Peter Jeavons : Publications

[1]
A Geometrical Model for the SNP Motif Identification Problem
Gaofeng Huang and Peter Jeavons
In Proceedings of the 7th IEEE International Conference on Bioinformatics and Bioengineering‚ BIBE 2007. Pages 395−402. 2007.
Details about A Geometrical Model for the SNP Motif Identification Problem  BibTeX data for A Geometrical Model for the SNP Motif Identification Problem  DOI (10.1109/BIBE.2007.4375593)  Link to A Geometrical Model for the SNP Motif Identification Problem

[2]
A Structural Decomposition for Hypergraphs
P.G.Jeavons‚ D.A.Cohen and M.Gyssens
In Contemporary Mathematics. No. 178. Pages 161–177. 1994.
Details about A Structural Decomposition for Hypergraphs  BibTeX data for A Structural Decomposition for Hypergraphs  Link to A Structural Decomposition for Hypergraphs

[3]
A Substitution Operation for Constraints
P.G.Jeavons‚ D.A.Cohen and M.C.Cooper
In Proceedings of the 1st International Conference on Principles and Practice of Constraint Programming (CP95). Vol. 874 of Lecture Notes in Computer Science. Pages 161−177. 1995.
Details about A Substitution Operation for Constraints  BibTeX data for A Substitution Operation for Constraints  DOI (10.1007/3540586016_85)  Link to A Substitution Operation for Constraints

[4]
A Survey of Tractable Constraint Satisfaction Problems
J.K.Pearson and P.G.Jeavons
No. CSD−TR−97−15. Royal Holloway‚ University of London. July, 1997.
Details about A Survey of Tractable Constraint Satisfaction Problems  BibTeX data for A Survey of Tractable Constraint Satisfaction Problems  Link to A Survey of Tractable Constraint Satisfaction Problems

[5]
A Test for Tractability
P.G.Jeavons‚ D.A.Cohen and M.Gyssens
In Proceedings of the 2nd International Conference on Principles and Practice of Constraint Programming (CP96). Vol. 1118 of Lecture Notes in Computer Science. Pages 267−281. 1996.
Details about A Test for Tractability  BibTeX data for A Test for Tractability  DOI (10.1007/3540615512_80)  Link to A Test for Tractability

[6]
A Unifying Framework for Tractable Constraints
P.G.Jeavons‚ D.A.Cohen and M.Gyssens
In Proceedings of the 1st International Conference on Principles and Practice of Constraint Programming (CP95). Vol. 976 of Lecture Notes in Computer Science. Pages 276−291. 1995.
Details about A Unifying Framework for Tractable Constraints  BibTeX data for A Unifying Framework for Tractable Constraints  DOI (10.1007/3540602992_17)  Link to A Unifying Framework for Tractable Constraints

[7]
A complete characterization of complexity for Boolean constraint optimization problems
David Cohen‚ Martin Cooper and Peter Jeavons
In Proceedings of CP'04. No. 3258. Pages 212–226. 2004.
Details about A complete characterization of complexity for Boolean constraint optimization problems  BibTeX data for A complete characterization of complexity for Boolean constraint optimization problems  Link to A complete characterization of complexity for Boolean constraint optimization problems

[8]
A complete classification of complexity in Allen's algebra in the presence of a non−trivial basic relation
Andrei Krokhin‚ Peter Jeavons and Peter Jonsson
In Proceedings of IJCAI'01‚ Seattle‚ USA. Pages 83–88. 2001.
Longer version available as an OUCL Research Report : http://web.comlab.ox.ac.uk/oucl/publications/tr/rr0102.html
Details about A complete classification of complexity in Allen's algebra in the presence of a non−trivial basic relation  BibTeX data for A complete classification of complexity in Allen's algebra in the presence of a non−trivial basic relation

[9]
A maximal tractable class of soft constraints
David Cohen‚ Martin Cooper‚ Peter Jeavons and Andrei Krokhin
In Journal of Artificial Intelligence Research. No. 22. Pages 01/01/22. 2004.
Earlier version appeared in: Proceedings of IJCAI'03‚ pp. 209−214: http://www.comlab.ox.ac.uk/activities/constraints/publications/IJCAI03submodular.pdf
Details about A maximal tractable class of soft constraints  BibTeX data for A maximal tractable class of soft constraints  Link to A maximal tractable class of soft constraints

[10]
A unified theory of structural tractability for constraint satisfaction problems
David Cohen‚ Peter Jeavons and Marc Gyssens
In Journal of Computer and System Sciences. Vol. 74. Pages 721−743. 2008.
Earlier‚ uncorrected‚ version appears in Proceedings of IJCAI'05‚ pp. 72–77: http://www.ijcai.org/papers/0521.pdf
Details about A unified theory of structural tractability for constraint satisfaction problems  BibTeX data for A unified theory of structural tractability for constraint satisfaction problems  DOI (10.1016/j.jcss.2007.08.001)  Download (pdf) of A unified theory of structural tractability for constraint satisfaction problems

[11]
Algebraic structures in combinatorial problems
Andrei Bulatov and Peter Jeavons
No. MATH−AL−4−2001. Technische Universitat Dresden. 2001.
Details about Algebraic structures in combinatorial problems  BibTeX data for Algebraic structures in combinatorial problems  Link to Algebraic structures in combinatorial problems

