourguet, G.E. Karniadakis, & M.S. Triantafyllou, 2013, “Phasing mechanisms between the in-line and cross-flow vortex-induced vibrations of a long tensioned beam in shear flow”, Computers & Structures, 122, 155- 163.
18. R. Bourguet, D. Lucor, & M.S. Triantafyllou, 2012, “Mono- and multi-frequency vortex-induced vibrations of a long tensioned beam in shear flow”, Journal of Fluids and Structures, 32, 52-64.
19. H. Beem, D.E. Rival, & M.S. Triantafyllou, 2012, “On the stabilization of leading-edge vortices with strong spanwise flow”, Experiments in Fluids, 52, 511-517.
20. M. Wibawa, S. Steele, J. Dahl, D. Rival, G. Weymouth, & M.S. Triantafyllou, 2012, “Global vorticity shedding for a vanishing wing”, Journal of Fluid 机械学, 695, 112-134.
21. V.I. Fernandez, A. Maertens, F.M. Yaul, J. Dahl, J. Lang, & M.S. Triantafyllou, 2011, Lateral-line-inspired sensor arrays for navigation and object identification”, Marine Technology Society Journal, 45 (4), 130-146.
22. Y. Modares-Sadeghi, F. Chasparis, M.S. Triantafyllou, M. Tognarelli, & P. Beynet, 2011, “Chaotic Response is a Generic Feature of Vortex-Induced Vibrations of Flexible Risers”, Journal of Sound and Vibration, 330, 2565-2579.
23. R. Bourguet, G. Karniadakis, & M.S. Triantafyllou, 2011, “Vortex-induced vibrations of a long flexible cylinder in shear flow”, Journal of Fluid 机械学, 677, 342-382.
24. R. Bourguet, G. Karniadakis, & M.S. Triantafyllou, 2011, “Lock-in of the vortex-induced vibrations of a long tensioned beam in shear flow”, Journal of Fluids and Structures, 27, 838-847.
25. A. Kottapalli, J. Miao, & M.S. Triantafyllou, 2011, “Liquid crystal polymer membrane MEMS sensor for flow rate and flow direction sensing applications”, Journal of Micro机械学 and Microengineering, 21, 085006.
26. R. Bourguet, Y. Modarres-Sadeghi, G.E. Karniadakis, & M.S. Triantafyllou, 2011, “Wake-body resonance of long flexible structures is dominated by counter-clockwise orbits”, Physical Review Letters, 107, 134502, 23 Sept. 2011.
27.m.s. TRIANTAFYLLOU,2012年,“生存流体力学”,流体力学期刊,698,1-4(集中在流体)。
28. G. Weymouth, & M.S. Triantafyllou, 2012, “Global vorticity shedding for a shrinking cylinder”, Journal of Fluid 机械学, 702, 470-487.
29. Y. Liu, L. Tian, J.W. Lee, H.Y.H. Huang, M.S. Triantafyllou, & G. Barbastathis, 2012, “Scanning-free compressive reconstruction of object motion with sub-pixel accuracy”, Optics Letters, 37 (16), 3357-3359.
30. A. Kottapalli, Asadnia M., J.M. Miao, G. Barbastathis, & M.S. Triantafyllou, 2012, “Liquid crystal polymer MEMS pressure sensor array for fish-like underwater sensing”, Smart Materials and Structures, 21, 115030 (13pp).
31. A. Kottapalli, Asadnia M., J.M. Miao, C.W. Tan, G. Barbastathis, & M.S. Triantafyllou, 2012, “Polymer MEMS pressure sensor array for fish-like underwater applications”, Micro & Nano Letters, 7 (12), 1189-1192.
32. H. Mukundan, F. Chasparis, F.S. Hover, & M.S. Triantafyllou, 2010, “Optimal lift coefficient databases from riser experiments”, Journal of Fluids and Structures, 26, 160-175.
33. Y. Modarres-Sadeghi, H. Mukundan, J.M. Dahl, F.S. Hover, & M.S. Triantafyllou, 2010, “The effect of higher harmonic forces on fatigue life of marine risers”, Journal of Sound and Vibration, 329, 43-55.
34. J.M. Dahl, F. Hover, M.S. Triantafyllou, & O.H. Oakley, 2010, “Dual resonance in VIV at subcritical and supercritical Reynolds numbers”, Journal of Fluid 机械学, 643, 395-424.
