Difference between revisions of "Libor Běhounek"
Jump to navigation
Jump to search
| Line 20: | Line 20: | ||
===Selected publications=== |
===Selected publications=== |
||
<ul> |
<ul> |
||
| + | <li>Introduction to Mathematical Fuzzy Logic (with P. Cintula and P. |
||
| − | <li>A note on natural extensions in abstract algebraic logic (with C. Noguera). To appear in <em>Studia Logica</em>.</li> |
||
| + | Hájek). In P. Cintula, P. Hájek, C. Noguera, editors, |
||
| + | <em>Handbook of Mathematical Fuzzy Logic - Volume 1</em>, |
||
| + | volume 37 of Studies in Logic, Mathematical Logic and Foundations. |
||
| + | Pp. 1-101, London: College Publication, 2011.</li> |
||
| + | <li>Relational compositions in Fuzzy Class Theory (with M. Daňková). |
||
| − | <li>A Henkin-style proof of completeness for first-order algebraizable logics (with C. Noguera). To appear in The <em>Journal of Symbolic Logic</em>.</li> |
||
| + | <em>Fuzzy Sets and Systems</em> 160(8): 1005-1036 (2009).</li> |
||
| ⚫ | |||
| − | <li>Modal logics of uncertainty with two layer-syntax: a general completeness theorem (with C. Noguera). <em>Logic, Language, Information and Computation - 21st International Workshop, WoLLIC 2014</em>, Ulrich Kohlenbach, Pablo Barceló, Ruy de Queiroz (eds), Valparaiso, Chile, September 1-4, 2014, Lecture Notes in Computer Science, Springer, pp. 124-136.</li> |
||
| + | <li>Fuzzy Class Theory (with P. Cintula). |
||
| − | <li>The quest for the basic fuzzy logic (with C. Noguera and R. Horčík). Petr Hájek on Mathematical Fuzzy Logic, chapter 12, F. Montagna (ed), <em>Outstanding Contributions to Logic</em>, vol. 6, Springer, 2014, pp. 245-290.</li> |
||
| ⚫ | |||
| − | |||
| − | <li>Non-associative substructural logis and their semilinear extensions: axiomatization and completeness properties (with C. Noguera and R. Horčík). <em>The Review of Symbolic Logic</em> 6 (2013) 794-423.</li> |
||
| − | |||
| − | <li>The proof by cases property and its variants in structural consequence relations (with C. Noguera). <em>Studia Logica 101</em> (2013) 713-747.</li> |
||
| − | |||
| − | <li>A general framework for Mathematical Fuzzy Logic (with C. Noguera). <em>Handbook of Mathematical Fuzzy Logic - volume 1</em>, chapter II, P. Cintula, P. Hájek, C. Noguera (eds), Studies in Logic, Mathematical Logic and Foundations, vol. 37, College Publications, London, 2011, pp. 103-207.</li> |
||
| − | |||
| − | <li>Introduction to Mathematical Fuzzy Logic (with L. Běhounek and P. Hájek). In P. Cintula, P. Hájek, C. Noguera, editors, <em>Handbook of Mathematical Fuzzy Logic - Volume 1</em>, volume 37 of Studies in Logic, Mathematical Logic and Foundations. 1-101, London: College Publication, 2011.</li> |
||
| − | |||
| − | <li>Admissible rules in the implication-negation fragment of intuitionistic logic (with G. Metcalfe). <em>Annals of Pure and Applied Logic</em> 162 (2010) 162-171.</li> |
||
| − | |||
| − | <li>Implicational (Semilinear) Logics I: A New Hierarchy (with C. Noguera). <em>Archive for Mathematical Logic</em> 49 (2010) 417-446.</li> |
||
| − | |||
| − | <li>Distinguished algebraic semantics for t-norm based fuzzy logics: methods and algebraic equivalencies (with C. Noguera, F. Esteva, J. Gispert, L. Godo and F. Montagna). <em>Annals of Pure and Applied Logic</em> 160 (2009) 53-81.</li> |
||
| − | |||
| − | <li>Structural completeness in fuzzy logics (with G. Metcalfe). <em>Notre Dame Journal of Formal Logic</em> 50 (2009) 153-182.</li> |
||
| − | |||
| − | <li>Complexity issues in axiomatic extensions of Lukasiewicz logic (with P. Hájek). <em>Journal of Logic and Computation</em> 19 (2009) 245-260.</li> |
||
| − | |||
| ⚫ | |||
| − | |||
| − | <li>Formal systems of fuzzy logic and their fragments (with P. Hájek and R. Horčík). <em>Annals of Pure and Applied Logic</em> 150 (2007) 40-65.</li> |
||
| − | |||
| − | <li>On theories and models in fuzzy predicate logics (with P. Hájek). <em>Journal of Symbolic Logic</em> 71 (2006) 863-880.</li> |
||
| − | |||
| − | <li>Weakly implicative (fuzzy) logics I: Basic properties. <em>Archive for Mathematical Logic</em> 45 (2006) 673-704.</li> |
||
| − | |||
| − | <li>From fuzzy logic to fuzzy mathematics: A methodological manifesto (with L. Běhounek). <em>Fuzzy Sets and Systems</em> 157 (2006) 642-646.</li> |
||
| − | |||
| − | <li>Fuzzy logics as the logics of chains (with L. Běhounek). <em>Fuzzy Sets and Systems</em> 157 (2006) 604-610.</li> |
||
| − | |||
| ⚫ | |||
| − | |||
| − | <li>Product Lukasiewicz logic (with R. Horčík). <em>Archive for Mathematical Logic</em> 43 (2004) 477-503.</li> |
||
| − | |||
| − | <li>Advances in the LPi and LPi1/2 logics. <em>Archive for Mathematical Logic</em> 42 (2003) 449-468.</li> |
||
</ul> |
</ul> |
||
Revision as of 14:09, 28 November 2014
Affiliation
Institute of Computer Science
Academy of Sciences of the Czech Republic
Pod Vodárenskou věží 2
18207 Prague 8, Czech Republic
Institute for Research and Applications of Fuzzy Modeling
University of Ostrava
30. dubna 22, 701 03 Ostrava 1, Czech Republic
Selected publications
- Introduction to Mathematical Fuzzy Logic (with P. Cintula and P. Hájek). In P. Cintula, P. Hájek, C. Noguera, editors, Handbook of Mathematical Fuzzy Logic - Volume 1, volume 37 of Studies in Logic, Mathematical Logic and Foundations. Pp. 1-101, London: College Publication, 2011.
- Relational compositions in Fuzzy Class Theory (with M. Daňková). Fuzzy Sets and Systems 160(8): 1005-1036 (2009).
- Relations in Fuzzy Class Theory: Initial steps (with P. Cintula and U. Bodenhofer). Fuzzy Sets and Systems 159 (2008) 1729-1772.
- Fuzzy Class Theory (with P. Cintula). Fuzzy Sets and Systems 154 (2005) 34-55.