[12]
An Algebraic Theory of Complexity for Valued Constraints: Establishing a Galois Connection
David A. Cohen‚ Paidi Creed‚ Peter G. Jeavons and Stanislav Zivny
No. RR−10−16. OUCL. November, 2010.
Details about An Algebraic Theory of Complexity for Valued Constraints: Establishing a Galois Connection  BibTeX data for An Algebraic Theory of Complexity for Valued Constraints: Establishing a Galois Connection  Download (pdf) of An Algebraic Theory of Complexity for Valued Constraints: Establishing a Galois Connection

[13]
An algebraic approach to multi−sorted constraints
Andrei Bulatov and Peter Jeavons
In Proceedings of CP'03. No. 2833. Pages 183–198. 2003.
Earlier version available as an OUCL Research Report : http://web.comlab.ox.ac.uk/oucl/publications/tr/rr0118.html
Details about An algebraic approach to multi−sorted constraints  BibTeX data for An algebraic approach to multi−sorted constraints  Download (pdf) of An algebraic approach to multi−sorted constraints

[14]
An algebraic characterisation of complexity for valued constraints
David Cohen‚ Martin Cooper and Peter Jeavons
In Proceedings of the 12th International Conference on Principles and Practice of Contraint Programming (CP'06). Vol. 4204 of Lecture Notes in Computer Science. Pages 107−121. 2006.
Details about An algebraic characterisation of complexity for valued constraints  BibTeX data for An algebraic characterisation of complexity for valued constraints  DOI (10.1007/11889205_10)  Download (pdf) of An algebraic characterisation of complexity for valued constraints

[15]
An algebraic theory of complexity for discrete optimisation
David A. Cohen‚ Martin C. Cooper‚ Páidí Creed‚ Peter Jeavons and Stanislav Živný
In SIAM Journal on Computing. Vol. 42. No. 5. Pages 1915−1939. 2013.
Details about An algebraic theory of complexity for discrete optimisation  BibTeX data for An algebraic theory of complexity for discrete optimisation  DOI (10.1137/130906398)  Download (pdf) of An algebraic theory of complexity for discrete optimisation

[16]
An algebraic theory of complexity for valued constraints: Establishing a Galois connection
David A. Cohen‚ Páidí Creed‚ Peter G. Jeavons and Stanislav Živný
In Proceedings of the 36th International Symposium on Mathematical Foundations of Computer Science (MFCS'11). Vol. 6907 of Lecture Notes in Computer Science. Pages 231–242. Springer. 2011.
Details about An algebraic theory of complexity for valued constraints: Establishing a Galois connection  BibTeX data for An algebraic theory of complexity for valued constraints: Establishing a Galois connection  DOI (10.1007/9783642229930_23)  Download (pdf) of An algebraic theory of complexity for valued constraints: Establishing a Galois connection

[17]
Are there optimal reuse distance constraints for FAPs with random Tx placements?
J.E.Bater‚ P.G.Jeavons and D.A.Cohen
No. CSD−TR−98−01. Royal Holloway‚ University of London. February, 1998.
Details about Are there optimal reuse distance constraints for FAPs with random Tx placements?  BibTeX data for Are there optimal reuse distance constraints for FAPs with random Tx placements?  Link to Are there optimal reuse distance constraints for FAPs with random Tx placements?

[18]
Automatic analysis of agarose gel images
Jonathan Flint P. S. Umesh Adiga A. Bhomra M. G. Turri A. Nicod S. R. Datta Peter Jeavons Richard Mott
In Bioinformatics. Vol. 17. No. 11. Pages 1084−1089. 2001.
Details about Automatic analysis of agarose gel images  BibTeX data for Automatic analysis of agarose gel images  Link to Automatic analysis of agarose gel images

[19]
Binarisation via dualisation for valued constraints
David A. Cohen‚ Martin C. Cooper‚ Peter Jeavons and Stanislav Živný
In Proceedings of the Twenty−Ninth AAAI Conference on Artificial Intelligence. Pages 3731–3737. AAAI Press. 2015.
Details about Binarisation via dualisation for valued constraints  BibTeX data for Binarisation via dualisation for valued constraints  Link to Binarisation via dualisation for valued constraints

[20]
Building tractable disjunctive constraints
David Cohen‚ Peter Jeavons‚ Peter Jonsson and Manolis Koubarakis
In Journal of the ACM. No. 47. Pages 826–853. 2000.
Details about Building tractable disjunctive constraints  BibTeX data for Building tractable disjunctive constraints  DOI (10.1145/355483.355485)  Link to Building tractable disjunctive constraints

[21]
Characterising Tractable Constraints
M.C.Cooper‚ D.A.Cohen and P.G.Jeavons
In Artificial Intelligence. No. 65(2). Pages 347–361. 1994.
Details about Characterising Tractable Constraints  BibTeX data for Characterising Tractable Constraints  Link to Characterising Tractable Constraints