35. S. Licht, M. Wibawa, F. S. Hover, & M.S. Triantafyllou, 2010, “In-line motion causes high thrust and efficiency in flapping foils that use power downstroke”, Journal of Experimental 生物logy, 213, 63-71.
36. P. Prempraneerach, F.S. Hover, M.S. Triantafyllou, & G.E. Karniadakis, 2010, “Uncertainty Quantification in Simulations of Power Systems: Multi-Element Polynomial Chaos Methods”, Reliability Engineering and System Safety, 95, 632-646.
37. H. Mukundan, F.S. Hover, & M.S. Triantafyllou, 2010, “A systematic approach to riser VIV response reconstruction”, Journal of Fluids and Structures, 26, 722-746.
38. J. Conte, Y. Modarres-Sadeghi, M. Watts, F.S. Hover, & M.S. Triantafyllou, 2010, “A fast-starting mechanical fish that accelerates at 40 m/s2”, 生物inspiration and 仿生, 5 (3), 035004 (9 pp.).
39. H. Mukundan, Y. Modarres-Sadeghi, F.S. Hover, & M.S. Triantafyllou, 2009, “Monitoring fatigue damage on marine risers”, Journal of Fluids and Structures, 25, 617-628.
40. D. Lucor, H. Mukundan, & M.S. Triantafyllou, 2008, “Parametric study of a two degree–of–freedom cylinder subject to vortex–induced vibrations”, Journal of Fluids and Structures, 24, 1284-1293.
41. D. Lucor, & M.S. Triantafyllou, 2008, “Riser response analysis by modal phase reconstruction”, J. Offshore Mech. Arct. Eng., 130, 011008.
42. R. Galvao, E. Lee, D. Farrell, F.S. Hover, M.S. Triantafyllou, N. Kitney, & P. Beynet, 2008, “Flow Control in Flow-Structure Interaction”, Journal of Fluids and Structures, 24, 1216-1226.
43. G.V. Papaioannou, D.K.P. Yue, M.S. Triantafyllou, & G.E. Karniadakis, 2008, “On the effect of spacing on the vortex-induced vibrations of two tandem cylinders”, J. Fluids Struct., 24, 833-854.
44. J.M. Dahl, F. Hover, M.S. Triantafyllou, S. Dong, & G.E. Karniadakis, 2007, “Resonant vibrations of bluff bodies cause multi-vortex shedding and high frequency forces”, Physical Review Letters, 99 (14) Article 144503, 5 October, 2007.
45. P. Prempraneerach, F.S. Hover, M.S. Triantafyllou, T.J. McCoy, C. Chryssostomidis, & G.E. Karniadakis, 2007, “Sensitivity Analysis of the Shipboard Integrated Power System”, Naval Engineers Journal, 12, article 25.
46. F.S. Hover, & M.S. Triantafyllou, 2006, “Application of polynomial chaos in stability and control”, Automatica, 42, 789-795.
47. D.N. Beal, F.S. Hover, M.S. Triantafyllou, J.C. Liao, & G.V. Lauder, 2006, “Passive propulsion in vortex wakes”, Journal of Fluid 机械学, 549, 385-402.
48. G.V. Papaioannou, D.K.P. Yue, M.S. Triantafyllou, & G.E. Karniadakis, 2006, “Evidence of holes in the Arnold tongues of flow past two oscillating cylinders”, Physical Review Letters, 96, 014501 (4 pp).
49. G.V. Papaioannou, Dick K.P. Yue, M.S. Triantafyllou, & G.E. Karniadakis, 2006, “Three-dimensionality effects on the flow around two tandem cylinders in the lower subcritical regime”, Journal of Fluid 机械学, 558, 387-413.
50. J.M. Dahl, F.S. Hover, & M.S. Triantafyllou, 2006, “Two-degree-of-freedom vortex-induced vibrations using a force assisted apparatus”, Journal of Fluids and Structures, 22, 807-818.
51. D. Lucor, H. Mukundan, & M.S. Triantafyllou, 2006, “Riser modal identification in CFD and full-scale experiments”, Journal of Fluids and Structures, 22, 905–917.
52. Q. Zhu, J. Zeng, M.S. Triantafyllou, & D.K.P. Yue, 2006, “Direct numerical simulation of single-molecule DNA by cable dynamics”, IEEE Journal of Microelectromechanical Systems (MEMS), 15 (5), 1078-1087.
