參考文獻

7. 參考文獻

1. 林文宗、梁乃匡 (1999)「颱風湧浪逆風之探討」，第 21 屆海洋工 程研討會論文集，第 109-114 頁。

2. 高治平、梁乃匡(1980)「蓋灣北部海城冬季波候研究」，第 4 屆海 洋工程研討會論文集，第 245-258 頁。

3. 梁乃匡(1982)「颱風湧浪的預報方法」，第6 屆海洋工程研討會論 文集，第 5.1-5.19 頁。

4. 梁乃匡(1989)「修訂的颱風湧浪預報法」，港灣技術，第 4 期，第 1-10 頁。

5. 梁乃匡(2010)「颱風湧浪預報經驗法的探討」，海洋工程學刊 第 10 卷 第 2 期 第 87-120 頁

6. 梁乃匡、李汴軍 (1978)「台灣海峽冬季季風波浪現場調查初步研 究」，第2 屆海洋工程研討會論文集，第 1-21 頁。

7. 梁乃匡、林文宗(1995)「八十三年侵台颱風波浪推算研究」，第 17 屆海洋工程研討會論文集，第 425-442 頁。

8. 蔡昀達(2005)「應用類神經模糊系統於季節風波浪之推算」，國立 交通大學土木工程研究所碩士論文。

9. 蔡獲光(2006)「應用 ANFIS 模式於台灣東部海域之季節風波浪推 算」，國立交通大學土木工程研究所碩士論文。

10. 衛紀淮、張憲國、劉勁成、陳蔚瑋、何良勝 (2014)「103 年臺北 港風與波浪關連性之統計特性研究」，交通部運輸研究所港研中 心報告，編號 MOTB-IOT-104-H2EB001f。

11. 陳昭銘(2012)「臺北港區風場數值預報系統之建置研究」，交通部 運輸研究所港研中心報告，編號 MOTC-IOT-101-H2EB001e。

12. Altunkaynak, A. and Özger, M. (2004) Temporal significant wave height estimation from wind speed by perceptron Kalman filtering, Ocean Engineering, 31(10), 1245-1257.

13. Andreasa,E.L. and Wang, S. (2007) Predicting significant wave height off the northeast coast of the United States, Ocean Engineering, 34, 1328-1335.

7-2

14. Carter, D.J.T. (1982) Prediction of wave height and period for a constant wind velocity using the JONSWAP results, Ocean Engineering 9, 17-33.

15. Chang, T.P. (2011) Estimation of wind energy potential using different probability density function,. Applied Energy, 88, 1848-56.

16. Defant, F. (1951) Local winds, in compendium of meteorology, Boston, Amer. Meteor. Soc., 655-672.

17. Doong, D. J., and Kao, C. C. (2007) Typhoon induced swell, Proceedings of East Asian Workshop for Marine Environments.

18. Glejin et al. (2013) Observational evidence of summer Shamal swells along the west coast of India, J. Atmos. Ocean. Technol., vol.30;

2013; 379-388

19. Glejin, J., Sanil Kumar, V., Balakrishnan Nair, T. M., Singh, J., Mehra, P. (2013) Observational evidence of summer Shamal swells along the west coast of India, J. Atmos. Ocean. Technol., 30, 379-388.

20. Hasselmann, K., Barnett, T.P., Bouws, E., Carlson, H., Cartwright, D.E., Enke, K., Ewing, J.A., Gienapp, H., Hasselmann, D.E., Kruseman, P., Meerburg, A., Müller, P., Olbers, D.J., Richter, K., Sell, W., Walden, H. (1973) Measurements of wind-wave growth and swell decay during the Joint North Sea Wave Project (JONSWAP), Dtsch. Hydrogr. Z., Suppl. A, 8, 1-95.

21. Haurwitz, B. (1947) Comments On the Sea Breeze Circulation, J.Meteor., 4, 1-8.

22. Janssen, P. (1994) Numerical modelling of wave evolution in dynamics and modeling of ocean waves, Cambridge Univ. Press, 205-257.

23. Janssen, P. (2004) The Interaction of Ocean Waves and Wind, Cambridge University Press, 308pp.

24. Kelvin, L. (1869) On vortex motion, Trans. R. Soc. Edinburgh, 25, 217-260.

25. Kinsman, B. (1965) Wind Waves: Their generation and propagation on the Ocean Surface, Prentice-Hall, 676 pp.

26. Knaff, J. A., Sampson, C. R., DeMaria, M., Marchok, T. P., Gross, J.

M, McAdie, C. J. (2007) Statistical tropical cyclone wind radii

7-3

prediction using climatology and persistence, Wea. Forecasting, 22 (4), 781-791.

27. Knaff, J.A., C. R. Sampson, M. DeMaria, T. P. Marchok, J. M. Gross, and C. J. McAdie (2007) Statistical Tropical Cyclone Wind Radii Prediction Using Climatology and Persistence, Weather Forecasting, 22:4, 781–791.

