. Afnor, NF X50-150 , NF EN 1325 Management par la valeur -Vocabulaire -Termes et définitions, Airbus Helicopters, 2014.

D. Akay, O. Kulak, and B. Henson, Computers in Industry Conceptual design evaluation using interval type-2 fuzzy information axiom, Computers in Industry, vol.62, issue.2, pp.138-146, 2011.

A. Ak?nc?lar and M. Da?deviren, A Hybrid Multi-Criteria Decision Making Model to Evaluate Hotel Websites, International Journal of Hospitality Management, vol.36, pp.263-271, 2000.

G. Altshuller, Creativity As an Exact Science, 1984.

N. Anderson, G. Hardy, and M. West, Management Team. Management Decision, p.30, 1992.

F. Arnoux, Modéliser et organiser la conception innovante : le cas de l'innovation radicale dans les systèmes d'énergie aeronautiques Le cas de l'innovation radicale dans les systèmes d ' énergie aéronautiques, 2013.

M. Aruldoss, T. M. Lakshmi, and V. P. Venkatesan, A Survey on Multi Criteria Decision Making Methods and Its Applications, American Journal of Information Systems, vol.1, issue.1, pp.31-43, 2013.

S. Badreau and J. Boulanger, Ingénierie des exigences -Méthodes et bonnes pratiques pour construire et maintenir un référentiel Dunod, 2014.

P. T. Biltgen and D. N. Mavris, A technique for interacitve probabilistic multiple attribute decision making. Collection of Technical Papers 45th AIAA Aerospace Sciences Meeting, pp.1-13, 2007.
DOI : 10.2514/6.2007-1332

P. T. Biltgen and D. N. Mavris, A Technique for Interactive Probabilistic Multiple Attribute Decision Making, 45th AIAA Aerospace Sciences Meeting and Exhibit, pp.1-13, 2007.
DOI : 10.2514/6.2007-1332

E. Bonjour, S. Deniaud, and J. Micaëlli, Lois d'évolution et méthodologies de conception, Les systèmes techniques, pp.83-101, 2009.

D. Bono and E. , Lateral Thinking -Creativity Step by Step, 1970.

J. P. Brans, B. Mareschal, and P. Vincke, PROMETHEE: A new family of outranking methods in multi-criteria analysis, Operational Research, pp.408-429, 1984.

S. Buisine, A. Boisadan, and S. Richir, L'innovation radicale par la méthode de l'utilisateur extraordinaire, 2017.

J. M. Carrillo, Requirements engineering tools : Capabilities , survey and assessment. INFORMATION AND SOFTWARE TECHNOLOGY, 2012.

M. Adrien, Méthodologie pour l'étude conceptuelle d'un système fortement innovant, pp.144-157

A. Charania and J. R. Olds, Application of the Abbreviated Technology Identification, Evaluation, and Selection (ATIES) methodology to a Mars Orbit Basing (MOB) Solar Clipper architecture, 53rd International Astronautical Congress, 2002.

G. Choquet, Theory of capacities, Annales de l'institut Fourier, vol.5, pp.131-295, 1954.

. Choulier, TRIZ, un état d'esprit, Available at: www.trizfrance.org, 2000.

D. Choulier and P. Weite, Découvrir et appliquer les outils de TRIZ, 2011.

C. Höfling, , 2017.

C. W. Churchmann and R. L. Ackoff, An approximate measure of value, Journal of Operations Research Society of America, vol.2, issue.1, pp.172-187, 1954.

, Centre National de Ressources Textuelles et Lexicales -Portail Lexical, 2018.

J. D. Couger, Creative Problem Solving and Opportunity Finding (Decision Making and Operations Management), 1995.

C. R. Coulin, A situational approach and intelligent tool for collaborative requirements elicitation, 2007.
URL : https://hal.archives-ouvertes.fr/tel-00195833

J. Craisse, Creation of a Decision-Support Methodology for Selecting More-Electric Aircraft Subsystem Technologies, Systems Conference (SysCon), 2016.

S. Delbecq, A framework for sizing embedded design systems during preliminary design. IFAC-PapersOnLine, vol.50, pp.4354-4359, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02044401

J. Derumier, Les méthodes de l'innovation de rupture, 2016.

, Design & Develop For You, Morphological Chart and Concept Generation, 2016.

