Grażyna Ślusarczyk, PhD, DSc., prof. UJ

[The photo should be here]



Address: Division of Design and Computer Graphics, Institute of Applied Computer Science
Faculty of Physics, Astronomy and Applied Computer Science, Jagiellonian University, Lojasiewicza 11, 30-348 Krakow
Phone: +48 12 6644728
E-mail: gslusarc@uj.edu.pl

Research interests: graph grammars, computer-aided graphic design, pattern recognition, diagrammatic reasoning, algorithms' analysis.

PUBLICATIONS:


Papers in Journals of the ISI Master Journal List

  1. W. Palacz, S. Licholai, J. Musial, K. Wawrzycka-Adamczyk, G. Ślusarczyk, B. Strug, B. Yaman, M. Tesi, K. Gisslander, D. O'Sullivan, A. Vaglio, G. Emmi, M. Little, K. Wojcik, Ontology-based integration and querying of heterogeneous rare disease data sources – POLVAS perspective, Computers in Biology and Medicine, 185 (2025), 109452.
  2. G. Ślusarczyk, B. Strug, Machine learning methods in BIM-based applications: a review, Vietnam Journal of Computer Science, (2023), pp 1-22.
  3. B. Strug, G. Ślusarczyk, A Multi-Agent System in Education Facility Design, Applied Sciences, 13, (2023), id: 10878.
  4. P. Augustyniak, G. Ślusarczyk, Quantifying Coincidence in Non-Uniform Time Series with Mutual Graph Approximation: Speech and ECG Examples, Electronics, 12, (2023), id: 4228.
  5. G. Ślusarczyk, B. Strug, A. Paszynska, E. Grabska, W. Palacz, Semantic-driven Graph Transformations in Floor Plan Design, Computer-Aided Design, 158, (2023), id: 103480.
  6. W. Sommer, K. Stapor, G. Konczak, K. Kotowski, P. Fabian, J. Ochab, A. Beres, G. Ślusarczyk, Changepoint Detection in Noisy Data Using a Novel Residuals Permutation-Based Method (RESPERM): Benchmarking and Application to Single Trial ERPs, Brain Sciences, 12 (2022).
  7. K. Grzesiak-Kopec, B. Strug, G. Ślusarczyk, Evolutionary Methods in House Floor Plan Design, Applied Sciences, 11 (2021).
  8. W. Sommer, K. Stapor, G. Konczak, K. Kotowski, P. Fabian, J. Ochab, A. Beres, G. Ślusarczyk, The N250 event-related potential as an index of face familiarity: a replication study, Royal Society Open Science, 8 (2021), id: 202356.
  9. A. Mars, E. Grabska, G. Ślusarczyk, B. Strug, Design characteristics and aesthetics in evolutionary design of architectural forms directed by fuzzy evaluation, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 34 (2020), pp. 147-159.
  10. G. Ślusarczyk, Graph-based representation of design properties in creating building floorplans, Computer-Aided Design, 95 (2018), pp. 24-39.
  11. P. Augustyniak, G. Ślusarczyk, Graph-based representation of behavior in detection and prediction of daily living activities, Computers in Biology and Medicine, 95 (2018), pp. 261-270.
  12. G. Ślusarczyk, A. Lachwa, W. Palacz, B. Strug, A. Paszynska, E. Grabska, An extended hierarchical graph-based building model for design and engineering problems, Automation in Construction, 74 (2017), pp. 95-102.
  13. G. Ślusarczyk, B. Strug, K. Stasiak, An ontology-based graph approach to support buildings design conformity with a given style, Applied Ontology, 11 (2016), pp. 279-300.
  14. B. Strug, E. Grabska, G. Ślusarczyk, Supporting the design process with hypergraph genetic operators, Advanced Engineering Informatics, 28 (2014), pp. 11-27.
  15. G. Ślusarczyk, P. Pietak, Maintaining Style of Garden Designs by Using Graph-Based Constraints, Automation in Construction, 36 (2013), pp. 79-94.
  16. E. Grabska, G. Ślusarczyk, Sz. Gajek, Knowledge Representation for Human-Computer Interaction in a System Supporting Conceptual Design, Fundamenta Informaticae, 124 (2013), pp. 91-110.
  17. E. Grabska, A. Lachwa, G. Ślusarczyk, New visual languages supporting design of multi-storey buildings, Advanced Engineering Informatics, 26 (2012), pp. 681-690.
  18. G. Ślusarczyk, Visual language and graph-based structures in conceptual design, Advanced Engineering Informatics, 26 (2012), pp. 267-279.
  19. E. Grabska, G. Ślusarczyk, Knowledge and reasoning in design systems, Automation in Construction, 22 (2011) pp. 927-934.
  20. B. Strug, G. Ślusarczyk, Reasoning about designs through frequent patterns mining, Advanced Engineering Informatics, 23 (2009), pp. 361-369.
  21. G. Ślusarczyk, A Grammar-Based Multiagent System in Dynamic Design, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 22 (2008), pp. 129-145.


