KnE Social Sciences
ISSN: 2518-668X
The latest conference proceedings on humanities, arts and social sciences.
Epistemological Obstacles in the Process of Learning Mathematical Abstraction: A Systematic Literature Review
Published date: May 27 2025
Journal Title: KnE Social Sciences
Issue title: The 4th International Conference on Science, Mathematics, Environment, and Education (ICoSMEE 2023)
Pages: 272 - 294
Authors:
Abstract:
This study aims to analyze students’ mathematical abstraction abilities as epistemological obstacles in mathematics learning over the past ten years (2015 2024). A total of 65 articles were collected from the ERIC, Scopus, and Google Scholar databases, of which 27 employed a didactical design research approach. The most commonly encountered learning obstacles were epistemological (55%), followed by didactical (24%) and ontological obstacles (21%). The main difficulties experienced by students included challenges in understanding concepts, performing mathematical representations, applying procedures, and solving problems. Epistemological obstacles in the process of mathematical abstraction were identified through students’ tendencies to unconsciously reduce levels of abstraction. These reductions occurred in three interpretations of abstraction levels: the relationship between the thinker and the object of thought, the dual nature of objects and processes, and the complexity involved in understanding mathematical concepts. The findings highlight the critical need to address abstraction-related difficulties to support effective mathematics learning.
Keywords: epistemological obstacles, mathematical abstraction, systematic literature review
References:
[1] Syarifudin MT, Ratnaningsih N, Ni’mah K. Analisis Kemampuan Abstraksi Matematis Dalam Pembelajaran Matematika di MAN 1 Tasikmalaya. MUST: Journal of Mathematics Education. Science and Technology. 2021;6(2):231–40.
[2] Yusepa B. Kemampuan Abstraksi Matematis Siswa Sekolah Menengah Pertama (SMP) Kelas VIII. Symmetry: Pasundan Journal of Research in Mathematics Learning and Education. 2017;I.
[3] Wiryanto. Level-Level Abstraksi Dalam Pemecahan Masalah Matematika. Jurnal Pendidikan Teknik Elektro. 2014;03(03):569–78.
[4] Sumbandari A, Misdalina M, Fuadiah NF. Abstraksi Matematika Sebagai Epistemological Obstacles dalam Pemodelan Pembelajaran SPLDV di Sekolah Menengah [ Jurnal Nasional Pendidikan Matematika]. JNPM. 2022;6(1):69.
[5] Edimuslim E. Edimuslim. Analisis Kemampuan Abstraksi Matematis Siswa Sekolah Menengah Pertama Ditinjau dari Gaya Belajar Tipe Kolb. Suska Journal of Mathematics Education. 2022;8(1):39–46.
[6] Nisa’ AL. Analisis Kemampuan Abstraksi Matematis Siswa Dalam Menyelesaikan Soal Pada Materi Segiempat Kelas VII SMP. JPM : Jurnal Pendidikan Matematika. 2018;4(1):01–8.
[7] Fajriyah N. Susanah. Profil Kemampuan Absraksi Reflektif Siswa Dalam Menyelesaikan Masalah Geometri Ditinjau Dari Gaya belajar. MATHEdunesa. Jurnal Ilmiah Pendidikan Matematika. 2022;11(2):458–73.
[8] Nadilia B, Wijayanti P. Abstraksi Reflektif Siswa SMP dalam Menyelesaikan Masalah Matematika Ditinjau dari Kemampuan Matematika. MATHEdunesa. 2023;12(3):684– 97.
[9] Apriyani E. Peningkatan Kemampuan Abstraksi Matematis Siswa SMPN 16 Bandung Melalui Pembelajaran Dengan Model Eliciting Activities (MEAS). SCIENCE : Jurnal Inovasi Pendidikan Matematika dan IPA. 2021;1(3):238–44.
[10] Khasanah N, Kusmayadi TA, Nurhasanah F. Analisis Kesulitan Dalam Menyelesaikan Masalah Abstraksi Matematis Pada Pokok Bahasan Fungsi. AKSIOMA: Jurnal Program Studi Pendidikan Matematika. 2021;10(1):359.
[11] Anwar S, Junaedi Y, Umami MR. Analisis Kesalahan Siswa Dalam Menyelesaikan Soal Berpikir Abstraksi Matematis Pada Materi Geometri Ruang. Geomath. 2022;3(2):75.
[12] Wijayanti AN, Susanti E. Berpikir Matematis Aspek Abstraksi Siswa Kelas XI Menggunakan Pembelajaran Creative Problem Solving. Jurnal Pendidikan Matematika. 2021;12(1):1.
[13] Guy B. Theory of Didactical Situations in Mathematics. 19th ed. Bishop AJ, editor. New York, Boston, Dordrecht, London, Moscow: Kluwer Academic Publishers; 2002. 86–87 p.
[14] Fadlelmula FK. Enablers and obstacles in teaching and learning of mathematics: A systematic review in LUMAT journal. Lumat. 2022;10(2):33–55.