G. E. Dieter and L. C. Schmidt, Engineering Design 5th editio, 2013.

R. F. Eberle, SCAMPER: Games for Imagination Development, 1971.

, ECSS P-001B Glossary of terms, ECSS, 2004.

W. O. Engler, P. T. Biltgen, and D. N. Mavris, Concept Selection Using an Interactive Reconfigurable Matrix of Alternatives (IRMA), 45th AIAA Aerospace Sciences Meeting and Exhibit, pp.1-8, 2007.

D. Falessi, Decision-making Techniques for Software Architecture Design : A Comparative Survey, ACM Computing Surveys (CSUR), issue.4, p.43, 2011.

G. Fanmuy, , 2014.

G. Fanmuy, Bonnes pratiques en ingénierie des exigences, Cépaduès E, 2012.

M. Adrien, Méthodologie pour l'étude conceptuelle d'un système fortement innovant, pp.145-157

G. Fanmuy, Recommandations pour l'élaboration d'un référentiel d'exigences techniques, 2001.

Y. Felk, Evaluation et pilotage des activités de recherche dans la R & D centrale de STMicroelectronics : nouveaux principes de management de la recherche industrielle pour l'innovation de rupture, 2011.

J. Figueira and S. Greco, Multiple Criteria Decision Analysis -State of the Art Surveys Springer S, 2005.

J. Figueira, V. Mousseau, and B. Roy, ELECRE Methods. In Multiple Criteria Decision AnalysisState of the Art Surveys, 2005.

S. Fiorèse and J. Meinadier, Découvrir et Comprendre l, Ingénierie Système Cépaduès E, 2012.

A. Fraj, Nouvelles approches en conception préliminaire basée sur les modèles des actionneurs embarqués, 2014.

K. Gadd, TRIZ For Engineers : Enabling Inventive Problem Solving, 2011.

T. Gal and T. Stewart, Multicriteria Decision Making: Advances in MCDM Models, Algorithms, Theory, and Applications, 1999.

G. Oussama, Approches multicritères en conception bioclimatique et optimisation par le biais d'un langage architecturale, 2014.

H. Gavel, On Aircraft Fuel Systems Conceptual Design and Modeling, 2007.

H. Gavel, J. Ölvander, and B. Johansson, An algorithmic morphology matrix for aircraft fuel system conceptual design, 25th International Congress of the Aeronautical Sciences, 2006.

D. George, Concept Generation Using Morphological And Options Matrices, 2012.

H. Geschka, Creativity techniques in product planning and development: A view from West Germany, 1983.

H. Geschka and W. J. Gordon, Kreativitätstechniken und Methoden der Ideenbewertung, 1961.

K. Govindan, Multi criteria decision making approaches for green supplier evaluation and selection : a literature review, Journal of Cleaner Production, vol.98, pp.66-83, 2015.

M. Grabisch, Une approche constructive de la décision multicritère A constructive approach to multicriteria decision making, Traitement du signal, vol.22, issue.4, pp.321-338, 2005.

T. Harker, Alternative modes of questioning analytic hierarchy process, Mathematical Modelling, vol.9, pp.353-360, 1987.

A. Hatchuel, P. Le-masson, and B. Weil, Design theory and collective creativity: A theoretical framework to evaluate KCP process, International Conference on Engineering Design, pp.277-288, 2009.

A. Hatchuel and B. Weil, La théorie C-K : Fondements et usages d'une théorie unifiée de la conception, pp.1-24, 2002.

J. R. Hauser and D. Clausing, The House of Quality, Harvard Business Review, issue.66, pp.63-73, 1988.

S. Haykin, Neural networks: A comprehensive foundation, 1994.

J. Henry and D. Walker, 3M's little yellow note pads: "never mind. I"ll do it myself, 1991.

V. Holley, A method to envision highly constrained architectural zones in the design of multiphysics systems in severe conditions, 2011.
URL : https://hal.archives-ouvertes.fr/tel-01016925

R. Horowitz, Creative problem solving in engineering design, 1999.

T. Howard, S. Culley, and E. Dekoninck, Creativity in the Engineering Design Process, International Conference on Engineering Design, pp.1-12, 2007.