Papers in Other Journals

  1. W.Palacz, G. Ślusarczyk, B. Strug, Ontology-Based Rare Disease Database Integration-Practical Issues and Challenges, in L. Rutkowski et al. (eds.): ICAISC 2022, Part II, LNCS 15166, Springer 2025, pp. 143-152.
  2. A. Mars, E. Grabska, B. Strug, G. Ślusarczyk, Style-Preserving Evolutionary Approach in Cooperative Game Design, in Y. Luo (ed.): 21st International Conference on Cooperative Design, Visualization, and Engineering, CDVE 2024, LNCS 15158, Springer 2024, pp. 201-210.
  3. B. Strug, G. Ślusarczyk, BIM-Based Approach to House Renovation Projects Assessment, in L. Rutkowski et al. (eds.): ICAISC 2022, Part II, LNCS 13589, Springer 2023, pp. 336-345.
  4. G. Ślusarczyk, B. Strug, Cooperative Design of a Community Garden, in Y. Luo (ed.): 19th International Conference on Cooperative Design, Visualization, and Engineering, CDVE 2022, LNCS 13492, Springer 2022, pp. 197-203.
  5. G. Ślusarczyk, B. Strug, Machine Learning Methods for BIM Data, in N.T. Nguyen, et al. (eds.): Intelligent Information and Database Systems. ACIIDS 2022, LNAI 13758, Springer 2022, pp. 230-240.
  6. K. Grzesiak-Kopeć, B. Strug, G. Ślusarczyk, Specification-Driven Evolution of Floor Plan Design, in G. Rudolph et al. (eds.): PPSN 2022, LNCS 13399, Springer 2022, pp. 368-381.
  7. G. Ślusarczyk, B. Strug, E. Grabska E, A Generative Design Method Based on a Graph Transformation System, in L. Rutkowski et al. (eds.): ICAISC 2021, Part II, LNCS 12855, Springer 2021, pp. 367-378.
  8. B. Strug, G. Ślusarczyk, Computational Ontology and BIM Technology in Data-Driven Indoor Route Planning, in H. Fujita H et al. (eds.): Advances and Trends in Artificial Intelligence. Artificial Intelligence Practices, IEA/AIE 2021, LNCS 12798, Springer 2021, pp. 235-242.
  9. G. Ślusarczyk, B. Strug, A. Kapanowski, Cooperative Design of an Interactive Museum Guide, in Y. Luo (ed.): 17th International Conference on Cooperative Design, Visualization, and Engineering, CDVE 2020, LNCS 12341, Springer 2020, pp. 57-66.
  10. W. Palacz, G. Ślusarczyk, B. Strug, E. Grabska, Indoor Robot Navigation Using Graph Models Based on BIM/IFC, in L. Rutkowski et al. (eds.): ICAISC 2019, Part II, LNCS 11509, Springer 2019, pp. 654-665.
  11. A. Mars, E. Grabska, G. Ślusarczyk, B. Strug, Graph-based knowledge inference for style-directed architectural design, in H. Pérez García et al. (eds.): HAIS 2019, LNAI 11734, Springer 2019, pp. 393-403.
  12. A. Ismail, B. Strug, G. Ślusarczyk, Building Knowledge Extraction from BIM/IFC Data for Analysis in Graph Databases, in L. Rutkowski et al. (eds.): ICAISC 2018, Part II, LNAI 10842, Springer 2018, pp. 652–664.
  13. E. Grabska, B. Strug, G. Ślusarczyk, Cooperative Design, Visualization, and Engineering, in Y. Luo (ed.): 15th International Conference on Cooperative Design, Visualization, and Engineering, CDVE 2018, LNCS 11151, Springer 2018, pp.153-162.
  14. E. Grabska, B. Strug, G. Ślusarczyk, A Visual Interactive Environment for Engineering Knowledge Modelling, in I.F.C. Smith, B. Domer (eds.): EG-ICE 2018, Part I, LNCS 10863, Springer 2018, pp. 219–230.
  15. B. Strug, G. Ślusarczyk, E. Grabska, Design Classification Based on Matching Graph Kernels, in A. Gruca et al. (eds.): 5th International Conference on Man-Machine Interactions, ICMMI 2017, AISC 659, Springer 2018, pp. 449-458.
  16. W. Palacz, A. Paszyńska, G. Ślusarczyk, B. Strug, E. Grabska, Supporting Product Modelling with “GraphTool”, Machine Dynamics Research, 41, 2017, pp.135-147.
  17. W. Palacz, G. Ślusarczyk, A. Łachwa, B. Strug, A. Paszyńska, E. Grabska, Decision Making in Building Maintenance Using a Graph-Based Knowledge Representation, in M. Ganzha et al. (eds.): Communication Papers of the 2017 Federated Conference on Computer Science and Information Systems, ACSIS 13, 2017, pp. 17–25.
