An O(N log N) method for for second-order wave loads on a vertical pile

Henrik Bredmose; Antonio Pegalajar-Jurado

An O(N log N) method for for second-order wave loads on a vertical pile

Henrik Bredmose^*
, Antonio Pegalajar-Jurado

^*Corresponding author for this work

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Abstract

The second-order wave theory offers a welcome improvement to linear wave loads. Due to the quadratic frequency interactions, they are traditionally a magnitude more costly in terms of CPU time. We here present a method for slender vertical circular cylinders that allows their computation at an effort of O(N log N), similar to linear wave loads.

Original language	English
Publication date	2020
Number of pages	4
Publication status	Published - 2020
Event	35th International Workshop on Water Waves and Floating Bodies (IWWWFB 2020) - Seoul National University, Soul, Korea, Republic of Duration: 26 Apr 2020 → 29 Apr 2020

Conference

Conference	35th International Workshop on Water Waves and Floating Bodies (IWWWFB 2020)
Location	Seoul National University
Country/Territory	Korea, Republic of
City	Soul
Period	26/04/2020 → 29/04/2020

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title = "An O(N log N) method for for second-order wave loads on a vertical pile",

abstract = "The second-order wave theory offers a welcome improvement to linear wave loads. Due to the quadratic frequency interactions, they are traditionally a magnitude more costly in terms of CPU time. We here present a method for slender vertical circular cylinders that allows their computation at an effort of O(N log N), similar to linear wave loads.",

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AU - Pegalajar-Jurado, Antonio

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N2 - The second-order wave theory offers a welcome improvement to linear wave loads. Due to the quadratic frequency interactions, they are traditionally a magnitude more costly in terms of CPU time. We here present a method for slender vertical circular cylinders that allows their computation at an effort of O(N log N), similar to linear wave loads.

AB - The second-order wave theory offers a welcome improvement to linear wave loads. Due to the quadratic frequency interactions, they are traditionally a magnitude more costly in terms of CPU time. We here present a method for slender vertical circular cylinders that allows their computation at an effort of O(N log N), similar to linear wave loads.

M3 - Paper

T2 - 35th International Workshop on Water Waves and Floating Bodies (IWWWFB 2020)

Y2 - 26 April 2020 through 29 April 2020

ER -

An O(N log N) method for for second-order wave loads on a vertical pile

Abstract

Conference

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