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CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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	Cai H, Do EY-L, Zimring CM (2010) Extended linkography and distance graph in design evaluation: An empirical study of the dual effects of inspiration sources in creative design , Design Studies 31(2): 146–168

	Cai, H., Do, E and Zimring, C. M. (2010) Extended linkography and distance graph in design evaluation: an empirical study of the dual effects of inspiration sources in creative design. , Design Studies, 31, pp. 146-168

	Cail F and Aptel M. (2003) Biomechanical stresses in computer-aided design and in data entry , Int J Occup Saf Ergo; 9(3): 235–255

	Caixeta M, Bross JC, Fabricio MM, et al. (2013) Value generation through user involvement in healthcare design. , Proceedings of 21st Annual Conference International Group for Lean Construction (IGLC), Brazil, Fortaleza, 29 July–2 August 2013.

	Cakin, J. (1979) An Experimental Study of Evaluation on Individual and Collective Participation in Building Design , ABACUS Occasional Paper No 64. University of Strathclyde

	Caldas & Norford (2002) A design optimization tool based on a genetic algorithm , Automation in Construction. Volume 11, Issue 2. Pages 173-184

	Caldas L (2006) GENE_ARCH: an evolution-based generative design system for sustainable architecture , IFC Smith. (ed) Lecture notes in Artificial Intelligence. Berlin, Germany: Springer, 2006. pp 109–118

	Caldas L (2008) Generation of energy-efficient architecture solutions applying GENE_ARCH: an evolution-based generative design system , Adv Eng Inform 2008; 22(1): 59–70.

	Caldas L. and Norford L.K. (2001) Architectural Constraints in a Generative Design System: Interpreting Energy Consumption Levels , Proceedings of the 7th International Building Performance Simulation Association (Rio de Janeiro. eds.), pp. 1397-1404

	Caldas L. G., & L. K. Norford (2002) A Design Optimization Tool Based on a Genetic Algorithm , Automation in Construction, 11, pp. 173-184

	Caldas L. (2008) Generation of energy-efficient architecture solutions applying GENE_ARCH: an evolution-based generative design system , Adv Eng Informatics; 22(1): 59–70

	Caldas L.G. and Norford L.K. (2003) Shape generation using pareto genetic algorithms: integrating conflicting design objec- tives in low-energy architecture , Int J Architect Comput; 1(4): 503–515

	Caldas LG and Norford LK (2002) A design optimization tool based on a genetic algorithm , Autom Constr 2002; 11: 173–184.

	Caldas LG and Norford LK (2003) Shape generation using pareto genetic algorithms: integrating conflicting design objectives in low-energy architecture , Int J Archit Comput 2003; 1: 503–515.

	Caldas LG and Santos L. (2012) Generation of energy-efficient patio houses with GENE_ARCH combining an evolutionary generative design system with a shape grammar , ECAADE 2012, Vol 1: digital physicality. ECAADE-education & Research Computer Aided Architectural Design Europe, Prague, Czech Republic, 12–14 September 2012, pp. 459–470. Brussels, Belgium: eCAADe-Education & Research Computer Aided Architectural Design Europe

	Caldas LG (2002) A Design Optimization Tool based on a Genetic Algorithm , Automation in Construction 11 (2), pp. 1-22

	Caldas, L and Norford, L (2002) Energy design optimization using a genetic algorithm , Automation in Construction, 11(2), pp. 173-184

	Caldas, L and Norford, L (2002) A design optimization tool based on a genetic algorithm , Automation in Construction, 11 (2), pp. 173-184

	Caldas, L and Norford, L (2003) Shape Generation Using Pareto Genetic Algorithms: Integrating Conflicting Design Objectives in Low-Energy Architecture , International Journal of Architectural Computing, 1(4), pp. 503-515

	Caldas, L And Norford, L. (2002) A Design Optimization Tool Based on a Genetic Algorithm , Automation in Construction 11(2), 173-184, Available at: https://doi.org/1.116/S926-585()96-.

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