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Bibliografia

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  1. Alexey, A. (2005), “Hydroelastic Analysis of Very Large Floating Structures”, Oekraine.
  2. Alexander, B. (2008), “Floating Cities, Islands and States”, Article Floating City 3 21 08 after Joseph.
  3. Alpers, W., Brandt, P., Rubino, A., and Backhaus J.O. (1996), “Recent Contributions of Remote Sensing to the Study of Internal Waves in the Straits of Gibraltar and Messina”, CIESM Science Series, V. 17, No. 2, P. 21-40,Monaco.
  4. Azzaro, F., Decembrini, F., Raffa, F., and Crisafi, E. (2007), “Seasonal Variability of Phytoplankton Fluorescence in relation to the Straits of Messina (Sicily) Tidal Upwelling”, Ocean Science, V. 3, P. 451-460.
  5. Avri, L., Bart, D., and Sietse, V. (1979), “Floating Village”,Institute ofTechnology, Faculty of Architecture,Bangkok,Thailand.
  6. Brown, D.J. (1993), “Bridges: Three Thousand Years of Defying Nature”, Reed International,London.
  7. Burt, M. (2003), “Sponge Breakwater”,Technion,Israel.
  8. Chen, W. F., and Duan, L. (1997), “Bridge Engineering Handbook”, CRC Press, London.
  9. Chen, B., and Chen, P. (2008), “Fully nonlinear waves past submerged and floating breakwater”,Taiwan.
  10. Dawsan, S. (1996), “Artists of the Floating Bridge”, Architects’ Journal, V. 204, No. 17, P. 39-41.
  11. Das, P. C., Frangopol, D. M., and Nowak, A. S. (1999), “Bridge Design, Construction And Maintenance”, Thomas Telford, London.
  12. Faltinsen, O. M. (1995), “Sea Loads on Ships and Offshore Structures”, USA.
  13. Firenze. (1998),  “Ponte Vecchio”, <http://www.exibart.com /PonteVecchio/default.htm.>
  14. Gasparetto, M., and Bocciolone, M. (1992), “Wind Measurements on Messina Straits”, The Journal of the International Association for Wind Engineering”, V. 41, P. 393-397.
  15. Gimsing, N. J., and Sørensen, A. B. (1983), “Investigations into the Possibilities of Constructing Bridges with a Free Span of 3000m”, Report R168 Department of Structural Engineering,TechnicalUniversity ofDenmark.
  16. Gardner, G. (1994), “Winner small project: Floating bridge”, West India Quay an legant floating footbridge unites 18th and 20th century London Docklands, The rchitects’ Journal 1994: 11: 10–11.
  17. Guerricchio, A., and Ponte, M. (2006), Geological and stability aspects for the Messina Strait Bridge (Southern Italy)”, Giornale di Geologia Applicata 3 (2006) 83-90.
  18. Gimsing, N. (1998), “Cable Supported Bridges”,Denmark.
  19.          GermanyReal Estate Yearbook. (2008), http://books.google.co.il/books?id=qNkdWimrj2MC&pg=PA126&lpg=PA126&dq=living+bridge+hamburg&source=bl&ots=OKGg1QHA8B&sig=nWzEaSLbXLZZCzXYpzKKi5hUa1g&hl=iw&ei=MQgySoLgBYGnsAb7sTJCQ&sa=X&oi=book_result&ct=result&resnum=8#PPA127,M1.
  20. Henderson, A. R., Leutz, R., and Fujii, T. (2002), “Potential for Floating Offshore Wind Energy in Japanese Waters”, ISOPE Conference,Kitakyushu,Japan.
  21. Ir. Ties, R. (1999), “Floating neighborhoods as they were and will be; Why dwellers would want to live on water”, Department of Building Technology, Faculty of Architecture.
