References
- Bennetts LG, Alberello A, Meylan MH, Cavaliere C, Babanin AV, Toffoli A. 2015. An idealised experimental model of ocean surface wave transmission by an ice floe. Ocean Model. 96:85–92.
- Boutin G, Lique C, Ardhuin F, Rousset C, Talandier C, Accensi M, Girard-Ardhuin F. 2020. Towards a coupled model to investigate wave–sea ice interactions in the Arctic marginal ice zone. The Cryosphere. 14(2):709–735.
- Comiso JC, Parkinson CL, Gersten R, Stock L. 2008. Accelerated decline in the Arctic sea ice cover. Geophys Res Lett. 35:1.
- Faltinsen O. 1993. Sea loads on ships and offshore structures. Cambridge University Press.
- Gold LW. 1977. Engineering properties of fresh-water ice. J Glaciol. 19(81):197–212.
- Huang G, Law AW-K, Huang Z. 2011. Wave-induced drift of small floating objects in regular waves. Ocean Eng. 38(4):712–718.
- Huang G, Law AW. 2013. Wave-induced drift of large floating objects in regular waves. J Waterway Port Coast Ocean Eng. 139(6):535–542.
- Huang L, Lu W, Yang J, Dong Q. 2022. Experimental study on surface waves around a novel model of ice floe. Cold Reg Sci Technol. 193:103380.
- Hyatt J, Beardsley RC, Owens WB. 2011. Characterization of sea ice cover, motion and dynamics in Marguerite Bay, Antarctic Peninsula. Deep Sea Res Part II. 58(13):1553–1568.
- Langhorne PJ, Squire VA, Fox C, Haskell TG. 1998. Break-up of sea ice by ocean waves. Ann Glaciol. 27:438–442.
- Martin S, Becker P. 1987. High-frequency ice floe collisions in the Greenland Sea during the 1984 marginal ice zone experiment. J Geophys Res Oceans. 92(C7):7071–7084.
- Massom RA, Stammerjohn SE. 2010. Antarctic sea ice change and variability – physical and ecological implications. Polar Sci. 4(2):149–186.
- MathWorks. 2021. https://www.mathworks.com/help/signal/index.html.
- McGovern DJ, Bai W. 2014. Experimental study on kinematics of sea ice floes in regular waves. Cold Reg Sci Technol. 103:15–30.
- Meylan M, Bennetts L, C C, Alberello A, Toffoli A. 2015a. Experimental and theoretical models of wave-induced flexure of a sea ice floe. Phys Fluids. 27.
- Meylan MH, Yiew LJ, Bennetts LG, French BJ, Thomas GA. 2015b. Surge motion of an ice floe in waves: comparison of a theoretical and an experimental model. Ann Glaciol. 56(69):155–159.
- Montiel F, Bonnefoy F, Ferrant P, Bennetts L, Squire V, Marsault P. 2013. Hydroelastic response of floating elastic discs to regular waves. Part 1. Wave basin experiments. J Fluid Mech. 723:604–628.
- Ogilvie TF. 1983. Second order hydrodynamic effects on ocean platforms. Int Workshop on Ship & Platform Motions.
- Prinsenberg SJ, Peterson IK. 2011. Observing regional-scale pack-ice decay processes with helicopter-borne sensors and moored upward-looking sonars. Ann Glaciol. 52(57):35–42.
- Robin GDQ, Deacon GER. 1963. Wave propagation through fields of pack ice. Philos Trans Royal Soc London. 255(1057):313–339.
- Sayeed T, Colbourne B, Molyneux D. 2018. Experimental and numerical investigation of wave induced forces and motions of partially submerged bodies near a fixed structure in irregular waves. Ocean Eng. 163:451–475.
- Sayeed T, Colbourne B, Molyneux D, Akinturk A. 2017. Experimental and numerical investigation of wave forces on partially submerged bodies in close proximity to a fixed structure. Ocean Eng. 132:70–91.
- Squire V, Moore S. 1980. Direct measurement of the attenuation of ocean waves by pack ice. Nature. 283:365–368.
- Squire VA. 2020. Ocean wave interactions with sea ice: a reappraisal. Annu Rev Fluid Mech. 52(1):37–60.
- Thomson J, Rogers WE. 2014. Swell and sea in the emerging Arctic ocean. Geophys Res Lett. 41(9):3136–3140.
- Timco GW, Weeks WF. 2010. A review of the engineering properties of sea ice. Cold Reg Sci Technol. 60(2):107–129.
- Toffoli A, Bennetts LG, Meylan MH, Cavaliere C, Alberello A, Elsnab J, Physics JPMJ. 2015. Sea ice floes dissipate the energy of steep ocean waves. Geophys Res Lett. 42(20):8547–8554.
- Toyota T, Haas C, Tamura T. 2011. Size distribution and shape properties of relatively small sea-ice floes in the Antarctic marginal ice zone in late winter. Deep Sea Res Part II. 58(9):1182–1193.
- Tsarau A, Lubbad R, Løset S. 2014. A numerical model for simulation of the hydrodynamic interactions between a marine floater and fragmented sea ice. Cold Reg Sci Technol. 103:1–14.
- von Bock und Polach F, Klein M, Hartmann M. 2021. A new model ice for wave-Ice interaction. Water. 13(23):3397.
- Wadhams P. 1983. A mechanism for the formation of ice edge bands. J Geophys Res Oceans. 88(C5):2813–2818.
- Wadhams P, Gill AE, Linden PF. 1979. Transects by submarine of the East Greenland Polar Front. Deep Sea Res Part A. 26(12):1311–1327.
- Yiew LJ, Bennetts LG, Meylan MH, French BJ, Thomas GA. 2016. Hydrodynamic responses of a thin floating disk to regular waves. Ocean Model. 97:52–64.