[22]
Characterization of the putative operon containing arylamine N−acetyltransferase (nat) in Mycobacterium bovis BCG
E. Sim M. Anderton S. Bhakta G. Besra P. Jeavons L. Eltis
In Molecular Microbiology. Vol. 59. No. 1. Pages 181−192. 2006.
Details about Characterization of the putative operon containing arylamine N−acetyltransferase (nat) in Mycobacterium bovis BCG  BibTeX data for Characterization of the putative operon containing arylamine N−acetyltransferase (nat) in Mycobacterium bovis BCG  DOI (10.1111/j.13652958.2005.04945.x)  Link to Characterization of the putative operon containing arylamine N−acetyltransferase (nat) in Mycobacterium bovis BCG

[23]
Classes of submodular constraints expressible by graph cuts
Stanislav Živný and Peter G. Jeavons
In Constraints. Vol. 15. No. 3. Pages 430−452. 2010.
Details about Classes of submodular constraints expressible by graph cuts  BibTeX data for Classes of submodular constraints expressible by graph cuts  DOI (10.1007/s106010099078z)  Download (pdf) of Classes of submodular constraints expressible by graph cuts

[24]
Classes of submodular constraints expressible by graph cuts
Stanislav Živný and Peter G. Jeavons
In Proceedings of the 14th International Conference on Principles and Practice of Constraint Programming (CP'08). Vol. 5202 of Lecture Notes in Computer Science. Pages 112−127. 2008.
Details about Classes of submodular constraints expressible by graph cuts  BibTeX data for Classes of submodular constraints expressible by graph cuts  DOI (10.1007/9783540859581_8)  Download (pdf) of Classes of submodular constraints expressible by graph cuts

[25]
Classifying the complexity of constraints using finite algebras
Andrei Bulatov‚ Peter Jeavons and Andrei Krokhin
In SIAM Journal on Computing. No. 34. Pages 720−742. 2005.
Details about Classifying the complexity of constraints using finite algebras  BibTeX data for Classifying the complexity of constraints using finite algebras  DOI (10.1137/S0097539700376676)  Download (pdf) of Classifying the complexity of constraints using finite algebras

[26]
Closure Properties of Constraints
P.G.Jeavons‚ D.A.Cohen and M.Gyssens
In Journal of the ACM. No. 44. Pages 527–548. 1997.
Details about Closure Properties of Constraints  BibTeX data for Closure Properties of Constraints  Link to Closure Properties of Constraints

[27]
Constraint Tractability Theory And Its Application to the Product Development Process for a Constraint−Based Scheduler
Lisa Purvis and Peter Jeavons
In Proceedings of the 1st International Conference on The Practical Application of Constraint Technologies and Logic Programming. Pages 63–79. 1999.
This paper was awarded First Prize in the Constraints Technologies area of PACLP'99
Details about Constraint Tractability Theory And Its Application to the Product Development Process for a Constraint−Based Scheduler  BibTeX data for Constraint Tractability Theory And Its Application to the Product Development Process for a Constraint−Based Scheduler  Link to Constraint Tractability Theory And Its Application to the Product Development Process for a Constraint−Based Scheduler

[28]
Constraint satisfaction problems and finite algebras
Andrei Bulatov‚ Andrei Krokhin and Peter Jeavons
In Proceedings of ICALP'00. No. 1853. Pages 272–282. 2000.
Longer version available as an OUCL Technical Report : http://web.comlab.ox.ac.uk/oucl/publications/tr/tr499.html
Details about Constraint satisfaction problems and finite algebras  BibTeX data for Constraint satisfaction problems and finite algebras  DOI (10.1007/354045022X_24)  Link to Constraint satisfaction problems and finite algebras

[29]
Constraint satisfaction problems on intervals and lengths
Andrei Krokhin‚ Peter Jeavons and Peter Jonsson
In SIAM Journal on Discrete Mathematics. No. 17. Pages 453–477. 2004.
Earlier version appears in Proceedings of STACS'02‚ Lecture Notes in Computer Science‚ 2285‚ (2002)‚ pp. 443–454: http://link.springer.de/link/service/series/0558/bibs/2285/22850443.htm Preprint version available from Electronic Colloquium on Computational Complexity‚ as Report TR01−077: http://eccc.hpiweb.de/report/2001/077/
Details about Constraint satisfaction problems on intervals and lengths  BibTeX data for Constraint satisfaction problems on intervals and lengths  Link to Constraint satisfaction problems on intervals and lengths

[30]
Constraints and Universal Algebra
P.G.Jeavons‚ D.A.Cohen and J.K.Pearson
In Annals of Mathematics and Artificial Intelligence. No. 24. Pages 51–67. 1998.
Details about Constraints and Universal Algebra  BibTeX data for Constraints and Universal Algebra  Link to Constraints and Universal Algebra

[31]
Constraints‚ Consistency and Closure
P.G.Jeavons‚ D.A.Cohen and M.Cooper
In Artificial Intelligence. No. 101 (1−2). Pages 251–265. 1998.
Details about Constraints‚ Consistency and Closure  BibTeX data for Constraints‚ Consistency and Closure  Link to Constraints‚ Consistency and Closure

[32]
Constructing constraints
P.G.Jeavons
In Proceedings of the 4th International Conference on Principles and Practice of Constraint Programming (CP98). Vol. 1520 of Lecture Notes in Computer Science. Pages 2−16. 1998.
Details about Constructing constraints  BibTeX data for Constructing constraints  DOI (10.1007/3540494812_2)  Link to Constructing constraints

