SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002054237> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2002054237 endingPage "7213" @default.
W2002054237 startingPage "7187" @default.
W2002054237 abstract "One major issue in the accurate solution of advection-dominated problems by means of high-order methods is the ability of the solver to maintain monotonicity. This problem is critical for spectral elements, where Gibbs oscillations may pollute the solution. However, typical filter-based stabilization techniques used with spectral elements are not monotone. In this paper, residual-based stabilization methods originally derived for finite elements are constructed and applied to high-order spectral elements. In particular, we show that the use of the variational multiscale (VMS) method greatly improves the solution of the transport-diffusion equation by reducing over- and under-shoots, and can be therefore considered an alternative to filter-based schemes. We also combine these methods with discontinuity capturing schemes (DC) to suppress oscillations that may occur in proximity of boundaries or internal layers. Additional improvement in the solution is also obtained when a method that we call FOS (for First-Order Subcells) is used in combination with VMS and DC. In the regions where discontinuities occur, FOS subdivides a spectral element of order p into p2 subcells and then uses 1st-order basis functions and integration rules on every subcell of the element. The algorithms are assessed with the solution of classical steady and transient 1D, 2D, and pseudo-3D problems using spectral elements up to order 16." @default.
W2002054237 created "2016-06-24" @default.
W2002054237 creator A5035588123 @default.
W2002054237 creator A5039653031 @default.
W2002054237 creator A5076271069 @default.
W2002054237 creator A5091828901 @default.
W2002054237 date "2012-08-01" @default.
W2002054237 modified "2023-10-13" @default.
W2002054237 title "Variational multiscale stabilization of high-order spectral elements for the advection–diffusion equation" @default.
W2002054237 cites W108781542 @default.
W2002054237 cites W1964846831 @default.
W2002054237 cites W1965222034 @default.
W2002054237 cites W1975229625 @default.
W2002054237 cites W1975480806 @default.
W2002054237 cites W1977747817 @default.
W2002054237 cites W1979560958 @default.
W2002054237 cites W1981511599 @default.
W2002054237 cites W1985585202 @default.
W2002054237 cites W1994354228 @default.
W2002054237 cites W1994760284 @default.
W2002054237 cites W1995044934 @default.
W2002054237 cites W2000425991 @default.
W2002054237 cites W2000453080 @default.
W2002054237 cites W2009628646 @default.
W2002054237 cites W2009852560 @default.
W2002054237 cites W2011078493 @default.
W2002054237 cites W2012071009 @default.
W2002054237 cites W2013242019 @default.
W2002054237 cites W2015274185 @default.
W2002054237 cites W2019518140 @default.
W2002054237 cites W2021396980 @default.
W2002054237 cites W2023754092 @default.
W2002054237 cites W2025976061 @default.
W2002054237 cites W2027956662 @default.
W2002054237 cites W2030081022 @default.
W2002054237 cites W2031070610 @default.
W2002054237 cites W2033831488 @default.
W2002054237 cites W2036625097 @default.
W2002054237 cites W2037868447 @default.
W2002054237 cites W2039259138 @default.
W2002054237 cites W2039890134 @default.
W2002054237 cites W2042571844 @default.
W2002054237 cites W2044280672 @default.
W2002054237 cites W2051589021 @default.
W2002054237 cites W2064201813 @default.
W2002054237 cites W2065438814 @default.
W2002054237 cites W2066090268 @default.
W2002054237 cites W2070033465 @default.
W2002054237 cites W2073897969 @default.
W2002054237 cites W2075193414 @default.
W2002054237 cites W2078045751 @default.
W2002054237 cites W2078290517 @default.
W2002054237 cites W2079857520 @default.
W2002054237 cites W2081177856 @default.
W2002054237 cites W2088521789 @default.
W2002054237 cites W2093895095 @default.
W2002054237 cites W2108065374 @default.
W2002054237 cites W2125529818 @default.
W2002054237 cites W2133992989 @default.
W2002054237 cites W2145531373 @default.
W2002054237 cites W2150036513 @default.
W2002054237 cites W2155570053 @default.
W2002054237 cites W2158880811 @default.
W2002054237 cites W2159144555 @default.
W2002054237 cites W4236548481 @default.
W2002054237 doi "https://doi.org/10.1016/j.jcp.2012.06.028" @default.
W2002054237 hasPublicationYear "2012" @default.
W2002054237 type Work @default.
W2002054237 sameAs 2002054237 @default.
W2002054237 citedByCount "29" @default.
W2002054237 countsByYear W20020542372013 @default.
W2002054237 countsByYear W20020542372015 @default.
W2002054237 countsByYear W20020542372016 @default.
W2002054237 countsByYear W20020542372017 @default.
W2002054237 countsByYear W20020542372018 @default.
W2002054237 countsByYear W20020542372020 @default.
W2002054237 countsByYear W20020542372021 @default.
W2002054237 countsByYear W20020542372022 @default.
W2002054237 crossrefType "journal-article" @default.
W2002054237 hasAuthorship W2002054237A5035588123 @default.
W2002054237 hasAuthorship W2002054237A5039653031 @default.
W2002054237 hasAuthorship W2002054237A5076271069 @default.
W2002054237 hasAuthorship W2002054237A5091828901 @default.
W2002054237 hasConcept C106131492 @default.
W2002054237 hasConcept C121332964 @default.
W2002054237 hasConcept C126255220 @default.
W2002054237 hasConcept C134306372 @default.
W2002054237 hasConcept C135628077 @default.
W2002054237 hasConcept C136264566 @default.
W2002054237 hasConcept C15627037 @default.
W2002054237 hasConcept C162324750 @default.
W2002054237 hasConcept C17456955 @default.
W2002054237 hasConcept C23463724 @default.
W2002054237 hasConcept C2524010 @default.
W2002054237 hasConcept C2777042112 @default.
W2002054237 hasConcept C2778770139 @default.
W2002054237 hasConcept C2780378061 @default.
W2002054237 hasConcept C2834757 @default.