Denis Cavallucci

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Un nombre croissant d’industries est touché par la nécessité de formaliser les démarches d’innovation. Dans ce contexte, les outils issus de la qualité montrent leurs limites tout comme les approches d’assistance à la créativité dérivées du Brainstorming. Une approche telle que la Théorie de Résolution des Problèmes Inventifs (TRIZ) se révèle pertinente(More)
Within the scope of Computer Aided Innovation, it is commonly agreed that problem formulation remains in need of robust improvement. Prior to this, means of conducting and representing problems are needed, so as the way a software implementation would help designers, for instance, in decision making. Our approach presents the originality of including the(More)
The theory of inventive problem solving (TRIZ) was developed to solve inventive problems in different industrial fields. In recent decades, modern innovation theories and methods proposed several different knowledge sources, whose use requires extensive knowledge about different engineering domains. In order to facilitate the use of the TRIZ knowledge(More)
While TRIZ is increasingly developing both in research and education, users always encounter difficulties in their attempts to practice it, especially for one of the most complicated inventive problem solving tools, the Su-Field analysis, which is used to analyze and improve the efficiency of a technical system. Generally, the process of using a Su-Field(More)