53. P. Blondeaux, L. Guglielmini, & M.S. Triantafyllou, 2005, “Chaotic flow generated by an oscillating foil”, AIAA J., 43 (4), 918-921.
54. L. Schouveiler, F.S. Hover, & M.S. Triantafyllou, 2005, “Performance of flapping foil propulsion”, Journal of Fluids and Structures, 20, 949-959.
55. J.R. Chaplin, P.W. Bearman, Y. Cheng, E. Fontaine, J.M.R. Graham, K. Herfjord, F.J. Huera Huarte, M. Isherwood, K. Lambrakos, C.M. Larsen, J.R. Meneghini, G. Moe, R.J. Pattenden, M.S. Triantafyllou, & R.H.J. Willden, 2005, “Blind predictions of laboratory measurements of vortex-induced vibrations of a tension riser”, Journal of Fluids and Structures, 21, 25-40.
56. J.W. Stettler, F.S. Hover, & M.S. Triantafyllou, 2005, “Investigating the steady and unsteady maneuvering dynamics of an azimuthing podded propulsor, Transactions of the Society of Naval Architects and Marine Engineers, 113.
57. P. Blondeaux, F. Fornarelli, L. Guglielmini, M.S. Triantafyllou, & R. Verzicco, 2005, “Numerical experiments on flapping foils mimicking fish-like locomotion”, Physics of Fluids, 17, 113601.
58. M.S. Triantafyllou, F.S. Hover, A.H. Techet, & D.K.P. Yue, 2005, “Review of Hydrodynamic Scaling Laws in Aquatic Locomotion and Fish-Like Swimming”, Applied 机械学 Reviews, 58, (4), 226-237.
59. F.S. Hover, O. Haugsdahl, & M.S. Triantafyllou, 2004, “Control of angle of attack profiles in flapping foil propulsion”, Journal of Fluids and Structures, 19, 37-47.
60. F.S. Hover, J.T. Davis, & M.S. Triantafyllou 2004, “Three-dimensionality of mode transition in vortex-induced vibrations of a circular cylinder”, European Journal of 机械学 B - Fluids, 23 (1), 29-40.
61. R. Pouliot, R. Azhari, H.F. Qanadilo, M.S. Triantafyllou, & R. Langer, 2004, “Tissue engineering of fish skin: behavior of fish cells on poly(ethylene glycol terephthalate) /poly(butylene terephthalate) copolymers in relation to the composition of the polymer substrate as an initial step in constructing a robotic/living tissue hybrid”, Tissue Engineering, 10 (1-2), 7-21.
62. M.S. Triantafyllou, A.H. Techet, & F.S. Hover, 2004, “Review of Experimental Work in 生物mimetic Foils”, J. 海洋ic Engng. (IEEE), 29 (3), 585-594.
63. S. Licht, V. Polidoro, M. Flores, F.S. Hover, & M.S. Triantafyllou, 2004, “设计 and Projected Performance of a Flapping Foil AUV”, J. 海洋ic Engng. (IEEE), 29 (3), 786-794.
64. D.A. Read, F.S. Hover, & M.S. Triantafyllou, 2003, “Forces on oscillating foils for propulsion and maneuvering”, Journal of Fluids and Structures, 17, 163-183.
65. M.S. Triantafyllou, A.H. Techet, Q. Zhu, D.N. Beal, F.S. Hover, & D.K.P. Yue, 2003, “Vorticity control in fish-like propulsion and maneuvering”, Integ. Comp. 生物l., 42 (5), 1026-1031.
66. J.C. Liao, D.N. Beal, G.V. Lauder, & M.S. Triantafyllou, 2003, “The Karman gait: novel body kinematics of rainbow trout swimming in a vortex street”, Journal of Experimental 生物logy, 206, 1059-1073.
67. A.H. Techet, F.S. Hover, & M.S. Triantafyllou, 2003, “Separation and Turbulence Control in 生物mimetic Flows”, Flow, Turbulence and Combustion, 71 (1-4), 105-118.
68. L. Shen, X. Zhang, D.K.P. Yue, & M.S. Triantafyllou, 2003, “Turbulent Flow over a Flexible Wall Undergoing a Streamwise Traveling Wavy Motion”, J. Fluid Mech., 484, 197-221.
69. J.C. Liao, D.N. Beal, G.V. Lauder, & M.S. Triantafyllou, 2003, “Fish exploiting vortices use less muscle”, Science, 302 (5650), 1566-1569, November 28, 2003.