[15] Cahyani L. Masriyah, Budi Rahaju E. Students’ Reflective Abstraction of Middle School in Reconstructing Quadratic Equation Concept Based on High Mathematical Ability. In: Journal of Physics: Conference Series. 2019.
[16] Hutagalung EE, Mulyana E, Pangaribuan TR. Mathematical Abstraction: Students’ Concept of Triangles. In: Journal of Physics: Conference Series. 2020.
[17] Kilicoglu E, Kaplan A. Predicting the Mathematical Abstraction Processes Using the Revised Bloom’s Taxonomy: Secondary School 7th Graders. Athens Journal of Education. 2022;9(2):237–56.
[18] Cifarelli VV. The Role Of Abstraction As A Learning Process In Mathematical Problem Solving. J Allergy Clin Immunol. 1998;130(2):556.
[19] Fitriani N, Nurfauziah P. Gender and Mathematical Abstraction on Geometry. J Phys Conf Ser. 2019;1315(1):012052.
[20] Fitriani N, Suryadi D, Darhim D. THE STUDENTS’MATHEMATICAL ABSTRACTION ABILITY THROUGH REALISTIC MATHEMATICS EDUCATION WITH VBAMICROSOFT EXCEL. Infinity Journal. 2018;
[21] Harry AR, Cahya E, Jupri A. Mathematical Abstraction Abilities of Hight School Students in Term of Cognitive Style. Proceedings of the 7th Mathematics, Science, and Computer Science Education International Seminar, MSCEIS 2019. Bandung, Indonesia; 2020. https://doi.org/10.4108/eai.12-10-2019.2296504.
[22] Iswari IF, Susanti E, Hapizah H, Meryansumayeka M, Turidho A. Design of Problem- Solving Questions to Measure Mathematical Thinking Type Abstraction. Journal of Physics. Conference Series; 2019. https://doi.org/10.1088/1742-6596/1318/1/012104.
[23] Putri T, Susanti E, Simarmata RH. Hapizah, Nurhasanah. Generalization in Exponential Problems as a Part of Developing Mathematical Abstraction. In: Sriwijaya University Learning and Education International Conference (SULE-IC). 2020. p. 668–72.
[24] Hong J, Kim KM. Mathematical Abstraction in The Solving of Ill-Structured Problems by Elementary School Students in Korea. Eurasia J Math Sci Technol Educ. 2016;12(2):267–81.
[25] Nurhasanah F, Kusumah YS, Sabandar J. Concept of Triangle : examples of Mathematical. International Journal on Emerging Mathematics Education. 2017;1(1):53–70.
[26] Hazzan O, Zazkis R. Reducing Abstraction: The Case of School Mathematics. Educ Stud Math. 2005;58(1):101–19.
[27] Sümen ÖÖ. Primary School Students’ Abstraction Levels of Whole-Half-Quarter Concepts According to RBC Theory. J Math Educ. 2019;10(2):251–64.
[28] Mensah NB, Odro EB, Williams DA, Odro B, Examination DA, Mensah NB, et al. Examination of 9 th Graders ’. Levels of Geometric Thinking. 2023;9(3):688–703.
[29] ALVES FRV. da SILVA CAMILO AM, FONTENELE FCF, CATARINO PMMC. Didactical Engineering in the Conception of a Teaching Situation Originated from Brazil’s SPAECE Assessment with the Support of the GEOGEBRA Software. Acta Didact Napocensia. 2021;14(2):84–98.
[30] Budiarto MT, Khabibah S, Setianingsih R. Construction of High School Students’ Abstraction Levels in Understanding the Concept of Quadrilaterals. Int Educ Stud. 2017;10(2):148.
[31] Sudirman R. S. Kusumah Y, A. Priatna Martadipura B. Epistemological Obstacle in 3D Geometry Thinking: Representation, Spatial Structuring, and Measurement. Pegem J Educ Instr. 2023;13(4):292–301.
[32] Kilicoglu E, Kaplan A. Predicting the Mathematical Abstraction Processes Using the Revised Bloom’s Taxonomy: Secondary School 7th Graders. Athens J Educ. 2022;9(2):237–56.
[33] Araújo CH, Menezes DB. Mathematical Proof and Epistemological Obstacles: Assumptions of the Methodological Teaching Proposal of the Fedathi Sequence. Int Electron J Math Educ. 2022;17(4):1–10.
[34] Mega TB, Endah BR, Sugi H. Students’ Abstraction in Re-cognizing, Building With and Constructing a Quadrilateral. Educ Res Rev. 2017;12(7):394–402.
[35] Ali CA. The Didactical Phenomenology in Learning The Circle Equation. Int Electron J Math Educ. 2022;17(4):1–11.
[36] Gürbüz MÇ, Ozdemir ME. A Learning Trajectory Study on How the Concept of Variable Is Constructed by Students. World J Educ. 2020;10(1):134.
[37] Sezgin Memnun D, Aydιn B, Özbilen Ö, Erdoğan G. The Abstraction Process of Limit Knowledge. Kuram ve Uygulamada Egit Bilim Educ Sci Theory Pract. 2017;17(2):345– 71.