H. Huang, R. Bo, and W. Chen, An integrated computational intelligence approach to product concept generation and evaluation. Mechanism and Machine Theory, vol.41, pp.567-583, 2006.

C. Hwang and K. Yoon, Multiple Attribute Decision Making -Methods and Applications -A State-of-the-Art Survey, 1981.

F. Incropera, Fundamentals of Heat and Mass Transfer 6th editio, 2007.

, ISO 9000 -Système de management de la qualité -Principes essentiels et vocabulaire, ISO, 2015.

. Iso/iec/ieee, 15288 Systems Engineering-System Life Cycle Processes, 2002.

. Iso/iec/ieee, ISO / IEC / IEEE 29148 -Systems and software engineering -Requirements engineering, 2011.

. Iso/iec/ieee, /IEC/IEEE 15288 -Systems and software engineering -System life cycle processes

. Iso/iec/ieee, ISO/IEC/IEEE 24765 Systems and software engineering -Vocabulary, 2010.

M. Jankovic, Multiple-domain design scorecards: a method for architecture generation and evaluation through interface characterisation, Journal of Engineering Design, vol.23, pp.743-763, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01216799

F. V. Jensen and D. T. Nielsen, Bayesian networks and decision graphs, 2007.

G. Jones and E. Mcfadzean, How can Reboredo foster creativity in her current employees and nurture creative individuals who join the company in the future, Harvard Business Review, issue.5, p.75, 1997.

R. L. Keeney and H. Raiffa, Decision Analysis with Multiple Conflicting Objectives, 1976.

T. Keinonen and R. Takala, Product Concept Design -A Review of the Conceptual Design of Products in Industry, 2006.

M. R. Kirby, A Methodology for technology identification, evaluation, and selection in conceptual and preliminary aircraft design, 2001.

J. Konaté, Approche système pour la conception d'une méthodologie pour l'élicitation collaborative des exigences, 2009.

A. Kossiakoff and W. N. Sweet, Systems Engineering Principles and Practice John Wiley, 2003.

G. Kotonya and I. Sommerville, Requirements Engineering : Process and Techniques John Wiley, 1998.

E. Kroll, S. S. Condoor, and D. G. Jansson, Innovative Conceptual Design C, Larousse, Dictionnaire de français, 2004.

Y. Li, Design creativity in product innovation, The International Journal of Advanced Manufacturing Technology, vol.33, issue.3, pp.213-222, 2007.

F. Limayem, Modèles de pondération par les méthodes de tri croisé pour l'aide à la décision collaborative en projet, 2001.

J. Liscouët, Conception préliminaire des actionneurs électromécaniques -Approche hybride, directe/inverse, 2010.

S. Liscouët-hanke, A model-based methodology for integrated preliminary sizing and analysis of aircraft power system architectures, 2008.

D. Liu, Systems engineering -Desing Principles and Models C. Press, 2016.

M. Lo, Contribution à l'évaluation d'architectures en Ingénierie Système : application en conception de systèmes mécatroniques, 2013.

M. Mammeri, Une approche d'aide multicritère à la décision pour l'évaluation du confort dans les trains : construction d'un modèle d'évaluation, 2013.

K. Manami, K. Ridgway, and M. Roshdi, Modelling the Conceptual Design Process with Hybridization of TRIZ Methodology and Systematic Design Approach, Procedia Engineering, vol.131, pp.1064-1072, 2015.

A. B. Markman, An Experimental Study of Group Idea Generation Techniques: Understanding the Roles of Idea Representation and Viewing, Journal of Mechanical Design, vol.133, issue.3, pp.1-15, 2011.

K. Marsh, Assessing the Value of Healthcare Interventions Using Multi-Criteria Decision Analysis : A Review of the Literature, PharmacoEconomics, vol.32, issue.4, pp.345-365, 2014.

J. Martel and B. Roy, Analyse de la signifiance de diverses procédures d'agrégation multicritère. INFOR: Information Systems and Operational Research, p.44, 2006.

J. N. Martin, Overview of an Emerging Standard on Architecture Evaluation -ISO / IEC 42030, 27th Annual INCOSE International Symposium, 2017.

