Abstract is missing.
- Preconcept Algebras and Generalized Double Boolean AlgebrasRudolf Wille. 1-13 [doi]
- Protoconcept Graphs: The Lattice of Conceptual ContentsJoachim Hereth Correia, Julia Klinger. 14-27 [doi]
- Signs and Formal ConceptsUta Priss. 28-38 [doi]
- A Mathematical Model for TOSCANA-Systems: Conceptual Data SystemsJoachim Hereth Correia, Tim B. Kaiser. 39-46 [doi]
- BLID: An Application of Logical Information Systems to BioinformaticsSébastien Ferré, Ross D. King. 47-54 [doi]
- Formal Concept Analysis: Its Role in Teaching Lattice TheoryBrian A. Davey. 55-56 [doi]
- Concept Lattices for Information Visualization: Can Novices Read Line-Diagrams?Peter W. Eklund, Jon Ducrou, Peter Brawn. 57-73 [doi]
- Browsing Search Results via Formal Concept Analysis: Automatic Selection of AttributesJuan M. Cigarrán, Julio Gonzalo, Anselmo Peñas, Felisa Verdejo. 74-87 [doi]
- Formal Concept Analysis and Semantic File SystemsBen Martin. 88-95 [doi]
- Numerical Analysis in Conceptual Systems with ToscanaJPeter Becker 0002. 96-103 [doi]
- Tool Support for FCAThomas Tilley. 104-111 [doi]
- Automated Lattice DrawingRalph Freese. 112-127 [doi]
- Congruences of Finite Distributive Concept AlgebrasBernhard Ganter. 128-141 [doi]
- When Is a Concept Algebra Boolean?Léonard Kwuida. 142-155 [doi]
- Background Knowledge in Concept GraphsFrithjof Dau. 156-171 [doi]
- Agreement Contexts in Formal Concept AnalysisRichard J. Cole II, Peter Becker 0002. 172-179 [doi]
- Towards a Conceptual Theory of Indistinguishable ObjectsKarl Erich Wolff. 180-188 [doi]
- Conceptual Knowledge Processing with Formal Concept Analysis and OntologiesPhilipp Cimiano, Andreas Hotho, Gerd Stumme, Julien Tane. 189-207 [doi]
- A First Step towards Protoconcept ExplorationBjörn Vormbrock. 208-221 [doi]
- Geometry of Data TablesTim B. Kaiser, Stefan E. Schmidt. 222-235 [doi]
- Concept Extensions and Weak Clusters Associated with Multiway Dissimilarity MeasuresJean Diatta. 236-243 [doi]
- Unlocking the Semantics of Roget?s Thesaurus Using Formal Concept AnalysisL. John Old. 244-251 [doi]
- FCA in Knowledge Technologies: Experiences and OpportunitiesYannis Kalfoglou, Srinandan Dasmahapatra, Yun-Heh Chen-Burger. 252-260 [doi]
- Applying Formal Concept Analysis to Description LogicsFranz Baader, Baris Sertkaya. 261-286 [doi]
- Machine Learning and Formal Concept AnalysisSergei O. Kuznetsov. 287-312 [doi]
- A Comparative Study of FCA-Based Supervised Classification AlgorithmsHuaiyu Fu, Huaiguo Fu, Patrick Njiwoua, Engelbert Mephu Nguifo. 313-320 [doi]
- Modelling Tacit Knowledge via Questionnaire DataPeter Busch, Debbie Richards. 321-328 [doi]
- Predicate Invention and the Revision of First-Order Concept LatticesMichael Bain. 329-336 [doi]
- The Power of Peircean Algebraic Logic (PAL)Joachim Hereth Correia, Reinhard Pöschel. 337-351 [doi]
- Formal Concept Analysis for Knowledge Discovery and Data Mining: The New ChallengesPetko Valtchev, Rokia Missaoui, Robert Godin. 352-371 [doi]
- AddIntent: A New Incremental Algorithm for Constructing Concept LatticesDean van der Merwe, Sergei A. Obiedkov, Derrick G. Kourie. 372-385 [doi]
- QuDA: Applying Formal Concept Analysis in a Data Mining EnvironmentPeter A. Grigoriev, Serhiy A. Yevtushenko. 386-393 [doi]
- A Parallel Algorithm to Generate Formal Concepts for Large DataHuaiguo Fu, Engelbert Mephu Nguifo. 394-401 [doi]
- Using Concept Lattices for Requirements ReconciliationDebbie Richards. 402-409 [doi]