peter-2010.bib
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@comment{{Command line: bib2bib -c 'year=2010 and not annote:"skip_html" and not annote:"unpublished"' -ob peter-2010.bib -oc peter-2010.cite peter.bib}}
@proceedings{Armando:Baumgartner:Dowek:IJCAR2008JarSpecialIssue:JAR:2010,
title = {Special Issue: Selected Papers from the 4th International
Joint Conference on Automated Reasoning},
year = {2010},
optkey = {},
optbooktitle = {},
editor = {Alessandro Armando and Peter Baumgartner and Gilles Dowek},
volume = {45},
number = {2},
era = {A},
series = {Journal of Automated Reasoning},
copyright = {Copyright Springer Verlag \url{http://www.springer.com/}},
optaddress = {},
url = {http://springerlink.com/content/mt7505055125/},
month = {August},
optorganization = {},
publisher = {Springer},
note = {ISSN 0168-7433 (Print) 1573-0670 (Online)},
optannote = {}
}
@article{Baumgartner:Furbach:Pelzer:HyperTableauxCalculusEquality:2010,
author = {Peter Baumgartner and Ulrich Furbach and Bj\"orn Pelzer},
title = {The Hyper Tableaux Calculus with Equality and an
Application to Finite Model Computation},
journal = {Journal of Logic and Computation},
url = {ehyper-long.pdf},
year = {2010},
era = {A},
abstract = {In most theorem proving applications, a proper
treatment of equational theories or equality is
mandatory. In this paper we show how to integrate a
modern treat- ment of equality in the hyper tableau
calculus. It is based on splitting of positive
clauses and an adapted version of the superposition
inference rule, where equations used for
superposition are drawn (only) from a set of
positive unit clauses, and superposition
inferences into positive literals is restricted into
(positive) unit clauses only. The calculus also
features a generic, semantically justified
simplification rule which covers many redundancy
elimination techniques known from superposition
theorem proving. Our main results are soundness and
completeness of the calculus, but we also show how
to apply the calculus for finite model computation,
and we briefly describe the implementation.},
volume = {20},
number = {1},
pages = {77-109},
month = {February},
doi = {10.1093/logcom/exn061},
optannote = {}
}
@article{Baumgartner:Thorstensen:IMOverview:2010,
author = {Peter Baumgartner and Evgenij Thorstensen},
title = {Instance Based Methods --- A Brief Overview},
journal = {KI - K\"unstliche Intelligenz},
optkey = {},
volume = {24},
issue = {1},
pages = {35-42},
month = {April},
year = {2010},
abstract = {Instance-based methods are a specific class of methods
for automated proof search in first-order
logic. This article provides an overview of the
major methods in the area and discusses their
properties and relations to the more established
resolution methods. It also discusses some recent
trends on refinements and applications. This
overview is rather brief and informal, but we
provide a comprehensive literature list to follow-up
on the details.},
url = {IMoverview.pdf},
issn = {0933-1875},
doi = {10.1007/s13218-010-0002-x}
}