  22. Imbesi, G., Greca, P., Martinico, F., and Costa, G. (2002), “Coping with unexpected foreseeable events”,Roma,Italy.
  23. John, C. W. (1902), “Bridge”, United State Patent Office, Serial No. 97,928.
  24. Joseph, H. T. (1933), “Pontoon Bridge”, United States Patent Office, Serial No. 423,063.
  25. John, H. B. (1988), “Floating storage building”, United State Patent Office, Serial No. 4,726,316.
  26. James, M. P. (2007), “Bridges Assembled From Ocean-Mobile Pontoon Bridge Modules”, United States Patent, Patent No.: US 7,200,887 B1.
  27. Kuesel, R. (1984), “Floating Bridges for Long Water Crossings”, Annual Convention, Structural Engineers Association ofHawaii.
  28. Kwon, S., Paik, Y., and Chang, P. (2004), “Dynamic Analysis of Floating Bridge Subject to Earthquake Load Considering Multi-Support Excitation”, Japan.
  29. Leonhardt, F. (1987), “Cable Stayed Bridges with Prestressed Concrete”,Germany.
  30. Lwin, M.M. (2000), “Floating Bridges”, in: Chen W.F. and Lian Duan (eds) Bridge Engineering Handbook, 22, pp. 1-23, CRC Press.
  31. Larsen, O. (2008), “Ship Collision with bridges: The Interaction between Ship Traffic and Floating Bodies”, Structural Engineering Documents, IABSE, AIPC, IVBH.
  32. Laurence, K. P. (2002), “30 Bridges Matthew Wells / Introduction by Hugh Pearman”,Singapore.
  33. Marco, B., Michele, G., Sergio, L., Giuseppe, P., Corrado, F., and Giovanni, S. (1993), “Statistical Analysis of Extreme Wind Speeds in the Straits of Messina”, Journal of Wind engineering and Industrial Aeorodynamics, V. 48, P. 359-377.
  34. Maruyama, T., Watanabe, E. and Tanaka, H. (1998). “Floating swing bridge with a 280 m span, Osaka”, Structural Engineering International (IABSE), 8(3), pp. 174-175.
  35. Minister of infrastructure and transportation (2009), “Manuale Utente”, VTS Stretto di Messina, Italian Language.
  36. Murray, P., and Stevens, M. A. (1996), “Living Bridge”, Prestel - Verlag, Munich - New York.
  37. Murali, K., and Mani, J. S. (1997), “Performance of Cage Floating Breakwater”, Journal of waterway, port, coastal, and ocean engineering.
  38. Murray, P., and Stevens, M. A. (1996), “Living Bridges”, Prestel - Verlag, Munich - New York.
  39. Nereidi, 201 (2010), “Ponte sullo Stretto”, Post º8, Italy.
  40. Onofre, S.A.(2005), “The floating gardens in México Xochimilco, world heritage risk site”, Open Journal System, http://www.ct.ceci-br.org.
  41. Philip, H. E. (1950), “Floating support for growing plants”, United State Patent Office, Serial No. 2,531,562.
  42. Rassegna (1991), “Inhabited Bridges”, Quarterly, 48/4,Italy.
  43. Richard, J. S. (1950), “Floating island planting system”, United State Patent Office, Serial No. 6,918,206, B2.
  44. Robert, G. M., and Robrt, K. H. (1972), “Suspension Bridge Preassembled Abutment Towers and Anchorage”,United States Patent, Serial No. 3,685,074.
  45. Richard, s. (2001), “In the Wake of Tacoma”,U.S.
  46. Rutger, G., Michiel, F., Bart, B., Karina, C., and Maarten, K. (2006), “Floating City IJmeer”, Holand.
  47.  Study Group of World Cities. (1988), “Seto Bridges Memorial Museum, Kurashiki City, Japan Photo Company (in Japanese).