  18. W. Palacz, G. Ślusarczyk, B. Strug, E. Grabska, Visual design case-based reasoning and multi-agent systems, in Y. Luo (ed.): 14th International Conference on Cooperative Design, Visualization, and Engineering, CDVE 2017, LNCS 10451, Springer 2017, pp.48-56.
  19. B. Strug, G. Ślusarczyk, Reasoning About Accessibility for Disabled Using Building Graph Models Based on BIM/IFC, Journal: Visualization in Engineering 5, 2017.
  20. W. Palacz, E. Grabska, G. Ślusarczyk, Ontological Approach to Design Reasoning with the Use of Many-Sorted First-Order Logic, in L. Rutkowski et al. (eds.): ICAISC 2016, Part II, LNAI 9693, Springer 2016, pp. 364-374.
  21. E. Grabska, A. Łachwa, G. Ślusarczyk, Approximate Reasoning and Fuzzy Evaluation in Code Compliance Checking, in A. Gruca et al. (eds.): 4th International Conference on Man-Machine Interactions, ICMMI 2015, AISC 391, Springer 2016, pp. 551–561.
  22. W. Palacz, E. Grabska, G. Ślusarczyk, Sz. Gajek, Engineering Design Supported by Many Sorted First Order Logic Based Reasoning, Machine Dynamics Research 39, 2015, pp.133-144.
  23. G. Ślusarczyk, Knowledge Extraction from Graph-Based Structures in Conceptual Design, in R. Burduk et al. (eds.): 8th International Conference on Computer Recognition Systems CORES 2013, AISC 226, Springer 2013, pp. 31-40.
  24. G. Ślusarczyk, A. Paszyńska, Hypergraph Grammars in hp-adaptive Finite Element Method, in V.A Alexandrov et al. (eds.): Proceedings of the International Conference on Computational Science, ICCS 2013, Procedia Computer Science 18, 2013, pp. 1545-1554.
  25. E. Grabska, W. Palacz, B.Strug, G. Ślusarczyk, A Graph-Based Generation of Virtual Grids, 9th International Conference on Parallel Processing and Applied Mathematics (PPAM 2011), LNCS 7203, Springer 2011, pp. 451-460.
  26. E. Grabska, G. Ślusarczyk, Towards intelligent systems supporting conceptual design, in T. Czachorski et al. (eds.): Man-Machine Interactions 2, AISC 103, Springer 2011, pp. 259-266.
  27. G. Ślusarczyk, Conceptual Design with the Use of Graph-Based Structures, in R. Burduk et al. (eds.): Computer Recognition Systems 4, AISC 95, Springer 2011, pp. 83-90.
  28. B. Strug, G. Ślusarczyk, Frequent Pattern Mining in a Design Supporting System, Key Engineering Materials 450, Trans Tech Pub, 2011, pp. 1-4.
  29. G. Ślusarczyk, P. Augustyniak, A Graph Representation of Subject's Time-State Space, in E. Piętka and J. Kawa (eds.), Information Technologies in Biomedicine, Advances in Intelligent and Soft Computing 69, Springer, 2010, pp. 379-390.
  30. E. Grabska, G. Ślusarczyk, Visual Design Aided by Specialized Agents in M. Kurzyński and M. Wozniak (eds.), Computer Recognition Systems 3, Advances in Intelligent and Soft Computing 57, Springer, 2009, pp. 527-534.
  31. E. Grabska, B. Strug, G. Ślusarczyk, A Multiagent Distributed Design System in Y. Demazeau et al. (eds.), 7th International Conference on Practical Applications of Agents and Multi-Agent Systems (PAAAMS 2009), Advances in Intelligent and Soft Computing 55, Springer, 2009, pp. 364-373.
  32. E. Grabska, G. Ślusarczyk, M. Glogaza, Design Description Hypergraph Language in M. Kurzyński et al. (eds.), Computer Recognition Systems 2, Advances in Soft Computing 45, Springer, 2007, pp. 763-770.
  33. E. Grabska, A. Łachwa, G. Ślusarczyk, K. Grzesiak-Kopeć, J. Lembas, Hierarchical Layout Hypergraph Operations and Diagrammatic Reasoning, Machine GRAPHICS and VISION 16 (2007), pp. 23-38.
  34. G. Ślusarczyk, Computer Animation in Creative Design, Machine GRAPHICS and VISION 16 (2007), pp. 85 -104.