A. Mavin, EARS (Easy Approach to Requirements Syntax), 17th IEEE International Requirements Engineering Conference, pp.317-322, 2009.

M. Mayda and H. R. Borklu, Development of an innovative conceptual design process by using Pahl and Beitz's systematic design, TRIZ and QFD, vol.8, issue.3, pp.1-12, 2014.

E. Mcfadzean, Enhancing creative thinking within organisations. Management Decision, vol.36, pp.309-315, 1998.

E. Mcfadzean, The classification of creative problem solving techniques, 1996.

E. Mcfadzean, The Creativity Continuum: Towards a Classification of Creative Problem Solving Techniques. Creativity and innovation management, vol.7, pp.131-139, 1998.

E. Mcfadzean and T. Nelson, Facilitating problem-solving groups: a conceptual model, Leadership & Organization Development Journal, vol.19, issue.1, pp.6-13, 1998.

F. L. Mckoy, Influence of design representation on effectiveness of idea generation, Desing Engineering Technical Conferences, pp.1-10, 2001.

F. Mhenni, A SysML-based methodology for mechatronic systems architectural design, Advanced Engineering Informatics, vol.28, issue.3, pp.218-231, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01903161

A. Monsimer, J. Maré, and P. Sicaire, Requirements engineering for radical innovationApplication to helicopter engine fuel system, 27th Annual INCOSE International Symposium (IS2017), 2017.

M. Moullec, Towards decision support for complex system architecture design with innovation integration in early design stages, 2014.
URL : https://hal.archives-ouvertes.fr/tel-00994935

K. J. Mycoted and . Method, , 2016.

M. Nagasundaram and R. P. Bostrom, The Structuring of Creative Processes: Implications for GSS Research Terry College of Business The University of Georgia, 1993.

A. Ngassa, M. Bigand, and P. Yim, A new approach for the generation of innovative concept for product design, International Conference on Engineering Design, 2003.

D. A. Norman and R. Verganti, Incremental and Radical Innovation : Design Research vs Technology and Meaning Change. Design Issues, vol.30, pp.78-96, 2014.

B. Nuseibeh and S. Easterbrook, Requirements Engineering : A Roadmap, International Conference on Software Engineering, pp.35-46, 2000.

A. Osborn, Applied Imagination, 1940.

A. Osborn, Your Creative Power, 1948.

G. Pahl, Engineering Design -A systematic Approach 3rd editio, 2007.

M. Adrien, Méthodologie pour l'étude conceptuelle d'un système fortement innovant, pp.149-157

J. Perrin, Concevoir l'innovation indutrielle : méthodologie de conception de l'innovation, 2001.

T. Peugeot, System Engineering, for a Cognitive Sciences Approach, Complex Systems Design & Management Conference, 2014.

O. Pialot, L'approche PST comme outil de rationalisation de la démarche de conception innovante, 2009.

, A guide to the project management body of knowledge (BOK® guide, 2008.

M. K. Rathod and H. V. Kanzaria, A methodological concept for phase change material selection based on multiple criteria decision analysis with and without fuzzy environment, Materials and Design, vol.32, pp.3578-3585, 2011.

J. Rezaei, Best-worst multi-criteria decision-making method, Omega, vol.53, pp.49-57, 2015.

B. Roy, Revue française d'informatique et de recherche opérationnelle, vol.2, pp.57-75, 1968.

M. A. Runco, Creativity. Theories and Themes: Research, Development and Practice Elsevier, 2007.

T. L. Saaty, A scaling method for priorities in hierarchical structures, Journal of Mathematical Psychology, vol.15, issue.3, pp.234-81, 1977.

T. L. Saaty, The analytical hierarchy process, 1980.

. Sae, Aerospace Recommended Practice, p.4754, 2010.

. Safran, Media Gallery Safran. Available at, 2018.

, Inventer les hélicoptères du futur, 2016.

P. Samuel and K. Jablokow, Psychological Inertia and the Role of Idea Generation Techniques in the Early Stages of Engineering Design, Mid-Atlantic ASEE Conference, 2010.

F. Sanchez, Génération de modèles analytiques pour la conception préliminaire de systèmes multi-physiques : application à la thermique des actionneurs et des systèmes électriques embarqués, 2017.

