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Jean Krivine
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2020 – today
- 2023
- [j10]Nicolas Behr, Russ Harmer, Jean Krivine:
Fundamentals of compositional rewriting theory. J. Log. Algebraic Methods Program. 135: 100893 (2023) - 2022
- [i8]Nicolas Behr, Russ Harmer, Jean Krivine:
Fundamentals of Compositional Rewriting Theory. CoRR abs/2204.07175 (2022) - 2021
- [j9]Nicolas Behr, Jean Krivine:
Compositionality of Rewriting Rules with Conditions. Compositionality 3: 2 (2021) - [j8]Nicolas Behr, Jean Krivine, Jakob L. Andersen, Daniel Merkle:
Rewriting theory for the life sciences: A unifying theory of CTMC semantics. Theor. Comput. Sci. 884: 68-115 (2021) - [c29]Nicolas Behr, Russ Harmer, Jean Krivine:
Concurrency Theorems for Non-linear Rewriting Theories. ICGT 2021: 3-21 - [i7]Nicolas Behr, Russ Harmer, Jean Krivine:
Concurrency Theorems for Non-linear Rewriting Theories. CoRR abs/2105.02842 (2021) - [i6]Nicolas Behr, Jean Krivine, Jakob L. Andersen, Daniel Merkle:
Rewriting Theory for the Life Sciences: A Unifying Theory of CTMC Semantics (Long version). CoRR abs/2106.02573 (2021) - 2020
- [j7]Thomas Ehrhard, Jean Krivine, Ying Jiang:
A calculus of branching processes. Theor. Comput. Sci. 807: 169-184 (2020) - [c28]Nicolas Behr, Jean Krivine:
Rewriting Theory for the Life Sciences: A Unifying Theory of CTMC Semantics. ICGT 2020: 185-202 - [c27]Vincent Danos, Jean Krivine, Julien Prat:
Revisiting the Liquidity/Risk Trade-Off with Smart Contracts (Short Paper). Tokenomics 2020: 10:1-10:5 - [i5]Nicolas Behr, Jean Krivine:
Rewriting Theory for the Life Sciences: A Unifying Theory of CTMC Semantics. CoRR abs/2003.09395 (2020)
2010 – 2019
- 2019
- [c26]Adrien Husson, Jean Krivine:
A Tractable Logic for Molecular Biology. ICLP Technical Communications 2019: 101-113 - [e5]Georgiana Caltais, Jean Krivine:
Proceedings of the 4th Workshop on Formal Reasoning about Causation, Responsibility, and Explanations in Science and Technology, CREST@ETAPS 2019, Prague, Czech Republic, 7th April 2019. EPTCS 308, 2019 [contents] - [i4]Nicolas Behr, Jean Krivine:
Compositionality of Rewriting Rules with Conditions. CoRR abs/1904.09322 (2019) - 2018
- [j6]Pierre Boutillier, Mutaamba Maasha, Xing Li, Héctor F. Medina-Abarca, Jean Krivine, Jérôme Feret, Ioana Cristescu, Angus G. Forbes, Walter Fontana:
The Kappa platform for rule-based modeling. Bioinform. 34(13): i583-i592 (2018) - [j5]Angus Graeme Forbes, Andrew Burks, Kristine Lee, Xing Li, Pierre Boutillier, Jean Krivine, Walter Fontana:
Dynamic Influence Networks for Rule-Based Models. IEEE Trans. Vis. Comput. Graph. 24(1): 184-194 (2018) - [c25]Ioana Cristescu, Walter Fontana, Jean Krivine:
Interactions between Causal Structures in Graph Rewriting Systems. CREST@ETAPS 2018: 65-78 - 2017
- [j4]Jean Krivine:
Systems biology. ACM SIGLOG News 4(3): 43-61 (2017) - [c24]Pierre Boutillier, Thomas Ehrhard, Jean Krivine:
Incremental Update for Graph Rewriting. ESOP 2017: 201-228 - [i3]Angus Graeme Forbes, Andrew Burks, Kristine Lee, Xing Li, Pierre Boutillier, Jean Krivine, Walter Fontana:
Dynamic Influence Networks for Rule-based Models. CoRR abs/1711.00967 (2017) - 2016
- [c23]Ioana Cristescu, Jean Krivine, Daniele Varacca:
Rigid Families for the Reversible π-Calculus. RC 2016: 3-19 - 2015
- [c22]Ioana Domnina Cristescu, Jean Krivine, Daniele Varacca:
Rigid Families for CCS and the π-calculus. ICTAC 2015: 223-240 - [e4]Jean Krivine, Jean-Bernard Stefani:
Reversible Computation - 7th International Conference, RC 2015, Grenoble, France, July 16-17, 2015, Proceedings. Lecture Notes in Computer Science 9138, Springer 2015, ISBN 978-3-319-20859-6 [contents] - 2014
- [c21]Agnes Köhler, Jean Krivine, Jakob Vidmar:
A Rule-Based Model of Base Excision Repair. CMSB 2014: 173-195 - 2013
- [c20]Ioana Cristescu, Jean Krivine, Daniele Varacca:
A Compositional Semantics for the Reversible p-Calculus. LICS 2013: 388-397 - 2012
- [c19]Russell Harmer, Jean Krivine, Élise Laruelle, Cédric Lhoussaine, Guillaume Madelaine, Mirabelle Nebut:
