In mathematics, there are two criteria for questions or problems, namely challenging and demanding procedures that are not routine in solving them. The problem is a situation where a person is able to realize the existence of a situation and admit that the situation requires action and resolution that is not easy. By using problem solving strategies, students can make a mathematical representation of the problem, which is one of the abilities in mathematics related to problem solving, reasoning, proof, and communication. Conversely, if we choose the right representation, it will allow us to reach an effective solution to the problem. Heuristic is a strategy used to find and solve a mathematical problem using solving steps. There are many types of heuristic strategies that can be used in learning mathematics to solve problems, but in this study, will be discussed strategies by Mathlin, namely The Analogy Approach, The Means-Ends Heuristic, and The Hill-Climbing Heuristic.

A. F. Samsuddin, H. Retnawati. (2018). IOP Conf Ser. J. Phys. Conf Ser., 1097 (012152).

Bella Wicasari, Z. E. (2017). 45–57.

Charniak, Eugene and Drew McDermot. (1987). Artificial Intelligence, Reading. Massachusetts: Addison Wesley Publishing Company.

Dindin Abdul Muiz Lidinillah. (2011). Heuristik dalam Pemecahan Masalah Matematika dan Pembelajarannya di Sekolah Dasar. Jurnal Elektronik.

Dwi Rahmawati, R. B. A. (2017). International Education Studies, 10(10).

Gabringer, R. Scott, David Jonassen and Brent G. Wilson. (1992). “The Use of Expert System,” Handbook of Human Performance Problems in Organization, ed. Harold D. Stolovich & Erica J. Kepps. San Francisco: Joseey-Bass Publishers.

Gersten, R., Chard, D. J., Jayanthi, M., Morphy, P., & Flojo, J. (2009). Mathematics instruction for students with learning disabilities: A meta-analysis of instructional components. Review of Educational Research. 79, 1202-1242.

Gray, P. (1994). Psychology (2nd ed.). New York, NY: Worth Publishers.

H Retnawati, A. F. S. (2018). IOP Conf. Series: Journal of Physics: Conf. Series, 1097(012152).

I Made Candiasa. (2017). Strategi Heuristik untuk Meningkatkan Ketahanmalangan Peserta didik dalam Pembelajaran Matematika. SEMINAR NASIONAL RISET INOVATIF.

James A. Dixon, R. B. (2009). Strategies and problem representations: Implications for models of changing cognitive structure. Commentary on “Learning new problem-solving strategies leads to changes in problem representation” by M.W. Alibali, K.M. Ockuly and A.D. Fischer. 24, 102–105. https://doi.org/10.1016/j.cogdev.2009.03.002

Juan D. Godino. (2015). Mathematical Concepts, Their Meanings, and Understanding. https://www.researchgate.net/publication/253279297

Juniati, N. I. (2018). Kemampuan Representasi Matematis Peserta didik dalam Menyelesaikan Soal Cerita Materi Program Linear di Madrasah Aliyah Negeri 2 Pontianak. Jurnal.Untan.ac.id/Index.Php/Jpdpb/Article/Download/28988/75676578727.

Lailiyah, S., Nusantara, T., Sa’dijah, C., Irawan, E. B., Kusaeri, & Ashar, A. H. (2018). Structuring Students’ Analogical Reasoning in Solving Algebra Problem. IOP Conf. Series: Materials Science and Engineering 296 (2018) 012029, 1 – 6. Doi: 10.1088/1757-899X/296/ 1/012029.

Lindsey Engle Richland, N. S. (n.d.). WIREs Cogn Sci 2015. Doi: 10.1002/Wcs.1336.

Mathlin, Margareth W. (1994). Kognitif Edisi Ketiga. Terjemahan Nilawati Tadjuddin Syabri Harcourt Brace Publisher: State University of New York.

Petr Eisenmann2 & Jarmila Novotná & Jiří Přibyl & & Jiří Břehovský. (2015). The development of a culture of problem solving with secondary students through heuristic strategies. Math Ed Res J, 27 (535-562).

Powell S R, H. M. A. (2016). 29(7), 1511–1537.

Scoenfeld, Alan H. (1980). Heuristik in the Classroom, dalam Krulik, S. dan Reys, Robert E. (Eds). Problem Solving in School Mathematic. NCTM.

Sickafus, Ed. (2004). Heuristics for Solving Technical Problem: Theory, Derivation, Application.

Wahyudi, I. A. (2017). Strategi Pemecahan Masalah Matematika. Satya Wacana University Press.

Wardono, F., S. D. (2019). Representasi Matematika dalam Pemecahan Masalah. PRISMA, Prosiding Seminar Nasional Matematika, 606–610.