F. Sanchez and S. Delbecq, Surrogate modeling technique for the conceptual and preliminary design of embedded actuation systems and components, ICAS, 2016.

S. Schöllhammer, Idea generation & evaluation -Training to iDEA Lab staff, 2015.

D. P. Schrage, Technology for Rotorcraft Affordability Through Integrated Product/Process Development (IPPD), American Helicopter Society 55th Annual Forum, 1999.

S. Senthil, B. Srirangacharyulu, and A. Ramesh, Expert Systems with Applications A robust hybrid multi-criteria decision making methodology for contractor evaluation and selection in thirdparty reverse logistics, Expert Systems With Applications, vol.41, issue.1, pp.50-58, 2014.

J. J. Shah, Experimental Investigation of Progressive Idea Generation Techniques in Engineering Design. Design Engineering Technical Conference, pp.1-15, 1998.

J. J. Shah, S. Kulkarni, and N. Vargas-hernandez, Evaluation of Idea Generation Methods for Conceptual Design: Effectiveness Metrics and Design, vol.122, pp.377-384, 2000.

J. J. Shah, N. Vargas-hernandez, and S. M. Smith, Metrics for measuring ideation effectiveness, Design Studies, vol.24, issue.2, pp.111-134, 2003.

S. Creativity, L. Matrice, and T. , , 2016.

T. Solid-creativity, , 2016.

J. Sun, Design candidate identification using neural network-based fuzzy reasoning, Robotics and Computer Integrated Manufacturing, vol.16, pp.383-396, 2000.

C. Svahn, An automated approach to aircraft fuel system synthesis, CHAOS Report, 1994.

G. Thompson and M. Lordan, A review of creativity principles applied to engineering design, Proceedings of the Institution of Mechanical Engineers, pp.17-31, 1999.

P. N. Tran, Modèles de décision pour la sélection d'interface et l'association flux/interface pour les terminaux mobiles multi-interfaces, 2010.

B. Tyl, L'apport de la créativité dans les processus d'éco-innovation -Proposition de l'outil EcoASIT pour favoriser l'éco-idéation de systèmes durables, 2011.

G. Tzeng and J. Huang, Multiple Attribute Decision Making, 2011.

D. G. Ullman, The Mechanical Design Process Fourth Edi, 2010.

K. T. Ulrich and S. D. Eppinger, Product Design and Development, 2012.

H. Valeins, La maîtrise des 5M ou le diagramme d'Ishikawa, 2009.

D. Vanderpooten, Aide multicritère à la décision -Concepts, méthodes et perspectives, 2008.

A. B. Vangundy, Techniques of Structured Problem Solving, 1988.

, INCOSE Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities, 2015.

Y. M. Wang and Y. Luo, On rank reversal in decision analysis, Mathematical and Computer Modelling, vol.49, pp.1221-1229, 2009.

M. Adrien, Méthodologie pour l'étude conceptuelle d'un système fortement innovant, pp.151-157

R. G. Weber, S. S. Condoor, and S. Louis, Conceptual Design Using a Synergistically Compatible Morphological Matrix, 28th Annual Frontiers in Education Conference, 1998.

M. P. Weiss and Y. Gilboa, More on synthesis of concepts as an optimal combination of solution principles, International Design Conference, 2004.

M. P. Weiss and A. Hari, Extension of the Pahl & Beitz systematic method for conceptual design of a new product, Procedia CIRP, vol.36, pp.254-260, 2015.

Y. Yan and P. R. Childs, Creativity tool selection for design engineers in idea generation, International Conference on Engineering Design, pp.1-12, 2015.

B. Yannou, G. Lamé, and F. Cluzel, Radical Innovation Design : Innover par les usages grâce à l'identification de poches de valeur. Valeur(s) et Management, 2018.

S. Yilmaz and C. M. Seifert, Cognitive Heuristics in Design Ideation, International Design Conference. Dubrovnik (Croatia), pp.1007-1016, 2010.

L. A. Zadeh, Fuzzy logic, Computer, vol.21, issue.4, pp.83-93, 1988.

F. Zwicky, The Morphological Method of Analysis and Construction, 1948.

M. Adrien, Méthodologie pour l'étude conceptuelle d'un système fortement innovant, pp.152-157