target="_top">G. Kanschat</a>
<br>
<strong>
- deal.II - a General Purpose Object Oriented Finite Element Library
+ deal.II — a General Purpose Object Oriented Finite Element Library
</strong>
<br>
ACM Transactions on Mathematical Software, vol. 33, no. 4, to appear
<br>
<pre>
@Article{BHK07,
- author = {Wolfgang Bangerth and Ralf Hartmann and Guido Kanschat},
+ author = {W. Bangerth and R. Hartmann and G. Kanschat},
title = {deal.{II} --- a General Purpose Object Oriented Finite Element Library},
journal = {ACM Trans. Math. Software},
volume = {33},
@Manual{BHK,
title = {{\tt deal.{I}{I}} Differential Equations Analysis Library,
Technical Reference},
- author = {Wolfgang Bangerth and Ralf Hartmann and Guido Kanschat},
+ author = {W. Bangerth and R. Hartmann and G. Kanschat},
note = {\texttt{http://www.dealii.org}},
url = {http://www.dealii.org}
}</pre>
<li> <p>
<a href="http://ganymed.iwr.uni-heidelberg.de/~hartmann/"
- target="_top">Ralf Hartmann</a>
+ target="_top">R. Hartmann</a>
<br>
<strong> Adaptive Finite Element Methods for the Compressible
Euler Equations
<li> <p>
<a href="http://ganymed.iwr.uni-heidelberg.de/~hartmann"
- target="_top">Ralf Hartmann</a>
+ target="_top">R. Hartmann</a>
<br>
<strong> Adaptive FE-Methods for Conservation Equations
</strong>
<ol>
<li> <p>
<a href="http://www.math.tamu.edu/~bangerth"
- target="_top">Wolfgang Bangerth</a> and
+ target="_top">W. Bangerth</a> and
<a href="http://www.math.tamu.edu/~kanschat"
target="_top">G. Kanschat</a>
<br>
<li> <p>
<a href="http://www.math.tamu.edu/~bangerth"
- target="_top">Wolfgang Bangerth</a> and Rolf Rannacher
+ target="_top">W. Bangerth</a>, R. Rannacher
<br>
<strong> Adaptive finite element approximation of the acoustic wave
equation: Error estimation and mesh adaptation
</p>
<li> <p>
<a href="http://www.math.tamu.edu/~bangerth"
- target="_top">Wolfgang Bangerth</a> and Rolf Rannacher
+ target="_top">W. Bangerth</a>, R. Rannacher
<br>
<strong> Adaptive finite element techniques for the acoustic
wave equation
</p>
<li> <p>
- Stefan Nauber
+ S. Nauber
<br>
<strong> Adaptive Finite Elemente Verfahren für
selbstadjungierte Eigenwertprobleme