  35. E. Grabska, K. Grzesiak-Kopeć, G. Ślusarczyk, Designing Floor-Layouts with the Assistance of Curious Agents, in V.A Alexandrov et al. (eds.): ICCS 2006, Part III, LNCS 3993, Springer, 2006, pp. 883-886.
  36. E. Grabska, K. Grzesiak-Kopeć, G. Ślusarczyk, Visual Creative Design with the Assistance of Curious Agents, in D. Baker-Plummer et al. (eds.): Diagrammatic Representation on Inference: 4th International Conference, Diagrams 2006, Stanford, CA, USA, 2006, LNAI 4045, Springer, 2006, pp. 218-220.
  37. A. Łachwa, E. Grabska, G. Ślusarczyk, Fuzzy Interpretation of Layout Hypergraphs, Schedae Informaticae 15 (2006), pp. 165-173.
  38. E. Grabska, G. Ślusarczyk, P. Grze¶, Dynamic Design with the Use of Intelligent Agents, Computer Recognition Systems, Advances in Soft Computing 30, Springer, 2005, pp. 827-834.
  39. G. Ślusarczyk, Hierarchical hypergraph transformations in engineering design, Journal of Applied Computer Science 11 (2003), pp. 67-82.
  40. E. Grabska, G. Ślusarczyk, A. Niewiadomska, Hierarchical graph grammars in graphic prints design and generation, Machine GRAPHICS and VISION 10 (2001), pp. 519-536.
  41. G. Hliniak, B. Strug, Graph grammars and evolutionary methods in graphic design, Machine GRAPHICS and VISION 9 (2000), pp. 5-13.
  42. A. Borkowski, E. Grabska, G. Hliniak, Function-structure computer-aided design model, Machine GRAPHICS and VISION 8 (1999), pp. 367-381.
  43. E. Grabska, G. Hliniak, Graphic prints design using graph grammars, Machine GRAPHICS and VISION 7 (1998), pp. 345-353.
  44. R. Jakubowski, G. Hliniak, Rotational invariant recognition and decomposition of shape features usable in CAD/CAM and a construction of the knowledge bases for them, Archiwum Informatyki Teoret. i Stos. 8 (1996), pp. 259-296.
  45. R. Jakubowski, G. Hliniak, Creation, representation, recognition and classification of form features generated by sweeping operations for CAD and CAPP systems, Archiwum Informatyki Teoret. i Stos. 8 (1996), pp. 297-359.
  46. R. Jakubowski, G. Hliniak, Recognition of interacting and compound features for CAD and CAPP, Archiwum Informatyki Teoret. i Stos. 7 (1995), pp. 61-93.
  47. R. Jakubowski, G. Hliniak, Multiple and generalized sweeping in solid modelling for CAD/CAM, Archiwum Informatyki Teoret. i Stos. 6 (1994), pp. 143-166.
  48. R. Jakubowski, G. Hliniak, Feature recognition in solids modelled by multiple sweeping, Archiwum Informatyki Teoret. i Stos. 6 (1994), pp. 167-212.
  49. R. Jakubowski, G. Hliniak, Effective methods for recognizing quasi-convex and spiral-type figures, Archiwum Informatyki Teoret. i Stos. 5 (1993), pp. 3-32.
  50. R. Jakubowski, G. Hliniak, Quasi-convex figures in extraction and recognition of shape features in 2.5D components, Archiwum Informatyki Teoret. i Stos. 5 (1993), pp. 71-91.
  51. R. Jakubowski, G. Hliniak, Multiple sweeping in modelling and analysis of 3-D solids for CAD, Archiwum Informatyki Teoret. i Stos. 5 (1993), pp. 207-225.
  52. E. Grabska, G. Hliniak, Structural aspects of CP-graph languages, ZN UJ Prace Informatyczne 5 (1993), pp. 81-100.
  53. E. Grabska, G. Hliniak, Design space and graph grammars, Machine GRAPHICS and VISION 1 (1992), pp. 25-34.
  54. R. Jakubowski, G. Hliniak, Some rotational properties of shape features, Archiwum Informatyki Teoret. i Stos. 3 (1991), pp. 73-96.
  55. M. Flasiński, G. Hliniak, Realization of the system controlling a distributed software allocation, ZN UJ Prace Informatyczne 4 (1991), pp. 49-63.
  56. E. Grabska, G. Hliniak, J. Lembas, Zastosowanie grafów kompozycyjnych do konstrukcji strukturalnego edytora graficznego, Informatyka 10 (1990), pp. 23-26.


