SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2117327182> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2117327182 endingPage "95" @default.
W2117327182 startingPage "81" @default.
W2117327182 abstract "The ocean is a very complex medium with scales of motion that range from thousands of kilometers to the dissipation scales. Transport by ocean currents plays an important role in many practical applications ranging from climatic problems to coastal management and accident mitigation at sea. Understanding transport is challenging because of the chaotic nature of particle motion. In the last decade, new methods have been put forth to improve our understanding of transport. Powerful tools are provided by dynamical system theory, that allow the identification of the barriers to transport and their time variability for a given flow. A shortcoming of this approach, though, is that it is based on the assumption that the velocity field is known with good accuracy, which is not always the case in practical applications. Improving model performance in terms of transport can be addressed using another important methodology that has been recently developed, namely the assimilation of Lagrangian data provided by floating buoys. The two methodologies are technically different but in many ways complementary. In this paper, we review examples of applications of both methodologies performed by the authors in the last few years, considering flows at different scales and in various ocean basins. The results are among the very first examples of applications of the methodologies to the real ocean including testing with Lagrangian in-situ data. The results are discussed in the general framework of the extended fields related to these methodologies, pointing out to open questions and potential for improvements, with an outlook toward future strategies." @default.
W2117327182 created "2016-06-24" @default.
W2117327182 creator A5005266012 @default.
W2117327182 creator A5011863591 @default.
W2117327182 creator A5015463415 @default.
W2117327182 creator A5016462567 @default.
W2117327182 creator A5029667228 @default.
W2117327182 creator A5032123704 @default.
W2117327182 creator A5032671359 @default.
W2117327182 creator A5079660912 @default.
W2117327182 date "2013-01-01" @default.
W2117327182 modified "2023-09-25" @default.
W2117327182 title "Investigating transport pathways in the ocean" @default.
W2117327182 cites W1487864575 @default.
W2117327182 cites W1491624934 @default.
W2117327182 cites W1529149187 @default.
W2117327182 cites W1570449004 @default.
W2117327182 cites W1578285471 @default.
W2117327182 cites W1627347860 @default.
W2117327182 cites W1964072699 @default.
W2117327182 cites W1964360965 @default.
W2117327182 cites W1965743902 @default.
W2117327182 cites W1966789504 @default.
W2117327182 cites W1966952868 @default.
W2117327182 cites W1973849829 @default.
W2117327182 cites W1979204798 @default.
W2117327182 cites W1981391210 @default.
W2117327182 cites W1982638983 @default.
W2117327182 cites W1991358285 @default.
W2117327182 cites W1993584488 @default.
W2117327182 cites W1994014364 @default.
W2117327182 cites W1995607920 @default.
W2117327182 cites W1996550914 @default.
W2117327182 cites W2000701933 @default.
W2117327182 cites W2000759998 @default.
W2117327182 cites W2004830858 @default.
W2117327182 cites W2008259568 @default.
W2117327182 cites W2011099176 @default.
W2117327182 cites W2012106368 @default.
W2117327182 cites W2015162183 @default.
W2117327182 cites W2018974518 @default.
W2117327182 cites W2022230591 @default.
W2117327182 cites W2024392683 @default.
W2117327182 cites W2029113191 @default.
W2117327182 cites W2030944734 @default.
W2117327182 cites W2031034935 @default.
W2117327182 cites W2039711807 @default.
W2117327182 cites W2044241224 @default.
W2117327182 cites W2048467149 @default.
W2117327182 cites W2048995400 @default.
W2117327182 cites W2056877494 @default.
W2117327182 cites W2059317222 @default.
W2117327182 cites W2059612754 @default.
W2117327182 cites W2062376374 @default.
W2117327182 cites W2064933962 @default.
W2117327182 cites W2065237830 @default.
W2117327182 cites W2068881340 @default.
W2117327182 cites W2071874398 @default.
W2117327182 cites W2072050649 @default.
W2117327182 cites W2072224206 @default.
W2117327182 cites W2081320075 @default.
W2117327182 cites W2085271015 @default.
W2117327182 cites W2087813727 @default.
W2117327182 cites W2088151578 @default.
W2117327182 cites W2089098090 @default.
W2117327182 cites W2090811657 @default.
W2117327182 cites W2093511635 @default.
W2117327182 cites W2099539908 @default.
W2117327182 cites W2099921877 @default.
W2117327182 cites W2103218341 @default.
W2117327182 cites W2105995042 @default.
W2117327182 cites W2106561179 @default.
W2117327182 cites W2114113819 @default.
W2117327182 cites W2114344483 @default.
W2117327182 cites W2114686200 @default.
W2117327182 cites W2115830792 @default.
W2117327182 cites W2120389216 @default.
W2117327182 cites W2120478110 @default.
W2117327182 cites W2121802579 @default.
W2117327182 cites W2122601151 @default.
W2117327182 cites W2125245236 @default.
W2117327182 cites W2129465294 @default.
W2117327182 cites W2131809220 @default.
W2117327182 cites W2132307308 @default.
W2117327182 cites W2133141484 @default.
W2117327182 cites W2134213743 @default.
W2117327182 cites W2137486709 @default.
W2117327182 cites W2138382705 @default.
W2117327182 cites W2144589882 @default.
W2117327182 cites W2159488764 @default.
W2117327182 cites W2164064777 @default.
W2117327182 cites W2165061770 @default.
W2117327182 cites W2167500235 @default.
W2117327182 cites W2170960657 @default.
W2117327182 cites W2172267135 @default.
W2117327182 cites W2172736747 @default.
W2117327182 cites W2176920909 @default.
W2117327182 cites W2501108685 @default.