73482 - Creative Sciences and Creative Thinking

Course Unit Page

SDGs

This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.

Quality education Decent work and economic growth Industry, innovation and infrastructure Partnerships for the goals

Academic Year 2018/2019

Learning outcomes

At the end of this class, the student will possess scientifically sound notions about the creative thinking process, along with the pragmatic application of the principles for the generation of new ideas. The student will master theoretical and methodological notions regarding the cognitive and conative components which are at the very basis of the creative process. Particular emphasis will be placed onto universal strategies, applicable to diversified domains, which allow to increase awareness and efficacy of the overall creative thinking exercise.

Course contents

Part I - Creativity for design: introduction and lessons learned.
Part II - Theoretical foundations of creative thinking. Cognitive modelling. 
Part III - The DIMAI model. Strategies and processes for specific thinking stages. 
Part IV - Innovation: hurdles and strategies for success. 
Part V - Application to study cases.

Readings/Bibliography

Appunti dalle lezioni e slides

Video lecture: https://www.youtube.com/watch?v=bEusrD8g-dM

Corazza G.E. (2016). Potential originality and effectiveness: The dynamic definition of creativity, Creativity Research Journal.

Corazza G.E. (2017). Organic creativity for well-being in the post-information society. Europe's Journal Of Psychology, 13, 599-605.

Corazza, G. E. (2018). The Dynamic Universal Creativity Process. In R. Beghetto, & G. E. Corazza (Eds.), Dynamic Perspectives on Creativity: New Directions for Theory, Research, and Practice in Education. Springer.(forthcoming)

Corazza, G. E. (2018). Life in the Cyber-Physical Society: the Need for Organic Creativity. In I. Lebuda & V.P. Glaveanu (Eds.), The Palgrave Handbook of Social Creativity Research. Palgrave Macmillan (forthcoming)

Agnoli, S., Runco, M. A., Kirsch, C., & Corazza, G. E. (2018). The role of motivation in the prediction of creative achievement inside and outside of school environment. Thinking Skills and Creativity, 28, 167-176.

Agnoli, S., Franchin, L., Rubaltelli, E., & Corazza, G. E. (2018). The emotionally intelligent use of attention and affective arousal under creative frustration and creative success. Personality and Individual Differences.

Agnoli, S., Zanon, M., Mastria, S., Avenanti, A., & Corazza, G. E. (2018). Enhancing creative cognition with a rapid right-parietal neurofeedback procedure. Neuropsychologia.

Agnoli, S., Vannucci, M., Pelagatti, C. & Corazza, G.E. (2018). Exploring the Link Between Mind Wandering, Mindfulness, and Creativity: A Multidimensional Approach. Creativity Research Journal, 30(1), 41-53.

von Thienen, J., Meinel, C, & Corazza G.E. (2017). A short theory of failure [http://ecdtr.hpi-web.de/report/2017/001/] . Electronic Colloquium on Design Thinking Research, 17, 1-5.

Agnoli S., Corazza G.E., & Runco M. (2016). Estimating Creativity with a Multiple-Measurement Approach Within Scientific and Artistic Domains, Creativity Research Journal, 28(2), 171-176.

Agnoli S., Franchin L., Rubaltelli E., & Corazza G.E. (2015). An Eye-Tracking Analysis of Irrelevance Processing as Moderator of Openness and Creative Performance, Creativity Research Journal, 27, 125-132.

Corazza G.E., Agnoli S., & Martello S. (2014). Counterpoint as a principle of creativity: Extracting divergent modifiers from 'The Art of Fugue' by Johann Sebastian Bach, Musica Docta, 4, 93-105.

Corazza G.E., & Agnoli S. (2015). On the impact of ICT over the creative process in humans, MCCSIS Conference 2015 Proceedings, Las Palmas De Gran Canaria.

Agnoli S., & Corazza G.E. (2015). TRIZ as seen through the DIMAI creative thinking model, Procedia Engineering, 131, 807-815, Paris.

Corazza G.E., & Agnoli S., Eds. (2015). Multidisciplinary Contributions to the Science of Creative Thinking [http://www.springer.com/us/book/9789812876171] . Singapore: Springer.

Corazza G.E., Agnoli S., & Martello S. (2016). A Creativity and Innovation Course for Engineers. In C. Zhou (Ed.), Handbook of Research on Creative Problem-Solving Skill development in Higher Education. Hershey, GA: IGI Global.

Corazza G.E., & Agnoli S. (2015). On the Path Towards the Science of Creative Thinking. In G.E. Corazza and S. Agnoli (Eds.), Multidisciplinary Contributions to the Science of Creative Thinking(pp. 3-19). Singapore: Springer.

Corazza G.E., Agnoli S., & Martello S. (2015). Introducing Irrelevant Information in the Creative Process: the DIMAI model for Fashion Design. In Cultures, Fashion, and Society Notebooks 2015. Pearson - Bruno Mondadori. DOI: 10.17464/9788867741236

Corazza G.E. (2016). La scienza del pensiero creativo come acceleratore per l'innovazione industriale. In Culture del progetto e Industrie Culturali e Creative.

 

Teaching methods

Lesson and practical application examples

Assessment methods

Given that assessment is distributed throughout the course, attendance of at least 70% of classes is mandatory.

Assessment includes design exercises adopting the DIMAI model for creative thinking.

The final presentation of the generated ideas is also the final exam for those students who attended at least 70% of classes.

An oral colloquium is used as an integration for those students who did not satisfy the minimum requisites of attendance.

Office hours

See the website of Giovanni Emanuele Corazza