[33]
Decomposing Constraint Satisfaction Problems Using Database Techniques
M.Gyssens‚ P.G.Jeavons and D.A.Cohen
In Artificial Intelligence. No. 66(1). Pages 57−89. 1994.
Details about Decomposing Constraint Satisfaction Problems Using Database Techniques  BibTeX data for Decomposing Constraint Satisfaction Problems Using Database Techniques  Link to Decomposing Constraint Satisfaction Problems Using Database Techniques

[34]
Derivation of Constraints and Database Relations
D.A.Cohen‚ M.Gyssens and P.G.Jeavons
In Proceedings of the 2nd International Conference on Principles and Practice of Constraint Programming (CP96). Vol. 1118 of Lecture Notes in Computer Science. Pages 134–148. 1996.
Details about Derivation of Constraints and Database Relations  BibTeX data for Derivation of Constraints and Database Relations  DOI (10.1007/3540615512_71)  Link to Derivation of Constraints and Database Relations

[35]
Enhancing the prediction of transcription factor binding sites by incorporating structural properties and nucleotide covariations
Z. Zhang S. Gunewardena P. Jeavons
In Journal of Computational Biology. Vol. 13. No. 4. Pages 929−945. 2006.
Details about Enhancing the prediction of transcription factor binding sites by incorporating structural properties and nucleotide covariations  BibTeX data for Enhancing the prediction of transcription factor binding sites by incorporating structural properties and nucleotide covariations  DOI (10.1089/cmb.2006.13.929)  Link to Enhancing the prediction of transcription factor binding sites by incorporating structural properties and nucleotide covariations

[36]
Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs
Gaofeng Huang‚ Peter Jeavons and Dominic Kwiatkowski
No. RR−05−03. Oxford University Computing Laboratory. July, 2005.
Details about Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs  BibTeX data for Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs  Download (ps) of Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs

[37]
Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs
Gaofeng Huang‚ Peter Jeavons and Dominic Kwiatkowski
In Proceedings of 5th Asia−Pacific Bioinformatics Conference‚ APBC 2007. Vol. 5 of Advances in Bioinformatics and Computational Biology. Pages 175−184. Imperial College Press. 2007.
Details about Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs  BibTeX data for Exact and Heuristic Approaches for Identifying Disease−Associated SNP Motifs

[38]
Expressiveness of Binary Constraints for the Frequency Assignment Problem
N.W.Dunkin and P.G.Jeavons
In DIAL−M Workshop‚ 3rd Annual ACM/IEEE International Conference on Mobile Computing and Networking (MOBICOM'97). 1997.
Details about Expressiveness of Binary Constraints for the Frequency Assignment Problem  BibTeX data for Expressiveness of Binary Constraints for the Frequency Assignment Problem  Link to Expressiveness of Binary Constraints for the Frequency Assignment Problem

[39]
Feedback from nature: an optimal distributed algorithm for maximal independent set selection
Alex Scott‚ Peter Jeavons and Lei Xu
In Panagiota Fatourou and Gadi Taubenfeld, editors, ACM Symposium on Principles of Distributed Computing‚ PODC '13‚ Montreal‚ QC‚ Canada‚ July 22−24‚ 2013. Pages 147−156. 2013.
Details about Feedback from nature: an optimal distributed algorithm for maximal independent set selection  BibTeX data for Feedback from nature: an optimal distributed algorithm for maximal independent set selection  DOI (10.1145/2484239.2484247)

[40]
Finding transcription factor binding sites in DNA Sequences: A template based approach
Sumedha Gunewardena and Peter Jeavons
No. RR−03−21. Oxford University Computing Laboratory. October, 2003.
Details about Finding transcription factor binding sites in DNA Sequences: A template based approach  BibTeX data for Finding transcription factor binding sites in DNA Sequences: A template based approach  Download (ps) of Finding transcription factor binding sites in DNA Sequences: A template based approach

[41]
Finite semigroups imposing tractable constraints
Andrei Bulatov‚ Peter Jeavons and Mikhail Volkov
In Proceedings of the School on Algorithmic Aspects of the Theory of Semigroups and its Applications‚ Coimbra‚ Portugal‚ 2001. Pages 313–329. World Scientific‚ Singapore. 2002.
Details about Finite semigroups imposing tractable constraints  BibTeX data for Finite semigroups imposing tractable constraints

[42]
Functions of multiple−valued logic and the complexity of constraint satisfaction: A short survey
Andrei Krokhin‚ Andrei Bulatov and Peter Jeavons
In Proceedings of 33rd IEEE International Symposium on Multiple−Valued Logic (ISMVL'03). Pages 343–351. 2003.
Details about Functions of multiple−valued logic and the complexity of constraint satisfaction: A short survey  BibTeX data for Functions of multiple−valued logic and the complexity of constraint satisfaction: A short survey  Link to Functions of multiple−valued logic and the complexity of constraint satisfaction: A short survey

[43]
Generalising Submodularity and Horn Clauses: Tractable optimization problems defined by tournament pair multimorphisms
Peter Jeavons‚ Martin C Cooper and David A Cohen
No. RR−06−06. Oxford University Computing Laboratory. December, 2006.
Details about Generalising Submodularity and Horn Clauses: Tractable optimization problems defined by tournament pair multimorphisms  BibTeX data for Generalising Submodularity and Horn Clauses: Tractable optimization problems defined by tournament pair multimorphisms  Download (pdf) of Generalising Submodularity and Horn Clauses: Tractable optimization problems defined by tournament pair multimorphisms

