參考文獻
英文部份
Banchini, M. L. (1990). Project for the development on the Silmountains. Riv. IdroBiol., 29(1):123-130.
Egil, L., Harald, R., Olav, H. S. and Dag, K. (1995). Flexible Mooring With Multiple Buoys. Norwegian Marine Research Institute A/S P. O. Box 4125 Lentinlyst , N7002 Trondheim, Norway.
Fu, E. B., Sato, O., Nashimoto, K. and Yamamoto, K.(1989). Fluid force on simplified models of aquaculture net cage Examination of mooring method in Aquaculture Net cage. Nippon Suisan Gakkaishi Bull. Jap. Soc. Sci. Fish,55(7):1211-1216.
Fugazza, M. and Natale, L. (1992). Hydraulic design of perforated breakwaters. Journal Waterway, Port, Coast. Ocean Division, ASCE, 118:1-14.
Fujita, F., Fukahori, K. and Nishinokobi, H. (1991). Tension of the mooring ropes on the net cage model of raft type in regular waves. Nippon Suisan Gakkaishi Bull.1991,59(12):2229-2235.
Goda, Y. and Suzuki, Y. (1976). Estimation of incident and reflected waves in random wave experiments. Proc. 15th Coast. Eng. Conf., ASCE : 828-845.
Hayashi, T., Hattori, M., and Shirai, M. (1968). Closely spaced pile breakwater as a protection structure against beach erosion. Coast. Eng. Japan, II : 149-160.
Hayashi, T., Kano, T. and Shira, M. (1966). Hydraulic research on the closely spaced piled breakwater." Proc. 10th Coast. Eng. Conf., ASCE : 873-884.
Huang, M. C. (1985). Laboratory experiment and Numerical model for ocean buoy, Proc. National Science Council, ROC, Pt. A, 9(3):263-276.
Huang, M. C. (1990). Numerical model for ocean buoy-tether-Anchor system, Proc. National Science Council, ROC, Pt. A, 14(6) : 435-444.
Kao, C. M. (1998). A study of Flexible cage aquaculture design, National Sun Yat–Sen University. Master Thesis.
Kneel, D. E. (1992). Vertical wave barriers: wave transmission and wave forces. Proc. 23rd Coastal Eng. Conf., ASCE : 1313-1326.
Kondo, H. (1979). Analysis of breakwaters having two porous walls. Proc. Coastal Structures, ASCE, 79:962-977.
Lee, H. H. and Wang, P. W. (1997). A Preliminary Study on the Free- Suspended Type Fish-Farming Cage Subjected to Waves. Proc.19th Conf. Ocean Eng. ROC : 292-297.
Leu S. S. and Yu K. C.(1997). A Statistic estimation of the tension of a mooring cable, Proc. 19th Conf. Ocean Eng. ROC. 1997 : 724~730.
Nagamatsu, K., Nishinokubiand, H. and Nakasai, K. (1986). The mechanical characteristics of a netting store pot, Bull. Fac. Fish., Nakasaki Univ., 59 : 1-10.
Nath, J. H. (1977). Laboratory Validation of Numerical model drifting buoy-tether-drought system, NDBO Report, 03-6038-128.
Sollitt, C. K. and Cross, R. H. (1972). Wave transmission through permeable breakwater. Proc.13th Coastal Eng. Conf., ASCE: 1827-1846.
Suh, K. D., Choi, J. C., Kirn, B. H., Park, W. S. and Lee, K. S. (2001). Reflection of irregular waves from perforated-wall caisson breakwaters. Coast. Eng., 44:141-151.
Terhune, J. S. (1992). Increasing yields of channel catfish using a combination cage and open pond production systems. World Aqua. Soc. 23(1):77-82.
Terrett, F. L., Osorio, J. D. C. and Lean, G. H. (1968). Model studies of a perforated breakwaters. Proc. 11th Coastal Eng. Conf., ASCE : 1104-1120.
Twu, S. W. and Chieu, C. C. (2000). A highly wave dissipation offshore breakwater. Ocean Eng., 27:15-330.
Twu, S. W. and Lin, D. T. (1991). On a highly effective wave absorber. Coastal Eng., 15:389-405.
Wang, M. C. and Hsieh, K. Y. (1993). The inner velocity and volume of netting cage. J. Fish. Soc. Taiwan, 20(2):83-90.
Wiegel, R. L. (1961). Closely spaced piles as a breakwater. Dock and Harbor Authority. 42(491):1~ 50.