Papers (chapters) in collective works

  1. B. Strug, G. Ślusarczyk, A. Paszynska, W. Palacz, A Survey of Different Graph Structures Used in Modeling Design, Engineering and Computer Science Problems, in S. Zawislak, J. Rysinski (eds.) Graph-Based Modelling in Science, Technology and Art, Springer, 2022, pp. 243-275.
  2. A. Mars, E. Grabska, G. Ślusarczyk, B. Strug, Style-Oriented Evolutionary Design of Architectural Forms Directed by Aesthetic Measure, in JS Gero (ed.) Design Computing and Cognition'18, Springer, 2018, pp. 765-783.
  3. B. Strug, I. Ryszka, E. Grabska, G. Ślusarczyk, Generating a virtual computational grid by graph transformations, in F. Davoli et al. (eds.) Remote Instrumentation for eScience and Related Aspects, Springer 2012, pp. 209-226.
  4. E. Grabska, G. Ślusarczyk, A Formal Model of Computer-Aided Visual Design, in JS Gero (ed.) Design Computing and Cognition'10, Kluwer Academic Publishers, Springer, 2010, pp. 97-113.
  5. E. Grabska, G. Ślusarczyk, Systemy agentowe wspomagające projektowanie kreatywne, w S. Stanek et al. (eds.) Rozwój Informatycznych Systemów Agentowych w Srodowiskach Społeczno-Gospodarczych, Placet, 2008, pp. 393-403.
  6. E. Grabska, B. Strug, G. Ślusarczyk, W. Grabski, Grammar-Based Disrtibuted Design, in L. Rutkowski et al. (eds.), Computational Intelligence: Methods and Applications, EXIT, Warszawa, 2008, pp. 493-502.
  7. E. Grabska, K. Grzesiak-Kopeć, J. Lembas, A. Łachwa, G. Ślusarczyk, Hypergraphs in Diagrammatic Design, in K. Wojciechowski et al. (eds.), Computational Imaging and Vision 32, Springer, 2006, pp. 111-117.
  8. E. Grabska, G. Ślusarczyk, Intelligent Agents in Grammar-Based Design, in A. Cader et al. (eds.), Artificial Intelligence and Soft Computing, EXIT, Warszawa, 2006, pp. 433-439.
  9. E. Grabska, B. Strug, G. Ślusarczyk, A Graph Grammar Based Model for Distributed Design, in A. Cader et al. (eds.), Artificial Intelligence and Soft Computing, EXIT, Warszawa, 2006, pp. 440-445.
  10. E. Grabska, G. Ślusarczyk, M. Szłapak, Animation in Art Design, in JS Gero (ed.) Design Computing and Cognition'04, Kluwer Academic Publishers, Netherlands, 2004, pp. 317-335.
  11. G. Ślusarczyk, Heuristic Methods and Hierarchical Graph Grammars in Design, Visual and Spatial Reasoning in Design III, Key Centre of Design Computing and Cognition, University of Sydney, 2004, pp. 45-66.


