3 | -- | 20 | Mikel Sorli, Dragan Stokic, Alvaro Gorostiza, Ana Rita Campos. Fostering innovation in practice through TRIZ-based CAI tools |
21 | -- | 32 | Kenneth A. Shelton, Tomasz Arciszewski. Formal innovation criteria |
33 | -- | 46 | Stefan Kohn, Stefan Husig. Development of an empirical-based categorisation scheme for CAI software |
47 | -- | 58 | Noel León Rovira, Eduardo Uresti, Waldo Arcos. Fan-shape optimisation using CFD and genetic algorithms for increasing the efficiency of electric motors |
59 | -- | 68 | Noel León Rovira, Jose Maria Cueva, David Silva, Jorge Gutierrez. Automatic shape and topology variations in 3D CAD environments for genetic optimisation |
69 | -- | 76 | Hong Liu, Yan Li. Generative design supported by evolutionary computing approach |
77 | -- | 87 | Manan Haq, Stephan Rudolph. A design language for generic space-frame structure design |
88 | -- | 104 | Nikolai Khomenko, Roland De Guio, Laurent Lelait, Igor Kaikov. A framework for OTSMTRIZ-based computer support to be used in complex problem management |
105 | -- | 112 | Sébastien Dubois, Philippe Lutz, François Rousselot, Gerard Vieux. A model for problem representation at various generic levels to assist inventive design |
113 | -- | 124 | Alexis Bultey, François de Bertrand de Beuvron, François Rousselot. A substance-field ontology to support the TRIZ thinking approach |
125 | -- | 136 | Denis Cavallucci, Thomas Eltzer. Parameter network as a means for driving problem solving process |
137 | -- | 146 | C. K. Huang, J. H. Lin, Y. S. Tarng. Development of an auto-painting technology for dental burs |
147 | -- | 153 | Yi Lu. Computer simulation of a 3D free-form surface normal machining by 4SPS + RPS and 5SPS/UPU parallel machine tools |