[44]
Generalising submodularity and Horn clauses: tractable optimization problems defined by tournament pair multimorphisms
David Cohen‚ Martin Cooper and Peter Jeavons
In Theoretical Computer Science. Vol. 401. No. 1−3. Pages 36−51. 2008.
Details about Generalising submodularity and Horn clauses: tractable optimization problems defined by tournament pair multimorphisms  BibTeX data for Generalising submodularity and Horn clauses: tractable optimization problems defined by tournament pair multimorphisms  DOI (doi:10.1016/j.tcs.2008.03.015)

[45]
Generalizing constraint satisfaction on trees: Hybrid tractability and variable elimination
Martin C. Cooper‚ Peter G. Jeavons and András Z. Salamon
In Artif. Intell.. Vol. 174. No. 9−10. Pages 570−584. 2010.
Details about Generalizing constraint satisfaction on trees: Hybrid tractability and variable elimination  BibTeX data for Generalizing constraint satisfaction on trees: Hybrid tractability and variable elimination  DOI (10.1016/j.artint.2010.03.002)

[46]
How to determine the expressive power of constraints
P.G.Jeavons‚ D.A.Cohen and M.Gyssens
In Constraints. No. 4. Pages 113–131. 1999.
Details about How to determine the expressive power of constraints  BibTeX data for How to determine the expressive power of constraints  Link to How to determine the expressive power of constraints

[47]
Hybrid tractable CSPs which generalize tree structure
Martin C. Cooper‚ Peter G. Jeavons and András Z. Salamon
In Nikos Avouris Malik Ghallab Constantine D. Spyropoulos Nikos Fakotakis, editor, ECAI 2008‚ Proceedings of the 18th European Conference on Artificial Intelligence‚ July 21–25‚ Patras‚ Greece. Vol. 178 of Frontiers in Artificial Intelligence and Applications. Pages 530–534. IOS Press. 2008.
Best paper award.
Details about Hybrid tractable CSPs which generalize tree structure  BibTeX data for Hybrid tractable CSPs which generalize tree structure  Download (pdf) of Hybrid tractable CSPs which generalize tree structure

[48]
Implementing a test for tractability
Richard Gault and Peter Jeavons
In Constraints. Vol. 9. Pages 139–160. 2004.
Details about Implementing a test for tractability  BibTeX data for Implementing a test for tractability  Link to Implementing a test for tractability

[49]
Information categorisation in biological sequence alignments
Sumedha Gunewardena and Peter Jeavons
No. RR−04−24. Oxford University Computing Laboratory. November, 2004.
Details about Information categorisation in biological sequence alignments  BibTeX data for Information categorisation in biological sequence alignments  Download (ps) of Information categorisation in biological sequence alignments

[50]
Learnability of quantified formulas
Victor Dalmau and Peter Jeavons
In Theoretical Computer Science. No. 306. Pages 485–511. 2003.
Earlier version appeared in Proceedings of EuroCOLT 99‚ Nordkirchen‚ Germany‚ (1999)‚ pp. 63−78 : http://link.springer.de/link/service/series/0558/bibs/1572/15720063.htm
Details about Learnability of quantified formulas  BibTeX data for Learnability of quantified formulas  Link to Learnability of quantified formulas

[51]
Local Consistency and SAT−Solvers
Peter Jeavons and Justyna Petke
In Journal of Artificial Intelligence Research (JAIR). Vol. 43. Pages 329−351. 2012.
Details about Local Consistency and SAT−Solvers  BibTeX data for Local Consistency and SAT−Solvers  DOI (10.1613/jair.3531)  Link to Local Consistency and SAT−Solvers

[52]
Local consistency and SAT−solvers
Peter Jeavons and Justyna Petke
In Proceedings of the 16th International Conference on Principles and Practice of Constraint Programming − CP 2010. Vol. 6308 of Lecture Notes in Computer Science. Pages 398−413. Springer. 2010.
Details about Local consistency and SAT−solvers  BibTeX data for Local consistency and SAT−solvers  Download (pdf) of Local consistency and SAT−solvers  DOI (10.1007/9783642153969_33)

[53]
Minimal Weighted Clones with Boolean Support
Peter G. Jeavons‚ Andrius Vaicenavičius and Stanislav Živný
In Takahiro Hanyu, editor, Proceedings of the 46th IEEE International Symposium on Multiple−Valued Logic‚ ISMVL 2016‚ Sapporo‚ Japan‚ May 18−20‚ 2016. Pages 90–95. IEEE Computer Society. May, 2016.
Details about Minimal Weighted Clones with Boolean Support  BibTeX data for Minimal Weighted Clones with Boolean Support  Link to Minimal Weighted Clones with Boolean Support

[54]
New Tractable Classes From Old
David Cohen‚ Peter Jeavons and Richard Gault
No. 8. Pages 263–282. 2003.
Earlier version appears in Proceedings of CP2000‚ Lecture Notes In Computer Science‚ 1894‚ 2000‚ pp. 160–171 : http://link.springer.de/link/service/series/0558/bibs/1894/18940160.htm
Details about New Tractable Classes From Old  BibTeX data for New Tractable Classes From Old  DOI (10.1023/A:1025623111033)