Williams, A. N., Mansour, A. M. and Fee, H. S. (2000). Simplified analytical solution for wave nteraction with absorbing-type caisson breakwaters. Ocean Eng., 27 : 1231-1248.
Yoichi, O., Tawara, Y. and Taketome, H. (1985). Studies on Behavior of Fish Cage against Flow of Water – On Relationship between Volume of Cage and Current Velocity. Fish. Eng., 6:297-321.
Yu, K. C., Leu, S. S. and Chow, Y. S. (1999). The experimental study on the mooring rope net cage. J. Fish. Soc. Taiwan, 26(3):145-152.
Zhu, S. and Chwang, A. T. (2001). Investigations on the reflection behaviour of a slotted seawall. Coast. Eng., 43:93-104.
中文部份
王茂城(1991),箱網在水中之形狀、抵抗及流水交換,國立台灣海洋大學漁業研究所碩士論文。吳金蒲(1996),拉緊式圓柱浮體組作為防波堤之初步研財,國立台灣大學海洋研究所碩士論文。
李智飛(2002),三索錨碇圓柱浮體在波浪作用下纜繩張力變化之研究,國立台灣大學海洋研究所碩士論文。李賢華(1999),張力繫纜式箱網受風浪之動力行動,漁業推廣專刊17期,國立中山大學漁業推廣委員會,pp33~37。
周耀烋(1972),漁具學,一文出版社。
林俊辰(1996),表層人工浮魚礁的力學設計,海下技術季刊,pp 2~9。林吉祥(1996),地緊式繫箱網圓柱浮體在波浪中反應之研究N,國立台灣大學海洋研究所碩士論文。俞克儉(2001),可兼具海上平台之彈性浮提裝置,中華民國專利新型第167805號。
俞克儉(1999a),海域箱網設計之研究,國立海洋大學漁業科學研究所博士論文。俞克儉(1999b),屏東縣枋寮沿海投放稚魚保護礁可行性之研究,國立高雄海洋技術學院。
俞克儉(1999c),運用電廠溫排水養殖海產種苗示範計畫(1),台灣電力公司。pp 6-1~6-23。
俞克儉(1998),高雄縣永安鄉海洋牧場魚類標識放流及效益評估之研究(五),高雄縣政府。
俞克儉(1995),高雄縣永安鄉海洋牧場魚類標識放流及效益評估之研究(三),高雄縣政府。
高志銘(1998),柔性箱網結構設計與分析研究,國立中山大學海洋環境研究所碩士論文,張耀民(2000),可沉式箱網養殖工程之研究,國立中山大學海洋環境研究所碩士論文。梁乃匡(1999),半封閉圓管組成抗波箱網,中華民國專利案號88220774號。
梁乃匡(2000),一種新浮式防波堤構想,台灣海洋學刊,第38期,pp 79-89。
梁乃匡、林吉祥(1998),扭緊式圓柱型浮體在波浪中的反應研財,第二十屆海洋工程研討會論文集。
莊炳燦(1997),箱網養殖錨碇系統動態分析,國立中山大學海洋環境研究所碩士論文。許建文(1999),侈重排列式圓柱體波浪透射率之初步研究",國立台灣大學海洋研究所碩士論文。郭一羽、張瑞欣、陳進昇( 1996),輪胎式浮堤之消波效果與繫纜力之研究,港灣技術第十一卷第一期,pp 89-lll。黃材成(1999),箱網養殖工程風險探討,漁業推廣專刊17期,國立中山大學漁業推廣委員會,pp23~32。
廖榮文(1995),海洋學概論, 徐氏基金會出版,12版。
歐錫祺、陳朝欽、鄭火元、劉春成(1993),人工漁礁調查研究報告彙集(三),農委會漁業特刊三十九號,pp 9-23。
蔡光照、俞克儉、呂學信(2002),廢輪胎製稚魚保護礁之穩定性分析,未發表。
蘇中弘(2001),半封閉圓管組成抗波箱網之初步動力研究,國立台灣大學海洋研究所碩士論文。蘇彥享(1993),繫箱網圓柱浮體在波浪中反應之初步研究,國立台灣大學海洋研究所碩士論文。日文部份
木村晴保(1998),水面下に水平に兩端された圓筒浮體の波による運動と係留索張力のての算定法,水產土木,38(2):167-176。
木村晴保(1997),波動場に係留球體の運動と係留索張力の算定法,水產土木,32(2):195-202。
木村晴保(1991),流れと波が共存する場に浮魚礁の係留索張力の簡易計算法,水產土木,28(1):7-14。