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author | Norbert Preining <norbert@preining.info> | 2019-09-02 13:46:59 +0900 |
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committer | Norbert Preining <norbert@preining.info> | 2019-09-02 13:46:59 +0900 |
commit | e0c6872cf40896c7be36b11dcc744620f10adf1d (patch) | |
tree | 60335e10d2f4354b0674ec22d7b53f0f8abee672 /macros/latex/contrib/siam/ltexconf.all |
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diff --git a/macros/latex/contrib/siam/ltexconf.all b/macros/latex/contrib/siam/ltexconf.all new file mode 100644 index 0000000000..2e4a638f42 --- /dev/null +++ b/macros/latex/contrib/siam/ltexconf.all @@ -0,0 +1,112 @@ + +Please answer the following: + +1. Name of conference + +2. Type of Presentation + Contributed: Lecture form + Poster form + Minisymposium: + +3. Equipment for Visual Support + Lecture Form/Minisymposium: + Overhead Projector + 2" x 2" Slide Projector (35mm) + Poster Form: + Easel Poster Board + Other (specify) + +More sophisticated equipment can be provided, but you may be +required to pay the rental fee. For details, indicate your +requirements below: + + +4. If you are a speaker in a minisymposium, who is the organizer? + +5. What is the minisymposium title? + +6. If more than one author, who will present the paper? + +% This is a macro file for creating a SIAM Conference abstract in +% LaTeX. +% +% If you have any questions regarding these macros contact: +% Lillian Hunt +% SIAM +% 3600 University City Center Center +% Philadelphia, PA 19104-2688 +% USA +% (215) 382-9800 +% e-mail:meetings@siam.org + + +\hsize=25.5pc +\vsize=50pc +\textheight 50pc +\textwidth 25.5pc +\parskip 0pt +\parindent 0pt +\pagestyle{plain} + +\def\title#1{\bf{#1}\vspace{6pt}} +\def\abstract#1{\rm {#1}\vspace{6pt}} +\def\author#1{\rm {#1}\vfill\eject} + +% end of style file + +% This is ltexconf.tex. Use this file as an example file for doing an SIAM +% Conference abstract in LaTeX. + + +\documentstyle[ltexconf]{report} +\begin{document} + +\title{Numerical Analysis of a 1-Dimensional +Immersed-Boundary\\ Method} + +\abstract{We present the numerical analysis of a simplified, +one-dimensional version +of Peskin's immersed boundary method, which has been used to +solve +the two- and three-dimensional Navier-Stokes equations in the +presence of immersed boundaries. We consider the heat +equation + in a finite domain with a moving source term. +We denote the solution as $u(x,t)$ and the location of the +source + term as $X(t)$. The source term is a moving delta function +whose strength is a function of u at the location of the +delta function. +The p.d.e. is coupled to an ordinary differential equation +whose +solution gives the location of the source term. + The o.d.e. is $X'(t) = u(X(t),t)$, which can be interpreted as +saying the source term moves at the local velocity. +The accuracy the numerical method of solution depends on how +the +delta function is discretized when the delta function is not +at +a grid point and on how the solution, u, is represented + at locations between grid points. We present results showing +the effect of different choices of spreading the source to +the grid and +of restricting the solution to the source location. +The problem we analyze is also similar to the Stefan problem +and +the immersed-boundary method has features in common with +particle-in-cell + methods.} +\author{\underbar{Richard P. Beyer, Jr.}\\ +University of Washington, Seattle, WA\\ +Randall J. LeVeque\\ +University of Washington, Seattle, WA} + +\end{document} + +% end of example file. + + + +Please furnish complete addresses all co-authors. + +PLEASE INDICATE WHAT CONFERENCE ABSTRACT IS FOR. |