[55]
On The Algebraic Structure Of Combinatorial Problems
P.G.Jeavons
In Theoretical Computer Science. No. 200. Pages 185–204. 1998.
Details about On The Algebraic Structure Of Combinatorial Problems  BibTeX data for On The Algebraic Structure Of Combinatorial Problems  Link to On The Algebraic Structure Of Combinatorial Problems

[56]
Optimization Methods for the Partner Units Problem
Markus Aschinger‚ Conrad Drescher‚ Gerhard Friedrich‚ Georg Gottlob‚ Peter Jeavons‚ Anna Ryabokon and Evgenĳ Thorstensen
In Proceedings of the 8th International Conference on Integration of Artificial Intelligence and Operations Research Techniques in Constraint Programming for Combinatorial Optimization Problems (CPAIOR 2011). Berlin‚ Germany. 2011.
Details about Optimization Methods for the Partner Units Problem  BibTeX data for Optimization Methods for the Partner Units Problem  Download (pdf) of Optimization Methods for the Partner Units Problem

[57]
Patterns from nature: Distributed greedy colouring with simple messages and minimal graph knowledge
Lei Xu and Peter Jeavons
In Information Sciences. Vol. 316. Pages 550−566. 2015.
Details about Patterns from nature: Distributed greedy colouring with simple messages and minimal graph knowledge  BibTeX data for Patterns from nature: Distributed greedy colouring with simple messages and minimal graph knowledge  DOI (doi:10.1016/j.ins.2014.06.035)  Link to Patterns from nature: Distributed greedy colouring with simple messages and minimal graph knowledge

[58]
Perfect Constraints Are Tractable
András Z. Salamon and Peter G. Jeavons
In Proceedings of the 14th International Conference on Principles and Practice of Constraint Programming‚ CP 2008‚ Sydney‚ Australia‚ 14–18 September. Vol. 5202 of Lecture Notes in Computer Science. Pages 524−528. Springer. 2008.
Details about Perfect Constraints Are Tractable  BibTeX data for Perfect Constraints Are Tractable  DOI (10.1007/9783540859581_35)  Download (pdf) of Perfect Constraints Are Tractable

[59]
Presenting Constraints
Peter Jeavons
In Martin Giese and Arild Waaler, editors, TABLEAUX. Vol. 5607 of Lecture Notes in Computer Science. Pages 1−15. Springer. 2009.
Details about Presenting Constraints  BibTeX data for Presenting Constraints  DOI (10.1007/9783642027161_1)

[60]
Quantified constraints: algorithms and complexity
Ferdinand Börner‚ Andrei Bulatov‚ Peter Jeavons and Andrei Krokhin
In Proceedings of CSL'03. No. 2803. Pages 58–70. 2003.
Longer version available as an OUCL Research Report: http://web.comlab.ox.ac.uk/oucl/publications/tr/rr0211.html
Details about Quantified constraints: algorithms and complexity  BibTeX data for Quantified constraints: algorithms and complexity  DOI (10.1007/b13224)  Download (pdf) of Quantified constraints: algorithms and complexity

[61]
Reasoning about temporal relations : the tractable subalgebras of Allen's interval algebra
Andrei Krokhin‚ Peter Jeavons and Peter Jonsson
In Journal of the ACM. No. 50. Pages 591–640. 2003.
Earlier version available as an OUCL Research Report : http://web.comlab.ox.ac.uk/oucl/publications/tr/rr0112.html
Details about Reasoning about temporal relations : the tractable subalgebras of Allen's interval algebra  BibTeX data for Reasoning about temporal relations : the tractable subalgebras of Allen's interval algebra  DOI (10.1145/876638.876639)

[62]
Recovering a Relation from a Decomposition using Constraint Satisfaction Techniques
P.G.Jeavons
In Information Sciences. No. 78. Pages 229–256. 1994.
Details about Recovering a Relation from a Decomposition using Constraint Satisfaction Techniques  BibTeX data for Recovering a Relation from a Decomposition using Constraint Satisfaction Techniques  Link to Recovering a Relation from a Decomposition using Constraint Satisfaction Techniques

[63]
Representing and Solving Finite−Domain Constraint Problems Using Systems of Polynomials
Chris Jefferson‚ Peter Jeavons‚ Martin J. Green and M.R.C. van Dongen
No. RR−07−07. Oxford University Computing Laboratory. October, 2007.
Details about Representing and Solving Finite−Domain Constraint Problems Using Systems of Polynomials  BibTeX data for Representing and Solving Finite−Domain Constraint Problems Using Systems of Polynomials  Download (pdf) of Representing and Solving Finite−Domain Constraint Problems Using Systems of Polynomials

[64]
Representing and Solving Finite−Domain Constraint Problems using Systems of Polynomials (Extended Abstract)
Chris Jefferson‚ Peter Jeavons‚ Martin J. Green and M.R.C. van Dongen
In Principles and Practice of Constraint Programming − Proceedings of CP2015. 2015.
Details about Representing and Solving Finite−Domain Constraint Problems using Systems of Polynomials (Extended Abstract)  BibTeX data for Representing and Solving Finite−Domain Constraint Problems using Systems of Polynomials (Extended Abstract)  Download (pdf) of Representing and Solving Finite−Domain Constraint Problems using Systems of Polynomials (Extended Abstract)

