G. S. Altshuller, Creativity as an exact science. The theory of the solution of inventive problems, 1984.

D. Cavallucci, G. Cascini, and J. Duflou, TRIZ and Knowledge-Based Innovation in Science and Industry. Procedia Eng, vol.131, pp.1-2, 2015.

L. Chechurin and Y. Borgianni, Understanding TRIZ through the review of top cited publications, Computers in Industry, vol.82, pp.119-134, 2016.

I. Belski, D. Cavallucci, and C. Hentschel, Sustainable Education in Inventive Problem Solving with TRIZ and Knowledge-Based Innovation at Universities, Automated Invention for Smart Industries, IFIP Advances in Information and Communication Technology, vol.541, pp.51-74, 2018.

I. Belski, P. Livotov, and O. Mayer, Eight Fields of MATCEMIB Help Students to Generate More Ideas, Proc. CIRP, vol.39, pp.85-90, 2016.

P. Livotov, Enhancing Innovation and Entrepreneurial Competences of Engineering Students through a Systematic Cross-Industry Innovation Learning Course, Proceedings of the 29th Annual Conference of the Australasian Association for Engineering Education (AAEE), p.9, 2018.

V. Petrov, Universal Inventive Principles TRIZ: Inventive principles for all fields. Kindle Edition, ASIN: B07CRRY99N, 226 p, 2018.

P. Livotov, A. P. Chandra-sekaran, R. Law, . Mas'udah, and D. Reay, Systematic Innovation in Process Engineering: Linking TRIZ and Process Intensification. In: Chechurin L., Collan M, pp.27-44, 2019.

. Triz-trainingsbuch, Systematische Produktentwicklung und erfinderische Problemlösung mit TRIZ Methodik (Selbstlernkurs), vol.88, p.p, 2012.

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