馬航MH370 失踪之謎

20150715第五期

作者:陳鞏、顧聰、摩里斯 Philip J. Morris、佩特遜 Eric G. Paterson、舍捷夫 Alexey Sergeev、王怡菁、威爾畢茨基 Tomasz Wierzbicki

譯者:畢馨云

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          • 作者1簡介
            陳鞏畢業於清華大學,威斯康辛大學麥迪遜分校博士,現為德州農工大學及德州農工大學卡達分校數學教授,也是德州農工大學量子科學與工程研究所一員。主要研究領域有控制論、計算力學、偏微分方程、混沌動力學、邊界元素法數值解、量子計算。
          • 作者2簡介
            顧聰畢業於上海交通大學,現為德州農工大學數學系博士生。
          • 作者3簡介
            摩里斯是英國南安普敦大學博士,現為賓州州立大學航太工程Boeing/AD Welliver 教授。 主要研究領域有空氣動力噪聲學、計算氣動聲學、流體動力學穩定性、紊流建模、熱聲學。
          • 作者4簡介
            佩特遜是愛荷華大學博士,現為維吉尼亞理工學院航太及海洋工程Rolls Royce Commonwealth 教授與系主任。 主要研究領域有空氣動力學、流體力學、海洋工程學。
          • 作者5簡介
            舍捷夫是卡達環境與能源研究中心的博士後研究員。
          • 作者6簡介
            王怡菁畢業於東海大學,交通大學碩士,現在是德州農工大學數學系博士生。
          • 作者7簡介
            威爾畢茨基是波蘭基礎科技研究院的應用力學博士,現為麻省理工學院機械系撞擊與耐摔性實驗室主任,應用力學教授。
          • 譯者簡介
            畢馨云畢業於清華大學數學系,資深科普書編輯,現為自由譯者。
          • 本文出處
            Notice s 62(2015)No.4 AMS.
          • 延伸閱讀
            ◊ 本文所提到的模擬影片或媒體影片連結,可以到本文資料網頁直接連結。http://yaucenter.nctu.edu.tw/journal/201507/ch2/main.php
          • 參考資料
            [Aba] Abaqus FEA. www.3ds.com/productsservices/simulia
            [Abr11] Serge Abrate, Hull slamming, Applied Mechanics Reviews, 64(6):060803, 2011.
            [Bar10] Arnold Barnett, Cross-national differences in aviation safety records, Transportation Science, 44(3):322–332, 2010.
            [CXM.14] Goong Chen, Qingang Xiong, Philip J. Morris, Eric G. Paterson, Alexey Sergeev, and Yi-Ching Wang, OpenFOAM for computational fluid dynamics, Notices of the AMS 61 (2014), no.4, 354–363.
            [Fab57] Andrew G. Fabula, Ellipse-fitting approximation of two-dimensional, normal symmetric impact of rigid bodies on water, in Proceedings of the 5th midwestern conference on fluid mechanics, M. Kuethe, editor, Ann Arbor; The University of Michigan Press, 1957, pp. 299–315.
            [Fin14] David Finkleman, A mathematical and engineering approach to the search of MH370, 2014, Powerpoint Presentation (unpublished).
            [FWR87] Edwin L. Fasanella, E Widmayer, and Martha P. Robinson, Structural analysis of the controlled impact demonstration of a jet transport airplane, Journal of Aircraft 24 (1987), no. 4, 274–280.
            [Gar53] P. R. Garabedian, Oblique water entry of a wedge, Communications on Pure and Applied Mathematics 6 (1953), no. 2, 157–165.
            [GLQW13] Baodong Guo, Peiqing Liu, Qiulin Qu, and Jiawen Wang, Effect of pitch angle on initial stage of a transport airplane ditching. Chinese Journal of Aeronautics 26 (2013), no 1, 17–26.
            [HN81] Cyril W Hirt and Billy D Nichols, Volume of fluid (vof) method for the dynamics of free boundaries. Journal of Computational Physics 39 (1981), no. 1, 201–225.
            [LQG.14] Feiqing Liu, Qiulin Qu, Baodong Guo, Xing Jin, Jiali Wu, and Kai Zhang, Application of computational fluid dynamics in the planned ditching of a transport airplane. Mechanics and Practices, 36 (2014), 278–284. (in Chinese with English abstract).
            [lsd] LS-DYNA. www.lstc.com/products/ls-dyna [Mac79] A. M. Mackey, A mathematical model of water entry, Admiralty Underwater Weapons Establishment TN, (636/79), 1979. Publisher listed as PN.
            [MHV59] John R McGehee, Melvin E Hathaway, and Victor L Vaughan, Water-landing characteristics of a reentry capsule, National Aeronautics and Space Administration, 1959.
            [MP93] B. Mohammadi and Olivier Pironneau, Analysis of the K-epsilon Turbulence Model, Wiley-Masson Series Research in Applied Mathematics, 1994.
            [not] Notices of the American Mathematical Society. [ope] OpenFOAM. openfoam.org/
            [OS88] Stanley Osher and James A Sethian, Fronts propagating with curvature-dependent speed: Algorithms based on Hamilton-Jacobi formulations, Journal of Computational Physics, 79 (1988), no. 1, 12–49.
            [RL14] T. Chacón Rebollo and Roger Lewandowski, Mathematical and Numerical Foundations of Turbulence Models and Applications, Springer, 2014.
            [Son03] Gihun Son, Efficient implementation of a coupled level-set and volume-of-fluid method for three-dimensional incompressible twophase flows, Numerical Heat Transfer: Part B: Fundamentals, 43 (2003), no. 6, 549–565.
            [SS51] M. Shiffman and D. C. Spencer, The force of impact on a cone striking a water surface (vertical entry), Communications on Pure and Applied Mathematics, 4 (1951), no. 4, 379–417.
            [SSO94] Mark Sussman, Peter Smereka, and Stanley Osher, A level set approach for computing solutions to incompressible two-phase flow, Journal of Computational Physics, 114 (1994), no. 1, 146–159.
            [syr] 4 possible ways Malaysia flight 370 hit the water and how each would affect the search, Associated Press, April 8, 2014.
            [TNY85] H. Takewaki, A. Nishiguchi, and T. Yabe, Cubic interpolated pseudo-particle method (cip) for solving hyperbolic-type equations, Journal of Computational Physics, 61 (1985), no. 2, 261–268.
            [23] US Airways Flight 1549. en.wikipedia.org/wiki/US_Airways_Flight_1549
            [vK29] Theodore von Kármán, The impact on seaplane floats during landing, NACA Technical Note No. 321, 1929.
            [Wag31] Herbert Wagner, Landing of seaplanes, NACA Technical Memorandums, No. 622, 1931.
            [WSH04] G. X. Wu, H. Sun, and Y. S. He, Numerical simulation and experimental study of water entry of a wedge in free fall motion, Journal of Fluids and Structures, 19 (2004), no. 3, 277–289.
            [WY86a] T. Wierzbicki and D. K. Yue, Spacecraft crashworthiness—towards reconstruction of the Challenger accident, American Society of Mechanical Engineers, Applied Mechanics Division, AMD, 79 (1986), 31–46.
            [WY86b] Tomasz Wierzbicki and Dick K. Yue, Impact damage of the Challenger crew compartment, Journal of Spacecraft and Rockets, 23 (1986), no. 6, 646–654.
            [Zwe14] John Zweck, How did Inmarsat deduce possible flight paths for MH370? SIAM News, May 1, 2014.
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