[65]
Representing and solving finite−domain constraint problems using systems of polynomials
Christopher Jefferson‚ Peter Jeavons‚ Martin J. Green and Marc R. C. van Dongen
In Annals of Mathematics and Artificial Intelligence. Vol. 67. No. 3−4. Pages 359−382. 2013.
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[66]
Simple Algorithms for Distributed Leader Election in Anonymous Synchronous Rings and Complete Networks Inspired by Neural Development in Fruit Flies
Lei Xu and Peter Jeavons
In International Journal of Neural Systems. 2015.
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[67]
Simple Neural−Like P Systems for Maximal Independent Set Selection
Lei Xu and Peter G. Jeavons
In Neural Computation. Vol. 25. No. 6. Pages 1642−1659. 2013.
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[68]
Soft constraints: complexity and multimorphsims
David Cohen‚ Martin Cooper‚ Peter Jeavons and Andrei Krokhin
In Proceedings of CP'03. No. 2833. Pages 244–258. 2003.
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[69]
Steering Evolution with Sequential Therapy to Prevent the Emergence of Bacterial Antibiotic Resistance
Daniel Nichol‚ Peter Jeavons‚ Alexander G. Fletcher‚ Robert A. Bonomo‚ Philip K. Maini‚ Jerome L. Paul‚ Robert A. Gatenby‚ Alexander R.A. Anderson and Jacob G. Scott
In PLoS Computational Biology. 2015.
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[70]
Structural Decomposition Methods‚ and What They are Good For
Markus Aschinger‚ Conrad Drescher‚ Georg Gottlob‚ Peter Jeavons and Evgenĳ Thorstensen
2011.
Invited Paper at STACS 2011
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[71]
Structural Theory of Automata‚ Semigroups‚ and Universal Algebra
Andrei Krokhin‚ Andrei Bulatov and Peter Jeavons
In Proceedings of SMS−NATO ASI. Pages 181−213. University of Montreal. 2003.
Earlier version available as an OUCL Research Report: http://web.comlab.ox.ac.uk/oucl/publications/tr/rr0408.html
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[72]
Supermodular Functions and the Complexity of MAX CSP
David Cohen‚ Martin Cooper‚ Peter Jeavons and Andrei Krokhin
No. RR−04−01. Oxford University Computing Laboratory. January, 2004.
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[73]
Supermodular functions and the complexity of MAX CSP
David Cohen‚ Martin Cooper‚ Peter Jeavons and Andrei Krokhin
In Discrete Applied Mathematics. Vol. 149. Pages 53−72. 2005.
Earlier version appeared as Identifying efficiently solvable cases of Max CSP http://web.comlab.ox.ac.uk/oucl/research/areas/constraints/publications/STACS04maxCSP.ps in: Proceedings of STACS'04‚ Lecture Notes in Computer Science 2996 (2004)
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[74]
Symmetry definitions for constraint satisfaction problems
David Cohen‚ Peter Jeavons‚ Christopher Jefferson‚ Karen Petrie and Barbara Smith
In Constraints. Vol. 11. Pages 115−137. 2006.
Received a Best Paper award.
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[75]
Tackling the Partner Units Configuration Problem
Markus Aschinger‚ Conrad Drescher‚ Gerhard Friedrich‚ Georg Gottlob‚ Peter Jeavons‚ Anna Ryabokon and Evgenĳ Thorstensen
No. CS−RR−10−28. Computing Laboratory‚ University of Oxford. 2010.
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[76]
Tackling the Partner Units Configuration Problem
Markus Aschinger‚ Conrad Drescher‚ Georg Gottlob‚ Peter Jeavons and Evgenĳ Thorstensen
In Proceedings of the 22nd International Joint Conference on Artificial Intelligence (IJCAI 2011). Barcelona‚ Spain. 2011.
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[77]
The Complexity of Constraint Satisfaction: An Algebraic Approach
Andrei Krokhin‚ Andrei Bulatov and Peter Jeavons
No. RR−04−08. Oxford University Computing Laboratory. May, 2004.
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[78]
The Expressive Power of Binary Submodular Functions
Stanislav Živný‚ David A. Cohen and Peter G. Jeavons
2008.
arXiv:0811.1885 [cs.DM]
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[79]
The complexity of constraint languages
David Cohen and Peter Jeavons
In Handbook of Constraint Programming. Chapter 8. Elsevier. 2006.
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[80]
The complexity of constraint satisfaction games and QCSP
Ferdinand Börner‚ Andrei A. Bulatov‚ Hubie Chen‚ Peter Jeavons and Andrei A. Krokhin
In Inf. Comput.. Vol. 207. No. 9. Pages 923−944. 2009.
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[81]
The complexity of maximal constraint languages
Andrei Bulatov‚ Andrei Krokhin and Peter Jeavons
In Proceedings of STOC'01‚ Crete‚ Greece. Pages 667–674. 2001.
Earlier version available as an OUCL Research Report : http://web.comlab.ox.ac.uk/oucl/publications/tr/rr0103.html
Details about The complexity of maximal constraint languages  BibTeX data for The complexity of maximal constraint languages  DOI (10.1145/380752.380868)