  48. Stretto di Messina. (1996), “The Bridge over the Messina Straits”, Report by Stretto di Messina S.p.A., Italy.
  49. Seif, M. S., and Inoue, Y. (1998). "Dynamic Analysis of Floating Bridges", Marine Structures, 11 (1998) 29-46.
  50. Strait Crossings. (2001), Krokeborg, Swets & Zeitlinger Publishers Lisse, ISBN 90 2651 845 5.
  51. Shixiao, F., Weicheng, C., Xujun, C., and Cong, W. (2005). "Hydroelastic Analisys of a Nonlinearly connected Floating Bridge Subjected to Moving Loads", Marine Structures, 18 (2005) 85-107.
  52. Seif, M., and Paein, R. (2005), “Floating Bridge Modeling and Analysis”, Scientia Iranica, Vol. 12, No. 2, pp 199-206.
  53. Signorino,G. (2005), “Mistakes and Erroneous Solutions in Urban Planning:  the Project for a Bridge over the Straits of Messina”, Italy.
  54. Sorkin, A. (2006), “Floating Modular Array of Olympic Facilities and Related Functions”, M.Sc, thesis. Technion, Haifa, Israel.
  55. Stretto di Messina. (2007),  Il Ponte: ruoli e numeri”, <http://strettodimessina.it /ita/tuttiinumeridelponte/72_ITA_HTML.htm.>.
  56. Troitsky, M.S. (1990), “Pre-stressed Steel Bridges – Theory and Design”, Van Nostrand Reinhold, New York.
  57. Taylor, R. (2003), “MOB project summary and technology spin-offs,” Proceedings of the International Symposium on Ocean Space Utilization Technology, NRMI, pp. 29-36, January 28-31, Tokyo, Japan.
  58. VSL international LTD (1992), "Floating concrete structures examples from practice, second printing", Berne/Switzerland.
  59. Wangsadinata, W. (1997), “Advanced Suspension Bridge Technology and the Feasibility of the Sunda Strait Bridge”.
  60. Watanabe, E., Maruyama, T., Kawamura, Y., and Tanaka, H. (1998), “A new floating bridge project in Osaka City”, IABSE Reports: Long-Span and High-Rise Structures, IABSE Symposium, Kobe, 1998: 79: 155–160.
  61. Watanabe, E., Maruyama, T., Tanaka, H. And Takeda, S. (2000), "Design and Construction of a Floating Swing Bridge in Osaka",  Marine Structures, 13 (2000) 437-458.
  62. Watanabe, E., and Utsunomiya, T. (2003), “Analysis and Design of Floating Bridges”,  Prog. Struct. Engng Mater. 5:127-144.
  63. Watanabe, E. (2003), “Floating Bridges: Past and Present”, Structural engineering International 2/2003, Japan.
  64. Watanabe, E., Utsunomiya, T., and Wang, C. M. (2003), “Hydroelastic analysis of pontoon-type VLFS: a literature survey”, Japan.
  65. Watanabe, E. (2003), Structural Engineering international, Sei Volume 13, Number 1.
  66. Watanabe, E., Wang, C. M., Utsunomiya T., and Moan, T. (2004), “Very Large Floating Structures: Applications, Analysis and Design”, CORE Report No. 2004-02. Center for Offshore Research and Engineering, National University of  Singapore.
  67. Wang, C. M., Wu, T. Y., Choo, Y. S., Ang, K. K., Toh, A. C., Mao, W. Y., and Hee, A.M. (2006), "Minimizing Differential Deflection in Pontoon-Type, Very large Floating Structure Via Gill Cells",  Marine Structures, 19 (2006) 70-82.
  68. Wang, C. (2006), “Minimizing differential deflection in a pontoon-type,very large floating structure via gill cells”, Marine Structures, V. 19, P. 70-82.
  69. Wim, B. (2006), “Living Bridge Highdelberg”, http://arch.rwth-aachen.de/en/.
  70. Wang, C., Watanabe, E., and Utsunomiya, T. (2008), “Very Large Floating Structure”, London & New York.
  71. Wikipedia. (2009), http://en.wikipedia.org/wiki/pontoon-bridge.
  72. Xanthakos, P. P. (1993), “Theory and design of Bridges”, John Wiley & Sons. New York.

 

 


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