Models of Tet-On System with Epigenetic Effects. CMSB 2012: 378-381 - [c18]Vincent Danos, Jérôme Feret, Walter Fontana, Russell Harmer, Jonathan Hayman, Jean Krivine, Christopher D. Thompson-Walsh, Glynn Winskel:
Graphs, Rewriting and Pathway Reconstruction for Rule-Based Models. FSTTCS 2012: 276-288 - [c17]Jean Krivine:
A Verification Technique for Reversible Process Algebra. RC 2012: 204-217 - [i2]Samson Abramsky, Jean Krivine, Michael W. Mislove:
Information Flow and Its Applications (Dagstuhl Seminar 12352). Dagstuhl Reports 2(8): 99-112 (2012) - 2011
- [c16]Paola Giannini, Jean Krivine:
Preface. CS2Bio@DisCoTec 2011: 1-2 - [c15]Troels Christoffer Damgaard, Espen Højsgaard, Jean Krivine:
Formal Cellular Machinery. SASB 2011: 55-74 - [e3]Paola Giannini, Jean Krivine:
The Second International Workshop on Interactions between Computer Science and Biology, CS2Bio@DisCoTec 2011, Reykjavik, Iceland, June 9, 2011. Electronic Notes in Theoretical Computer Science 277, Elsevier 2011 [contents] - [e2]Elham Kashefi, Jean Krivine, Femke van Raamsdonk:
Proceedings 7th International Workshop on Developments of Computational Methods, DCM 2011, Zurich, Switzerland, 3rd July 2011. EPTCS 88, 2011 [contents] - 2010
- [c14]Vincent Danos, Jérôme Feret, Walter Fontana, Russell Harmer, Jean Krivine:
Abstracting the Differential Semantics of Rule-Based Models: Exact and Automated Model Reduction. LICS 2010: 362-381 - [c13]Jean Krivine, Angelo Troina:
Preface. CS2Bio 2010: 1-2 - [e1]Jean Krivine, Angelo Troina:
Proceedings of the 1st International Workshop on Interactions between Computer Science and Biology, CS2Bio 2010, Amsterdam, The Netherlands, June 10, 2010. Electronic Notes in Theoretical Computer Science 268, Elsevier 2010 [contents]
2000 – 2009
- 2009
- [j3]Jérôme Feret, Vincent Danos, Jean Krivine, Russ Harmer, Walter Fontana:
Internal coarse-graining of molecular systems. Proc. Natl. Acad. Sci. USA 106(16): 6453-6458 (2009) - [j2]Vincent Danos, Jérôme Feret, Walter Fontana, Russell Harmer, Jean Krivine:
Rule-Based Modelling and Model Perturbation. Trans. Comp. Sys. Biology 11: 116-137 (2009) - [c12]Jean Krivine, Vincent Danos, Arndt Benecke:
Modelling Epigenetic Information Maintenance: A Kappa Tutorial. CAV 2009: 17-32 - 2008
- [j1]Pierre-Louis Curien, Vincent Danos, Jean Krivine, Min Zhang:
Computational self-assembly. Theor. Comput. Sci. 404(1-2): 61-75 (2008) - [c11]Vincent Danos, Jérôme Feret, Walter Fontana, Russell Harmer, Jean Krivine:
Rule-Based Modelling, Symmetries, Refinements. FMSB 2008: 103-122 - [c10]Vincent Danos, Jérôme Feret, Walter Fontana, Russell Harmer, Jean Krivine:
Investigation of a Biological Repair Scheme. Workshop on Membrane Computing 2008: 1-12 - [c9]Vincent Danos, Jérôme Feret, Walter Fontana, Jean Krivine:
Abstract Interpretation of Cellular Signalling Networks. VMCAI 2008: 83-97 - [c8]Jean Krivine, Robin Milner, Angelo Troina:
Stochastic Bigraphs. MFPS 2008: 73-96 - 2007
- [c7]Vincent Danos, Jérôme Feret, Walter Fontana, Jean Krivine:
Scalable Simulation of Cellular Signaling Networks. APLAS 2007: 139-157 - [c6]Vincent Danos, Jérôme Feret, Walter Fontana, Russell Harmer, Jean Krivine:
Rule-Based Modelling of Cellular Signalling. CONCUR 2007: 17-41 - 2006
- [b1]Jean Krivine:
Algèbres de Processus Réversibles. (Reversible Process Algebra). Pierre and Marie Curie University, Paris, France, 2006 - [c5]Vincent Danos, Jean Krivine, Fabien Tarissan:
Self-assembling Trees. SOS@CONCUR 2006: 19-32 - [c4]Vincent Danos, Jean Krivine, Pawel Sobocinski:
General Reversibility. EXPRESS 2006: 75-86 - [i1]Jean Krivine:
A verification algorithm for Declarative Concurrent Programming. CoRR abs/cs/0606095 (2006) - 2005
- [c3]Vincent Danos, Jean Krivine:
Transactions in RCCS. CONCUR 2005: 398-412 - 2004
- [c2]Vincent Danos, Jean Krivine:
Reversible Communicating Systems. CONCUR 2004: 292-307 - 2003
- [c1]Vincent Danos, Jean Krivine:
Formal Molecular Biology Done in CCS-R. BioConcur@CONCUR 2003: 31-49
Coauthor Index
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