Conference proceedings

  1. B. Strug, G. Ślusarczyk, A Computer Aided Generative System for Polish Traditional Tilings Design, Proceedings of the Kyoto Conference on Arts, Media & Culture 2023 (KAMC2023), Kyoto, 2023, pp. 223-230.
  2. B. Strug, G. Ślusarczyk, J. Jas, Parameterized IFC-based Graph Generation for User-oriented Path Serach, Proceedings of the 27th EG-ICE International Workshop on Intelligent Computing in Engineering (EG-ICE 2020), Berlin, 2020, pp. 237-242.
  3. B. Strug, G. Ślusarczyk, E. Grabska, Educational Facility Design with Graph Grammar Systems, 26th EG-ICE International Workshop on Intelligent Computing in Engineering (EG-ICE 2019), CEUR workshop Proceedings, vol. 2394, Leuven, 2019.
  4. B. Strug, G. Ślusarczyk, E. Grabska, Using graph grammars for generative process recreating Warsaw’s traditional floor tiling, Proceedings of the 21st Generative Art Conference, GA2018, C. Soddu, E. Colabella (eds.), Verona, 2018, pp. 59-67.
  5. B. Strug, G. Ślusarczyk, E. Grabska, Style-directed evolutionary design, Proceedings of the 20th Generative Art Conference, GA2017, C. Soddu, E. Colabella (eds.), Ravenna, 2017, pp. 88-97.
  6. W. Palacz, A. Paszyńska, I. Świderska, G. Ślusarczyk, B. Strug, E. Grabska, GraphTool: A Visual Support for Generating Graph Models of Artefacts, Proceedings of The International Conference on Methods &Tools for CAE – concepts and applications, Bielsko-Biała, 2017, pp. 81-86.
  7. W. Palacz, A. Paszyńska, I. Świderska, G. Ślusarczyk, B. Strug, E. Grabska, GraphTool: Case Studies, Proceedings of The International Conference on Methods &Tools for CAE – concepts and applications, Bielsko-Biała, 2017, pp. 75-80.
  8. B. Strug, G. Ślusarczyk, E. Grabska, A graph-based generative method for supporting bridge design, EG-ICE Workshop, Nottingham, 2017, pp. 294-302.
  9. B. Strug, G. Ślusarczyk, E. Grabska, Design Patterns in Generation of Artefacts in Required Styles, Proceedings of the 19th Generative Art Conference, GA2016, C. Soddu, E. Colabella (eds.), Florence, 2016, pp. 71-78.
  10. W. Palacz, G. Ślusarczyk, A. Łachwa, B. Strug, A. Paszyńska, E. Grabska, Towards Knowledge-Based Building Navigation with the Use of a Hierarchical Graph Model, EG -ICE Workshop Kraków, 2016.
  11. B. Strug, G. Ślusarczyk, Reasoning About Accessibility for Disabled Using Building Graph Models Based on BIM/IFC, Proceedings of the 16th International Conference on Computing in Civil and Building Engineering, ICCCBE'16 Osaka, 2016, pp.734 - 741.
  12. B. Strug, G. Ślusarczyk, Graph-Based Generating Systems In Urban Space Design, EG -ICE Workshop Eindhoven, 2015.