[82]
The complexity of soft constraint satisfaction
David Cohen‚ Martin Cooper‚ Peter Jeavons and Andrei Krokhin
In Artificial Intelligence. Vol. 170. Pages 983−1016. 2006.
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[83]
The complexity of valued constraint models
Stanislav Živný and Peter G. Jeavons
In Proceedings of the 15th International Conference on Principles and Practice of Constraint Programming (CP'09). No. 5732. 2009.
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[84]
The complexity of valued constraint satisfaction
Peter Jeavons‚ Andrei Krokhin and Stanislav Živný
In Bulletin of the European Association for Theoretical Computer Science (EATCS). Vol. 113. Pages 21−55. 2014.
Errata can be found here.
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[85]
The expressive power of binary submodular functions
Stanislav Živný‚ David A. Cohen and Peter G. Jeavons
In Discrete Applied Mathematics. Vol. 157. No. 15. Pages 3347–3358. 2009.
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[86]
The expressive power of binary submodular functions
Stanislav ivný‚ David A. Cohen and Peter G. Jeavons
In Proceedings of the 34th International Symposium on Mathematical Foundations of Computer Science (MFCS'09). 2009.
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[87]
The expressive power of valued constraints: Hierarchies and collapses
David A. Cohen‚ Peter G. Jeavons and Stanislav Živný
In Theoretical Computer Science. Vol. 409. No. 1. Pages 137–153. 2008.
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[88]
The expressive power of valued constraints: Hierarchies and collapses
David A. Cohen‚ Peter G. Jeavons and Stanislav Živný
In Proceedings of the 13th International Conference on Principles and Practice of Constraint Programming (CP'07). Vol. 4741 of Lecture Notes in Computer Science. Pages 798−805. 2007.
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[89]
The expressive power of valued constraints: hierarchies and collapses
David A. Cohen‚ Peter G. Jeavons and Stanislav Živný
No. RR−07−03. Computing Laboratory‚ University of Oxford. Oxford‚ UK. April, 2007.
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[90]
The order encoding: from tractable CSP to tractable SAT
Justyna Petke and Peter Jeavons
No. RR−11−04. DCS‚ University of Oxford. 2011.
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[91]
Towards High Order Constraint Representations for the Frequency Assignment Problem
N.W.Dunkin‚ J.E.Bater‚ P.G.Jeavons and D.A.Cohen
No. CSD−TR−98−05. Royal Holloway‚ University of London. June, 1998.
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[92]
Tractable Benchmarks For Constraint Programming
Justyna Petke and Peter Jeavons
No. RR−09−07. OUCL. 2009.
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[93]
Tractable Classes of Binary CSPs Defined by Excluded Topological Minors
David A. Cohen‚ Martin C. Cooper‚ Peter Jeavons and Stanislav Živný
In Proceedings of the 24th International Joint Conference on Artificial Intelligence (IJCAI'15). Pages 1945–1951. AAAI Press. 2015.
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[94]
Tractable Combinations of Global Constraints
David A. Cohen‚ Peter G. Jeavons‚ Evgenĳ Thorstensen and Stanislav Živný
In Christian Schulte, editor, Principles and Practice of Constraint Programming − 19th International Conference‚ CP 2013‚ Uppsala‚ Sweden‚ September 16−20‚ 2013. Proceedings. Vol. 8124 of Lecture Notes in Computer Science. Pages 230−246. Springer. 2013.
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[95]
Tractable Constraints on Ordered Domains
P.G.Jeavons and M.C.Cooper
In Artificial Intelligence. No. 79(2). Pages 327–339. 1995.
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[96]
Tractable Disjunctive Constraints
D.A.Cohen‚ P.G.Jeavons and M.Kourabarakis
In Proceedings 3rd International Conference on Principles and Practice of Constraint Programming (CP97). Vol. 1330 of Lecture Notes in Computer Science. No. 1330. Pages 478–490. 1997.
Details about Tractable Disjunctive Constraints  BibTeX data for Tractable Disjunctive Constraints  DOI (10.1007/BFb0017461)  Link to Tractable Disjunctive Constraints

[97]
Tractable constraints closed under a binary operation
Andrei Bulatov and Peter Jeavons
No. PRG−TR−12−00. Oxford University Computing Laboratory. 2000.
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[98]
Tractable valued constraints
Peter G. Jeavons and Stanislav Živný
In Lucas Bordeaux‚ Youssef Hamadi‚ Pushmeet Kohli and Robert Mateescu, editors, Tractability: Practical Approaches to Hard Problems. Cambridge University Press. 2012.
This work is in copyright. The draft is for personal use only. No further distribution without permission.
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[99]
Which submodular functions are expressible using binary submodular functions?
Stanislav Živný and Peter G. Jeavons
No. RR−08−08. OUCL. Oxford‚ UK. June, 2008.
Details about Which submodular functions are expressible using binary submodular functions?  BibTeX data for Which submodular functions are expressible using binary submodular functions?  Download (pdf) of Which submodular functions are expressible using binary submodular functions?  Download (pdf) of Which submodular functions are expressible using binary submodular functions?

[100]
Why higher order constraints are necessary to model frequency assignment problems
P.G.Jeavons‚ N.W.Dunkin and J.E.Bater
In ECAI'98 Workshop on Non−binary constraints. 1998.
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