TY - JOUR A1 - Thienen, Julia von A1 - Clancey, William J. A1 - Corazza, Giovanni Emanuele A1 - Meinel, Christoph T1 - Theoretical foundations of design thinking creative thinking theories JF - Design Thinking Research: Making Distinctions: Collaboration versus Cooperation N2 - Design thinking is acknowledged as a thriving innovation practice plus something more, something in the line of a deep understanding of innovation processes. At the same time, quite how and why design thinking works-in scientific terms-appeared an open question at first. Over recent years, empirical research has achieved great progress in illuminating the principles that make design thinking successful. Lately, the community began to explore an additional approach. Rather than setting up novel studies, investigations into the history of design thinking hold the promise of adding systematically to our comprehension of basic principles. This chapter makes a start in revisiting design thinking history with the aim of explicating scientific understandings that inform design thinking practices today. It offers a summary of creative thinking theories that were brought to Stanford Engineering in the 1950s by John E. Arnold. Y1 - 2018 SN - 978-3-319-60967-6 SN - 978-3-319-60966-9 U6 - https://doi.org/10.1007/978-3-319-60967-6_2 SP - 13 EP - 40 PB - Springer CY - New York ER - TY - CHAP A1 - Corazza, Giovanni Emanuele A1 - Thienen, Julia von ED - Glăveanu, Vlad Petre T1 - Invention T2 - The Palgrave encyclopedia of the possible N2 - This entry addresses invention from five different perspectives: (i) definition of the term, (ii) mechanisms underlying invention processes, (iii) (pre-)history of human inventions, (iv) intellectual property protection vs open innovation, and (v) case studies of great inventors. Regarding the definition, an invention is the outcome of a creative process taking place within a technological milieu, which is recognized as successful in terms of its effectiveness as an original technology. In the process of invention, a technological possibility becomes realized. Inventions are distinct from either discovery or innovation. In human creative processes, seven mechanisms of invention can be observed, yielding characteristic outcomes: (1) basic inventions, (2) invention branches, (3) invention combinations, (4) invention toolkits, (5) invention exaptations, (6) invention values, and (7) game-changing inventions. The development of humanity has been strongly shaped by inventions ever since early stone tools and the conception of agriculture. An “explosion of creativity” has been associated with Homo sapiens, and inventions in all fields of human endeavor have followed suit, engendering an exponential growth of cumulative culture. This culture development emerges essentially through a reuse of previous inventions, their revision, amendment and rededication. In sociocultural terms, humans have increasingly regulated processes of invention and invention-reuse through concepts such as intellectual property, patents, open innovation and licensing methods. Finally, three case studies of great inventors are considered: Edison, Marconi, and Montessori, next to a discussion of human invention processes as collaborative endeavors. KW - invention KW - creativity KW - invention mechanism KW - cumulative culture KW - technology KW - innovation KW - patent KW - open innovation Y1 - 2023 SN - 978-3-030-90912-3 SN - 978-3-030-90913-0 U6 - https://doi.org/10.1007/978-3-030-90913-0_14 SP - 806 EP - 814 PB - Springer International Publishing CY - Cham ER -