70. Q. Zhu, M.J. Wolfgang, D.K.P. Yue, & M.S. Triantafyllou, 2002, “Three-dimensional flow structures and vorticity control in fish-like swimming”, Journal of Fluid 机械学, 468, 1-28.
71. J.I Gobat, M.A. Grosenbaugh, & M.S. Triantafyllou, 2002, “Generalized- time integration solutions for hanging chain dynamics”, Journal of Engineering 机械学, 128 (6), 677-687.
72. T.R. Consi, P.A. Seifert, M.S. Triantafyllou, & E.R. Edelman, 2001, “The Dorsal Fin Engine of the Seahorse, Hippocampus sp.”, Journal of Morphology, 248 (1), 80-97.
73. F.S. Hover, & M.S. Triantafyllou, 2001, “Galloping response of a cylinder with upstream wake interference”, Journal of Fluids and Structures, 15, 503-512.
74. K. Burr, D.K.P. Yue, & M.S. Triantafyllou, 2001, “Asymptotic governing equation for wave propagation along weakly non-uniform Euler-Bernoulli beams”, Journal of Sound and Vibration, 247 (4), 577-613.
75. J.C. Liao, D.N. Beal, G.V. Lauder, & M.S. Triantafyllou, 2001, “Novel body kinematics of trout swimming in a von Karman trail; can fish tune to vortices”, American Zoologist, 41 (6), 1505-1506.
76. S.J. Brown, M.S. Triantafyllou, & D.K.P. Yue, 2001, “Complex analysis of resonance conditions for coupled capillary and dilational waves”, Proc. Roy. Soc. London A, A 458, 1167-1187.
77. F.S. Hover, H. Tvedt, & M.S. Triantafyllou, 2001, “Vortex-induced vibrations of a cylinder with tripping wires”, Journal of Fluid 机械学, 448, 175-195.
78. K. Burr, D.K.P. Yue, & M.S. Triantafyllou, 2000, “Asymptotic analysis of wave propagation along weakly non-uniform repetitive systems”, Journal of Sound and Vibration, 229 (1), 21-64.
79. M.S. Triantafyllou, G.S. Triantafyllou, & D.K.P. Yue, 2000, “Hydrodynamics of Fish Swimming”, Annual Review of Fluid 机械学, 32, 33-53.
80. H. Kagemoto, M.J. Wolfgang, M.S. Triantafyllou, & D.K.P. Yue, 2000, “Force and power estimation in fish-like locomotion using a vortex-lattice method”, Journal of Fluids Engineering, 122, 239-253.
81. Q. Zhu, Y. Liu, A.A. Tjavaras, M.S. Triantafyllou, & D.K.P. Yue, 1999, “Mechanics of nonlinear short-wave generation by a moored near-surface buoy”, Journal of Fluid 机械学, 381, 305-335.
82. M.J. Wolfgang, J.M. Anderson, M.A. Grosenbaugh, D.K.P. Yue, & M.S. Triantafyllou, 1999, “Near-body flow dynamics in swimming fish”, Journal of Experimental 生物logy, 202, 2303-2327.
83. D.S. Barrett, M.S. Triantafyllou, D.K.P. Yue, M.A. Grosenbaugh, & M.J. Wolfgang, 1999, “Drag reduction in fish-like locomotion”, Journal of Fluid 机械学, 392, 183-212.
84. M.J. Wolfgang, D.K.P. Yue, & M.S. Triantafyllou, 1999, “Visualization of complex near-body transport processes in flexible-body propulsion”, Journal of Flow Visualization, 2(2), 143-151.
85. F.S. Hover, & M.S. Triantafyllou, 1999, “Linear dynamics of curved tensioned elastic beams”, Journal of Sound and Vibration, 228(4), 923-930.
86. J.M. Anderson, K. Streitlien, D.S. Barrett, & M.S. Triantafyllou, 1998, “Oscillating foils of high propulsive efficiency”, Journal of Fluid 机械学, 360, 41-72.
87. A.H. Techet, F.S. Hover, & M.S. Triantafyllou, 1998, “Vortical patterns behind tapered cylinders oscillating transversely to a uniform flow”, Journal of Fluid 机械学, 363, 79-96.
88. F.S. Hover, A.H. Techet, & M.S. Triantafyllou, 1998, “Forces on oscillating uniform and tapered cylinders in crossflow”, Journal of Fluid 机械学, 363, 97-114.