  13. W. Palacz, E. Grabska, G. Ślusarczyk, Sz. Gajek, Floor-Layout Design Supported By Many-Sorted First-Order Logic-Based Reasoning, International Conference on Methods & Tools for CAE - concepts and applications, Bochnia, 2015.
  14. B. Strug, G. Ślusarczyk, Using Graph Representation of Information Extracted from IFC in Building Evacuation, EG -ICE Workshop Cardiff, 2014.
  15. A. Lachwa, E. Grabska, G. Ślusarczyk, Approximated Reasoning and Fuzzy Evaluation in a Design System, EG-ICE Workshop Wieden, 2013.
  16. B. Strug, E. Grabska, G. Ślusarczyk, Genetic Operators for Hypergraph-Based Evolutionary Design, EG-ICE Workshop Herrsching, 2012.
  17. E. Grabska, G. Ślusarczyk, Sz. Gajek, Knowledge Representation in Visual Design, The Third International Conference on Advanced Cognitive Technologies and Applications, COGNITIVE'11, IARIA Rome, 2011, pp. 41-46.
  18. E. Grabska, A. Łachwa, G. Ślusarczyk, Towards New Visual Languages Supporting Design of Multi-storey Buildings, EG-ICE Workshop Enschede, 2011.
  19. B. Strug, G. Ślusarczyk, Reasoning about Designs through Frequent Patterns Mining Intelligent Computing in Engineering EG-ICE'08 Proceedings, pp. 78-85, Plymouth, 2008.
  20. E. Grabska, G. Ślusarczyk, T.L. Le, Visual Design and Reasoning with the Use of Hypergraph Transformations, Proceedings of the Seventh International Workshop on Graph Transformation and Visual Modeling Techniques (GT-VMT 2008), Electronic Communications of the EASST 10 (2008), pp.305-318.
  21. E. Grabska, B. Strug, G. Ślusarczyk, Hypergraph-based Evolutionary Design System, Proceedings of the 10th Generative Art Conference, GA2007, C. Soddu (ed), Milan, 2007, pp. 41-51.
  22. E. Grabska, G. Ślusarczyk, K. Papiernik, Interpretation of objects represented by hierarchical graphs, KOSYR'2003, Wrocław, 2003, pp. 287-293.
  23. E. Grabska, G. Ślusarczyk, A. Ziętek, Balet-dancing animation using graph theory, ICCVG'2002, Zakopane, 2002, pp. 300-306.
  24. E. Grabska, G. Hliniak, Sieci kompozycyjne - Język projektowania obrazów, GKPO'90, IPI PAN, Warszawa 1990, pp. 200-204.

GRANTS:

  1. 1993- 1997 KBN (Committee for Scientific Research) grant. Coordinator prof. dr hab. Ryszard Jakubowski. Contract number 8 5503 044 05. Title: "Computer modelling, recognition and learning complex shapes and their features for building intelligent systems of automatic manufacturing design"
  2. 2003- 2006 KBN (Committee for Scientific Research) grant. Coordinator dr hab. Ewa Grabska. Contract number 0896/T07/2003/25. Title: "Transformacje grafowe w konstrukcji systemów wnioskowania diagramowego"
  3. 2005- 2007 grant finansowany ze srodków zagranicznych - Socrates Grundtvig. Coordinator mgr Helena Więckowska. Title: "SenTrainICT - trainings from seniors for seniors "