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Publications on computer-assisted design

Articles

  1. Graph transformations in architectural design (co-author J. Szuba), Computer Assisted Mechanics and Engineering Sciences (CAMES), Vol. 10, pp. 93-109, 2003.
  2. On graph-based design of floor layout (co-authors: G. Cha¶ and Nguyen Quoc Thanh), Journal of Civil Engineering and Management, 2003, Vol. IX, No. 2, pp. 132-138.
  3. Towards collaborative design (co-authors: Ch. Branki, E. Grabska and W. Palacz), International Journal of Automation in Construction, 4 (2001) pp.607-616.
  4. Function-structure computer-aided design model (co-authors: E. Grabska and G. Hliniak), Machine GRAPHICS & VISION, 8 (1999), pp. 367-383.
  5. Visualisation of graphs in ArchiCAD (co-authors: J. Szuba and E. Grabska), in: Proc. of the Symposium on Graph Applications (AGTIVE’99), ed. by M. Nagl and A. Schürr, Castle Rolduc, September 1999, Lecture Notes in Computer Science, Vol. 1774, 1999, pp. 241-246.
  6. Converting function into object (co-author: E. Grabska), in: Artificial Intelligence in Structural Engineering, ed. by I. Smith, Lecture Notes in Computer Science, Vol. 1454, 1998, pp.434-440.
  7. Supporting design decisions by Prolog database (co-authors S. Jó¼wiak i M. Danicka), Int. J. for Numerical Methods in Engineering, 34 (1992), pp. 941-946.
  8. On procedural and declarative aspects of optimum structural design (co-authors S. Jó¼wiak i N. Fleischmann), Progress in Structural Engineering, ed. by D. Grierson, A. Franchi and P. Riva, Kluwer Academic Publishers, Dortrecht, 1991, pp. 279-292.
  9. Supporting conceptual decisions in structural design (co-authors N. Fleischmann and K.-U. Bletzinger), Artificial Intelligence and Structural Engineering, ed. by B.H.V. Topping, Civil-Comp Press, Edinburgh, 1991, pp. 87-96.

Papers presented at conferences

  1. On concept of intelligent elements in computer-aided engineering design, Proc. of Intern. Symposium on Intelligent Information Systems, Ustroń, Poland, June 1999.
  2. Towards collaborative creative design (co-authors E. Grabska, Ch. Branki and W. Palacz), Proc. Europia'98 on Cyber Design, Paris, November 1998.
  3. Generating floor layouts by means of composite representation (co-author E. Grabska), Computers in the Practice of Building and Civil Engineering, Report of the Worldwide ECCE Symposium, Lahti, September 1997, pp. 154-158.
  4. Cyberspace in Civil Engineering - reality or hype?, Proc. Int. Conf. on Modern Materials, Methods and Structures in Civil Engineering (SF '97), Vilnius, May 1997, pp. 112-124.
  5. Assisting creativity by composite representation (co-author E. Grabska), Proc. 4-th Int. Conf. on Artificial Intelligence in Design (AID'96), Stanford University, Stanford, June 1996, ed. by J. S. Gero and F. Sudweeks, Kluwer Academic Publishers, pp. 743-759.
  6. SpaceFrame: an integrated tool for designing of space trusses (co-author N. Fleischmann), Proc. IABSE Colloquium on Knowledge Support Systems in Civil Engineering, Bergamo, March 1995, pp. 107-115.
  7. Representing designs by CP-Graphs (co-author E. Grabska), Proc. IABSE Colloquium on Knowledge Support Systems in Civil Engineering, Bergamo, March 1995, pp. 27-36.
  8. Empirical performance comparison for symbolic and subsymbolic learning systems (co-authors T. Arciszewski., P. Dybala and P. Wojan), Proc. 1st ASCE Congress on Computing in Civil Engineering, Washington, D.C., June 1994 , pp. 1075-1082.
  9. Neural networks and structural optimization, Proc. Advanced TEMPUS Course on Numerical Methods in Computer Aided Optimal Design, Zakopane, May 1992, ed. by T. Burczyński, Politechnika ¦l±ska, Gliwice, 1992.
  10. Integrated truss design program for educational applications (co-authors S. Jó¼wiak i M. Danicka), Proc. CATS'90, ed by E. Onate, Pineridge Press, Barcelona, June 1990, pp. 420-424.
  11. Dynamic knowledge base for structural design and optimization programs (co-authors S. Jó¼wiak and M. Danicka), Proc. XII Int. Kongress on Mathematics, Weimar, May 1990, pp. 37-40.

 

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