89. A.A. Tjavaras, Q. Zhu, Y. Liu, M.S. Triantafyllou & D.K.P. Yue, 1998, “The 机械学 of highly-extensible cables”, Journal of Sound and Vibration, 213, 709-737.
90. F.S. Hover, S.N. Miller, & M.S. Triantafyllou, 1997, “Vortex induced vibration of marine cables: Experiments using force feedback”, Journal of Fluids and Structures, 11, 307-326.
91. F.S. Hover, S.N. Miller, & M.S. Triantafyllou, 1997, “Vortex-induced oscillations in inclined cables”, Journal of Wind Engineering and Industrial Aerodynamics, 69-71, 203-211.
92. T. Tjavaras, & M.S. Triantafyllou, 1996, “Nonlinear response of two disordered pendula”, Journal of Sound and Vibration, 190, 65-76.
93. T. Tjavaras, & M.S. Triantafyllou, 1996, “Shock waves in curved synthetic cables”, Journal of Engineering 机械学, 122 (4), 308-315.
94. S. Mavrakos, V. Papazoglou, M.S. Triantafyllou, & J. Chatjigeorgiou, 1996, “Deep Water Mooring Dynamics”, Marine Structures, 9 (1), 181-209.
95. M.S. Triantafyllou, D.S. Barrett, D.K.P. Yue, J.M. Anderson, M.A. Grosenbaugh, K. Streitlien, & G.S. Triantafyllou, 1996, “A New Paradigm of Propulsion and Maneuvering for Marine Vehicles”, Transactions of the Society of Naval Architects and Marine Engineers, 104, 81-100.
96. K. Streitlien, G.S. Triantafyllou, & M.S. Triantafyllou, 1996, “Efficient Foil Propulsion through Vortex Control”, AIAA Journal, 34 (11), 2315-2319.
97. K. Streitlien, & M.S. Triantafyllou, 1995, “Force and Moment on a Joukowski Profile in the Presence of Point Vortices”, AIAA Journal, 33 (4), 603-610.
98. M.S. Triantafyllou, & G.S. Triantafyllou, 1995, “An Efficient Swimming Machine”, Scientific American, 272 (3), 64-70.
99. M.S. Triantafyllou, & D.K.P. Yue, 1995, “Damping Amplification in Highly Extensible Hysteretic Cables”, Journal of Sound and Vibration, 186 (3), 355-368.
100. F.S. Hover, M.A. Grosenbaugh, & M.S. Triantafyllou, 1994, “Calculation of Dynamic Motions and Tensions in Towed Underwater Cables”, IEEE Journal of 海洋ic Engineering, 19 (3), 449-457.
101. M.S. Triantafyllou, & C.T. Howell, 1994, “Dynamic Response of Cables under Negative Tension: An Ill-Posed Problem”, Journal of Sound and Vibration, 173 (4), 433-447.
102. R. Gopalkrishnan, M.S. Triantafyllou, G.S. Triantafyllou, & D.S. Barrett, 1994, “Active Vorticity Control in a Shear Flow Using a Flapping Foil”, Journal of Fluid 机械学, 274, 1-21.
103. C.T. Howell, & M.S. Triantafyllou, 1993, “Stable and Unstable Nonlinear Resonant Response of Hanging Chains: Theory and Experiment”, Proceedings of the Royal Society of London, A 440, 345-364.
104. G.S. Triantafyllou, M.S. Triantafyllou, & M.A. Grosenbaugh, 1993, “Optimal Thrust Development in Oscillating Foils with Application to Fish Propulsion”, Journal of Fluids and Structures, 7, 205-224.
105. M.S. Triantafyllou, & C.T. Howell, 1993, “Nonlinear unstable response of hanging chains”, Journal of Sound and Vibration, 162 (2), 263-280.
106. C.T. Howell, & M.S. Triantafyllou, 1993, “Investigation of Large Amplitude Nonlinear Dynamics of Hanging Chains'”, Int. J. Offshore Polar Engng., 3 (3), 162-167.
107. M.S. Triantafyllou, & C.T. Howell, 1993, “The Ill-Posed Problem of a Cable in Compression”, Int. J. Offshore Polar Engng., 3 (3), 168-171.
108. C.N. White, R.G. Goldsmith, & M.S. Triantafyllou, 1993, “Heave restrained platform reduces costs and eases operations”, J. Petrol. Technol., 45 (8), 752-761.
