1. Abassian, A., Safi, F., Bush, S., & Bostic, J. (2019). Five different perspectives on mathematical modeling in mathematics education. Investigations in Mathematics Learning, 12(1), 53–65. https://doi.org/10.1080/19477503.2019.1595360

2. Adekola, H. A., Adekunle, I. A., Egberongbe, H. O., Onitilo, S. A., & Abdullah, I. N. (2020). Mathematical modeling for infectious viral disease: The COVID-19 perspective. Journal of Public Affairs. https://doi.org/10.1002/pa.2306

3. Anhalt, C. (2014). Scaffolding in mathematical modeling for ELLs. In M. Civil & E. Turner (Eds.), The common core state standards in mathematics for English language learners: Grades K-8 (pp. 111–126). TESOL International Association Publications.

4. Brady, C., & Lesh, R. (2021). Development in mathematical modeling. In J. Suh, M. Wickstrom & L. D. English (Eds.), Mathematical modeling with young earners (pp. 95–110). Springer. https://doi.org/10.1007/978-3-030-63900-6_5

5. Cai, J., Crillo, M., Pelesko, J. A., Borromeo Ferri, R., Geiger, V., Stillman, G., & Kwon, O. (2014). Mathematical modeling in school education: Mathematical, cognitive, curricular, instructional, and teacher education perspectives. In P. Liljedahl, C. Nicol, S. Oesterie & D. Allan (Eds.), Proceedings of the Annual Conference of the International Group for the Psychology of Mathematics Education (PME 38) and the North American Chapter of the Psychology of Mathematics Education (PME-NA 36) (pp. 145–172). Vancouver.