28. Komen, G. J., Cavaleri, L., Donelan, M., Hasselmann, K., Hasselmann, S., Janssen, P. (1994). Dynamics and modelling of ocean waves, Cambridge University Press, 532pp.

29. Komen, G. J., Hasselmann, S., Hasselmann, K. (1984) On the existence of a fully developed wind-sea spectrum, J. Phys. Oceanogr., 14(8), 1271-1285.

30. Li, S. Q., Zhao, D. L. (2012) Comparison of spectral partitioning techniques for wind wave and swell, Physical Oceanography Laboratory, Ocean University of China.

31. Liang, N.K. (1990) A study on typhoon swell height prediction, Acta Oceanographic, Taiwanica 25, 77-86.

32. Liang, N.K. (2003) The typhoon swell Doppler effect, Acta Ocean Engineering 30, 1107-1115.

33. Liang, N.K. (2012) The freak wave potential of typhoon swell, Journal of Marine Science and Technology, 20 (4), 467-471.

34. Miles, J. (1957) On the generation of surface waves by shear flows, J.

Fluid Mech., 3, 185-204.

35. Morgan, E.C., Lackner, M., Vogel, R.M., Baise, L. G. (2011) Probability distributions for offshore wind speeds. Energy Conversion and Management;52:15-26.

36. Phillips, O. (1985) Spectral and statistical properties of the equilibrium range in the wind-generated gravity waves, J. Fluid Mech., 156, 505-531.

37. Pierson W. J. (1950) The effects of eddy viscosity, Coriolis deflection, and temperature fluctuation on the sea breeze as a function of time and height, New York University. College of Engineering.

Moteorological Papers1, (2), 29pp.

38. Pierson, W. J., Moskowitz, L. (1964) A proposed spectral form for fully developed wind seas based on the similarity theory of S. A.

7-4

Kitaigorodski, J. Geophys. Res., 69(24), 5181-5190.

39. Pierson, W., Garcia, A. (2008) On the wind-induced growth of slow water waves of finite steepness, J. Fluid Mech., 608, 243-274.

40. Portilla, J., Ocampo-Torres, F. J., Monbaliu, J. (2009) Spectral partitioning and identification of wind sea and swell, J. Atmos.

Oceanic Technol., 26(1), 107-122.

41. Rashmi, R., Aboobacker, V. M., Vethamony, P., John, M. P. (2013) Co-existence of wind seas and swells along the west coast of India during non-monsoon season, Ocean Sci., 9, 281-292.

42. Samiksha, S. V., Vethamony, S. V. , Aboobacker, V. M., Rashmi, R.

(2012) Propagation of Atlantic Ocean swells in the north Indian Ocean: a case study, Nat. Hazards Earth Syst. Sci., 12, 3605-3615.

43. Sanil Kumar, K., Ashok Kumar, K., Anand, N. M. (2000) Characteristics of waves off Goa, west coast of India, J. Coast. Res., 16 (2), 782-789.

44. Semedo, A., Sušeljet, K., Rutgersson, A., Sterl, A. (2010) A global view on the wind sea and swell climate and variability from ERA-40, J. Climate, 24(5), 1461-1479.

45. Steyn, D. G., Faulkner, D. A. (1986) The climatology of sea-breeze in the Lower Fraser Valley, Climatological Bulletin 20(3), 21-39.

46. Sverdrup, H. U., Munk, W. H. (1947) Wind, sea and swell, theory of relation for forecasting, U. S. Navy Hydrographic Office, Pub. 601, 44pp.

47. Tian, Z., Perlin, M., Choi, W. (2010) Energy dissipation in two-dimensional unsteady plunging breakers and an eddy viscosity model, J. Fluid Mech., 655, 217-257.

48. Toffoli, A., Lefevre, J. M., Bitner-Gregersen, E., Monbaliu, J. (2005) Towards the identification of warning criteria: analysis of a ship accident database, Applied Ocean Research, 27(6), 281-291.

49. Tucker, M.J. and Pitt, E.G. (2001) Waves in Ocean Engineering, Elsevier.

50. Vethamony, P., Rashmi, R., Samiksha, S. V., Aboobacker, V. M.

(2014) Recent studies on wind seas and swells in the Indian Ocean: a review, Int. J. Ocean Climate. Syst. 4, 65-75.

51. Wang, D. W., Hwang P. A. (2001) An operational method for

7-5

separating wind sea and swell from ocean wave spectra, J. Atmos.

Oceanic Technol., 18(12), 2052-2062.

52. Wilson, B. W. (1955) Graphical approach to the forecasting of waves in moving fetch, Beach erosion board, US Army Corps of Engineers Tech. Memo., No. 73, 31.

53. Wilson, B. W. (1983) Deep water generation by moving wind systems, Trans. Am, Soc. Civil. Eng. 128, Paper No. 3416.

54. Young, I. (1999) Wind generated ocean waves, Elsevier, 288pp.

55. 合田良實 (1987) “数値シミュレーションによる波浪の標準スペ クトルと統計的性質”, 日本第 34 回海岸工学講演会論文集, , pp.131－135。