@comment{{Al final apareciĆ³ en 2018}}
@comment{{2015}}
@inproceedings{fredlund:wscdl,
  tipoactividad = {Ponencias en congresos},
  internacional = {yes},
  revisores = {yes},
  author = {Lars-{\AA}ke Fredlund},
  title = {Implementing {WS-CDL}},
  isbn = {84--690--2398--5},
  booktitle = {Procedings of the II Jornadas Cient{\'{i}}fico-T{\'{e}}cnicas en Servicios Web (JSWEB 2006)},
  pages = {107--113},
  year = 2006,
  address = {Santiago de Compostela, Spain},
  month = {November},
  abstract = {The WS-CDL definition, currently
a W3C candidate recommendation, describes a language
which is meant for characterising interactions
between distinct web services.
However, so far there are few tools
that allow to check and execute specifications
written in the new WS-CDL language.
Apart from missing tool support, many basic language features
are currently poorly understood.
In contrast to traditional languages
for describing Web Service interaction, the WS-CDL
does not describe traditional two-party communications from
the point-of-view of one of the participants. Rather,
the WS-CDL language describe interaction scenarios
involving multiple parties and from
a viewpoint independent of its process participants.
To allow us to experiment with the new language,
and in general gain more insight in the design
principles of the WS-CDL standard proposal,
we have implemented a tool that allow us to syntax check, execute and
debug WS-CDL descriptions, and which in the near future will
allow model checking of WS-CDL descriptions.
}
}
@inproceedings{pni:wgp06:cppt,
  tipoactividad = {Ponencias en congresos},
  internacional = {yes},
  revisores = {yes},
  author = {Pablo Nogueira},
  title = {Context-Parametric Polykinded Types},
  isbn = {1-59593-492-6},
  doi = {10.1145/1159861.1159868},
  booktitle = {Proceedings of the 1st {ACM} {SIGPLAN} {W}orkshop on {G}eneric
                  {P}rogramming - {ICFP-WGP}'06},
  pages = {45-54},
  year = 2006,
  address = {Portland (OR), USA},
  month = {September 16},
  publisher = {ACM Press},
  editor = {Ralf Hinze},
  abstract = {Generic Haskell is a language extension of Haskell for
                  polytypic programming. Constrained types are parametric
                  algebraic types with at least one argument constrained by
                  type-class membership. We explain Generic Haskell, discuss
                  the relevance of constrained types, and show that they are
                  not supported by Generic Haskell. We propose
                  context-parametric polykinded types as a solution, thereby
                  making polytypic functions generic on a larger class of
                  types. Our proposal entails an extension to the Generic
                  Haskell compiler, not the language, and is therefore
                  transparent to the generic programmer},
  pdf = {http://doi.acm.org/10.1145/1159861.1159868}
}
@inproceedings{pni:tfp06:pddr,
  tipoactividad = {Ponencias en congresos},
  internacional = {yes},
  revisores = {yes},
  author = {Louise A. Dennis and Pablo Nogueira and Raul Monroy},
  title = {Proof-directed debugging and repair},
  booktitle = {7th {S}ymposium on {T}rends in {F}unctional {P}rogramming -
                  {TFP}'06},
  year = 2006,
  editor = {Henrik Nilsson},
  address = {Nottingham, UK},
  month = {April 19-21},
  abstract = {We describe a project to refine the idea of proof-directed
                  debugging. The intention is to clarify the mechanisms by
                  which failed verification attempts can be used to isolate
                  errors in code, in particular by exploiting the ways in
                  which the branching structure of a proof can match the the
                  structure of the functional program being verified. Our
                  intention is to supply tools to support this process. We
                  then further discuss how the proof planning paradigm might
                  be used to supply additional automated support for this and,
                  in particular ways in which the automation of proof-directed
                  debugging with proof planning would allows code patches to
                  by synthesised at the same time that a bug is located and
                  diagnosed},
  pdf = {http://babel.ls.fi.upm.es/~pablo/Papers/pddr.pdf}
}
@inproceedings{mcerlang,
  author = {Lars-{\AA}ke Fredlund and Clara {Benac Earle}},
  title = {Model Checking {Erlang} Programs: The Functional Approach},
  booktitle = {ACM Sigplan International Erlang Workshop},
  year = {2006},
  address = {Portland, USA}
}

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