Altshuller G (1984) Creativity as an exact science: the theory of the solution of inventive problems. Gordon and Breach Science Publishers, Luxembourg
Altshuller G, Shulyak L (1997) 40 principles: Triz keys to technical innovation. Technical Innovation Center, Worcester, MA
Alves J, Marques MJ, Saur I, Marques P (2007) Creativity and innovation through multidisciplinary and multisectoral cooperation. Creat Innov Manag 16(1):27–34
[+]
Altshuller G (1984) Creativity as an exact science: the theory of the solution of inventive problems. Gordon and Breach Science Publishers, Luxembourg
Altshuller G, Shulyak L (1997) 40 principles: Triz keys to technical innovation. Technical Innovation Center, Worcester, MA
Alves J, Marques MJ, Saur I, Marques P (2007) Creativity and innovation through multidisciplinary and multisectoral cooperation. Creat Innov Manag 16(1):27–34
Bahill AT, Alford M, Bharathan K, Clymer JR, Dean DL, Duke J, Hill G, LaBudde EV, Taipale EJ, Wymore AW (1998) The design-methods comparison project. IEEE Trans Syst Man Cybern Part C Appl Rev 28(1):80–103
Besemer SP, O’Quin K (1989) The development, reliability and validity of the revised creative product semantic scale. Creat Res J 2:268–279
Buzan T, Buzan B (1999) El libro de los mapas mentales: cómo utilizar al máximo las capacidades de la mente. Ediciones Urano, Logroño
Chakrabarti A (2003) Towards a measure for assessing creative influences of a creativity technique, international conference on engineering design, ICED 03. Stockholm, Sweden
Chulvi V, Ruiz-López J, Vidal R (2011) Methodological approach for innovation in enterprises. DYNA 86(4)
Chulvi V, Mulet E, Chakrabarti A, López-Mesa B, González-Cruz MC (2012a) Comparison of the degree of creativity in the design outcomes using different design methods. J Eng Des 23(4):241–269
Chulvi V, Mulet E, González-Cruz MC (2012b) Measure of product creativity. Metrics and objectivity. DYNA 87(1):80–89
Eberle B (1996) Scamper: games for imagination development. Prufrock Press, Waco, TX
EC (2000) Expert choice 2000 team. Expert Choice Inc., Pittsburgh
Francis D, Bessant J (2005) Targeting innovation and implications for capability development. Technovation 25:171–183
González-Cruz MC, Aguilar-Zambrano J, Aguilar-Zambrano J, Colombel MG (2008) La estrategia de creatividad sistemática TRIZ con equipos multidisciplinares de diseño de producto. DYNA 83(6):337–350
Gordon WJJ (1961) Synectics: the development of creative capacity. Harper and Row, New York
Horowitz R, Maimon O (1997) Creative design methodology and the SIT method. In: Proceedings of DETC’97 ASME design engineering technical conference, Sept 14–17, Sacramento, CA
Justel D (2008) Metodología para la eco-innovación en el diseño para desensamblado de productos industriales. PhD Thesis. Universitat Jaume I, Castellón, Spain
López-Mesa B, Mulet E, Thompson G, Vidal R (2011) Effects of additional stimuli on idea-finding in design teams. J Eng Des 22(1):31–54
Moss J (1966) Measuring creative abilities in junior high school industrial arts. American Council on Industrial Arts Teacher Education, Washington, DC
Nappier N, Nilsson M (2006) The development of creative capabilities in and out of creative organizations: three case studies. Creat Innov Manag 15(3):268–278
Ogot M, Okudan G (2006) Systematic creativity methods in engineering education: a learning styles perspective. Int J Eng Educ 22(3):566–576
Osborn A (1953) Applied imagination: principles and procedures of creative thinking. Charles Scribner’s Sons, New York
Pahl G, Beitz W (1996) Engineering design: a systematic approach, 2nd edn. Springer, London
Peeters M, van Trujill H, Reymen I (2007) The development of a design behaviour questionnaire for multidisciplinary teams. Des Stud 28(6):623–643
Reich Y, Hatchuel A, Shai O, Subrahmanian E (2012) A theoretical analysis of creativity methods in engineering design: casting and improvising ASIT within C-K theory. J Eng Des 23(2):137–158
Ritchey T (1998) Fritz Zwicky, morphologie and policy analysis. In: 16th EURO conference on operational analysis, Brussels
Rivera J, Vidal R, Chulvi V, Lloveras J (2010) La transmisión visual de la información como estímulo cognitivo de los procesos creativos. An Psicol 26(2):226–237
Rohrbach B (1969) Creative by rules—method 635, a new technique for solving problems. Absatzwirtschaft 12:73–75
Saaty T (1980) The analytic hierarchy process. McGraw-Hill, New York
Sarkar P, Chakrabarti A (2008) Studying engineering design creativity. In: Proceedings of the international workshop on studying design creativity, Aix-en- Provence, France
Shah J, Vargas-Hernandez N, Summers JD, Kulkarni S (2001) Collaborative sketching (C-Sketch)—an idea generation technique for engineering design. J Creat Behav 35(3):168–198
Shah J, Vargas-Hernandez N, Smith S (2003) Metrics for measuring ideation effectiveness. Des Stud 24(2):111–134
Shai O, Reich Y, Rubin D (2008) Creative conceptual design: extending the scope by infused design. Comput Aided Des 41(3):117–135
Tether BS (2003) What is innovation? University of Manchester and UMIST, ESRC Centre for Research on Innovation and Competition (CRIC), Manchester
Thompson G, Lordan M (1999) A review of creativity principles applied to engineering design. In: Proceedings of the I Mech E Part E: Journal of Process Mechanical Engineering
Torrance EP (1969) Torrance test of creative thinking: norms-technical manual. Ginn, Lexington, MA
[-]
![[Cerrado]](/themes/UPV/images/candado.png)