109. M.S. Triantafyllou, & C.T. Howell, 1992, “Nonlinear Impulsive Motions of Low Tension Cables”, Journal of Engineering 机械学, 118 (4), 807-830.
110. M.S. Triantafyllou, & M.A. Grosenbaugh, 1991, “Robust Control for Underwater Vehicle Systems with Time Delays”, Journal of 海洋ic Engineering (IEEE), OE-16 (1), 146-151.
111. D.R. Yoerger, M.A. Grosenbaugh, M.S. Triantafyllou, & J.J. Burgess, 1991, “Drag Forces and Flow-Induced Vibrations of a Long Vertical Tow Cable - Part I: Steady-State Towing Conditions”, Journal of Offshore 机械学 and Arctic Engineering (ASME), 113, 117-127.
112. M.A. Grosenbaugh, D.R. Yoerger, M.S. Triantafyllou, & F.S. Hover, 1991, “Drag Forces and Flow-Induced Vibrations of a Long Vertical Tow Cable - Part II: Unsteady Towing Conditions”, Journal of Offshore 机械学 and Arctic Engineering (ASME), 113 (3), 199-204.
113. M.S. Triantafyllou, & G.S. Triantafyllou, 1991, “The Paradox of the Hanging String: An Explanation using Singular Perturbations”, Journal of Sound and Vibration, 148 (2), 343-351.
114. M.S. Triantafyllou, & G.S. Triantafyllou, 1991, “Frequency Coalescence and Mode-Localization Phenomena: A Geometric Theory”, Journal of Sound and Vibration, 150 (3), 485-500.
115. M.S. Triantafyllou, G.S. Triantafyllou, & R. Gopalkrishnan, 1991, “Wake 机械学 for Thrust Generation in Oscillating Foils”, Physics of Fluids A, 3 (12), 2835-2837.
116. V. Papazoglou, S. Mavrakos, & M.S. Triantafyllou, 1990, ``Nonlinear cable response and model testing in water'', Journal of Sound and Vibration, 140 (1), 103-115.
117. J.J. Burgess, & M.S. Triantafyllou, 1988, “The Elastic Frequencies of Cables”, Journal of Sound and Vibration, 120 (1), pp. 153-165.
118. J.H. Milgram, M.S. Triantafyllou, F. Frimm, & G. Anagnostou, 1988, “Seakeeping and Extreme Tensions in Offshore Towing”, Transactions of the Society of Naval Architects and Marine Engineers, 96, 35-72.
119. G.S. Triantafyllou, M.S. Triantafyllou, & C. Chryssostomidis, 1987, “Stability Analysis to Predict Vortex Street Characteristics and Forces on Circular Cylinders”, Journal of Offshore 机械学 and Arctic Engineering (ASME), 109, 148-154.
120. G.S. Triantafyllou, M.S. Triantafyllou & C. Chryssostomidis, 1986, “On the formation of vortex streets behind stationary cylinders”, Journal of Fluid 机械学, 170, 461-477.
121.m.s. TRIANTAFYLLOU 1985,“翻译电缆的动态”,声音和振动的轴颈,103(2),第171-182。
122. M.S. Triantafyllou, A. Bliek, & H. Shin, 1985, “Dynamic Analysis as a Tool for Mooring System 设计”, Transactions of the Society of Naval Architects and Marine Engineers, 93, 303-324.
123. M.S. Triantafyllou, & L. Grinfogel, 1985, “Natural Frequencies and Natural Mode Shapes of Inclined Cables”, Journal of Structural Engineering (ASCE), 112 (1), 139-148.
124.m.s. TRIANTAFYLLOU,1984,,力学季刊与应用数学,37,421-440“绷紧斜拉索的动态”。
125. Y.C. Kim, & M.S. Triantafyllou 1984, “The Nonlinear Dynamics of Long Slender Cylinders”, Journal of 能源 资源 Technology, 106 (2), 250-256.
126. M.S. Triantafyllou, M. Bodson, & M. Athans, 1983, “Real Time Estimation of Ship Motions Using Kalman Filtering Techniques”, Journal of 海洋ic Engineering (IEEE), OE-8 (1), 9-20.
127.m.s. TRIANTAFYLLOU,1982年,“系泊系统的初步设计”,船舶研究杂志,26(1),25-35。
128.m.s. TRIANTAFYLLOU,1982年,“为停泊和定位船舶一致的流体力学理论”,船舶研究杂志,26(2)97-105。
129.m.s. TRIANTAFYLLOU,1980,“在当前的存在船舶运动的带材理论”,船舶研究杂志,24(1),40-44。
130.m.s. TRIANTAFYLLOU,1979年,16“使用B -series计算机辅助螺旋桨初步设计”,海洋技术,(4),381-391。

书和章节书
1.m.s. TRIANTAFYLLOU河。 bourguet,J。达尔,Y。勒斯-sadeghi,2015,,海洋工程的施普林格手册“中的剪切流细长结构的涡激振动”。
2. M.S. Triantafyllou, & C. Chryssostomidis, 2014, 环境 Description, Force Prediction, and Statistics for 海洋 System 设计, to be published in the Oxford University 按- MIT Pappalardo Series in Mechanical Engineering.
3. G. Taylor, M.S. Triantafyllou, & C. Tropea (editors), 2010, Animal Locomotion: The Physics of Flying, The Hydrodynamics of Swimming, Springer, Berlin.
4. M.S. Triantafyllou, 2002, “Fish Hydrodynamics”, McGraw-Hill 2002 Yearbook of Science & Technology.
5.m.s. TRIANTAFYLLOU,1999年,“电缆动力学海上应用”,在发展海洋工程:波现象和海洋主题,编辑J.湾 herbich,256-294,海湾出版公司,得克萨斯州休斯敦。
6. F.S. Hover, & M.S. Triantafyllou, 1999, “Combined simulation and real-time force feedback: A new tool for experimental fluid 机械学”, in System Theory: Modeling, Analysis and Control, eds. T. Tzaferis & I. Schick, Kluwer Academic Publishers.

评论文章
1.m.s. TRIANTAFYLLOU,2010年,科学技术的挑战和潜在改变游戏规则的机会”,在21世纪委员会编写的海军工程纸,交通运输研究委员会,国家科学院,2010年5月。
2.m.s. TRIANTAFYLLOU,1991,,冲击和振动消化“电缆,牵引电缆和系泊系统的动力学”,23(7),3-8。
3.m.s. TRIANTAFYLLOU,1987,“线缆和链条的动力学”,冲击和振动消化,19(12),3-5。
4.m.s. TRIANTAFYLLOU,1984,“电缆和链的线性动力学”冲击和振动消化,16(3),9-17。

专利

  •  J.G. de Oliveira, A.W. Morton, P.R. Erb, & M.S. Triantafyllou, “Buoy Having Minimal Motion Characteristics”, U.S. Patent 4,768,984, Sept. 6, 1988.
  • M.S. Triantafyllou & D.S. Barrett, “Propulsion Mechanism Employing Flapping Foils”, U.S. Patent 5,401,196, March 28, 1995.
  • M.S. Triantafyllou & D.S. Barrett, “Method and Apparatus for Reducing Drag on a Moving Body”, U.S. Patent 5,740,750, April 21, 1998.
  • 女士。 TRIANTAFYLLOU,1999,“人类供电海上运输工具和方法,用于其操作”,美国专利5997369,1999年12月7日。
  • A.G.P Kottapalli, C.W. Tan, J.M. Miao, G. Barbastathis & M.S. Triantafyllou, 2013, “A liquid crystal polymer membrane MEMS sensor for flow rate and flow direction sensing, medical and environmental applications”, US Provisional patent Application No.: 61/541,232, ILO Ref: 11266S-CE-US/PRV.
  • A.G.P Kottapalli, J.M. Miao, M. Asadnia, & M.S. Triantafyllou, 2014, “Sensor, Method for forming the same, and method of controlling the same”, International Publication Number WO 2014/107139 A1, 10 July 2014.
  • A.G.P Kottapalli, M. Asadnia, J.M. Miao, & M.S. Triantafyllou, 2014, “生物-inspired 纳米fibril encapsulated hydrogel cupulae for ultra-sensitive MEMS flow sensor development”, US Provisional patent Application No.: 61/748,184, ILO Ref: 2378S-CE/PRV (Currently under full patent conversion).
  • M. Asadniaye Fard Jahromi, A.G.P Kottapalli, , J.M. Miao, & M.S. Triantafyllou, 2014, “Ultrasensitive and Self-Powered PDVF Nanofiber Strain Sensors”, US Provisional patent Application (filed January 7, 2015).
     

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