[38] COŞAR MÇ. KEŞAN C. Self-Regulation Behaviours of a Gifted Student in Mathematical Abstraction Process. Turkish Int J Spec Educ Guid Couns. 2021;10(2):152–68.
[39] Supriadi S. Elementary School Students Reflection: Didactical Design Analysis on Integer and Fraction Operations on Mathematical Concepts with Sundanese Ethnomathematics Learning. Pegem J Educ Instr. 2022;12(4):192–9.
[40] Silo RA, Herman T, Jupri A. The design of mathematics learning using didactical engineering to develop the mathematical comprehension ability and self-confidence of elementary students. J Phys Conf Ser. 2021;1957(1):012011.
[41] Setiadi DR, Suryadi D, Mulyana E. Didactical Design Enrichment of Angle in Geometry. J Phys Conf Ser. 2017;895(1):012060.
[42] Sari A, Suryadi D, Syaodih E. Didactical Design of Trapezoid Concept for Elementary School Students. First Indones Commun … [Internet]. 2018; Available from: https://www.atlantis-press.com/proceedings/ice-17/25893130
[43] Saefudin AA, Wijaya A, et al. Hypothetical Learning Trajectory Based on Theory of Didactical Situation: An Initial Learning Trajectory Design to Enhance Mathematical Creativity and Resilience. Proc 2nd UPY Int Conf Educ Soc Sci (UPINCES 2023), Adv Soc Sci Educ Humanit Res [Internet]. 2023; Available from: https://books.google. com/books?hl=en&lr=&id=YKPrEAAAQBAJ&oi=fnd&pg=PA169&dq=didactical+ design+research&ots=ny9c5fe8Ge&sig=FHq7nU6yjOWekvcD9hDg1LB9ejs
[44] Rostina R, Sugiatno S, Siregar N. Development of Didactical Design Concepts of Areas of Squares and Rectangles Assisted by Geogebra in Middle School. ALISHLAH J Pendidik. 2023;15(4):5023–32.
[45] Rosjanuardi R, Jupri A. Didactical Design on Drawing and Analysing Trigonometric Functions Graph through a Unit Circle Approach. Int Electron J Math … [Internet]. 2020; Available from: https://eric.ed.gov/?id=EJ1279498
[46] Rahayu EG, Juandi D, Jupri A. Didactical design for distance concept in solid geometry to develop mathematical representation ability in vocational high school. J Phys Conf Ser. 2021;1882(1):012077.
[47] Putri WK, Suryadi D, Mulyana E. Developing a didactical design: the distance between a point and a line in three dimensional shape. J Phys Conf Ser. 2020;1521(3):032027.
[48] Putri T, Susanti E, Simarmata RH. Generalization in Exponential Problems as a Part of Developing Mathematical Abstraction. 4th Sriwij Univ … [Internet]. 2021; Available from: https://www.atlantis-press.com/proceedings/sule-ic-20/125950301
[49] Prabawanto S, Suryadi D, Mulyana E, Ratnasari D, Dewi F. Didactical design of integers: an elementary school teachers creation viewed from didactical situation perspective. J Phys Conf Ser. 2018;1040(1):012037.
[50] Nurhasanah H, Prabawanto S, Sumiaty E. Didactical Design Development Of Linear Equation In Two Variables Based Learning Obstacle And Hypothetical Learning Trajectory. J Innov Math Learn. 2019;2(4):186–93.
[51] Nurhasanah F, Kusumah YS, Sabandar J. Concept of Triangle : Examples of Mathematical Abstraction in Two Different Contexts. Int J Emerg Math Educ. 2017;1(1):53–70.
[52] Nur’Aeni E, Rohmayati F, Muharram MRW, Pranata OH, Hodidjah, Apriani IF. The Didactical Design of Properties of Triangles based on Pecle Traditional Games in Primary School. Proc 7th Math Sci Comput Sci Educ Int Semin MSCEIS 2019. 2020;
[53] Nopriana T, Rosita CD, Halbi D. Implementation of Didactical Design of Circle Material in 8th Grade Junior High School. Kreano. J Mat Kreat. 2022;13(1):100–12.
[54] Nazer I, Hartono B. ELEVATING MATHEMATICAL ABSTRACTION SKILLS IN SMK STUDENTS WITH MODEL ELICITING ACTIVITIES AND ORIENTED The American Journal of Social Science and Education Innovations. Am J Soc Sci Educ Innov. 2023;05(11):1–6.
[55] Muin A, Pratiwi AA, Satriawati G. Didactical Design for Overcoming Students Learning Obstacles on the Inverse Function Concept. TARBIYA J Educ Muslim Soc. 2020;7(2):183–91.
[56] Miftah R, Kurrniawati L, Solicha TP. Mengatasi Learning Obstacle Konsep Transformasi Geometri Dengan Didactical Design Research. Algoritm J Math Educ [Internet]. 2019;1(2):156–66. Available from: http://journal.uinjkt.ac.id/index.php/algoritma
[57] Maulidiya M, Nurlaelah E. The effect of problem based learning on critical thinking ability in mathematics education. J Phys Conf Ser. 2019;1157(4):042063.
[58] Lestari AP. Didactical Design of Mathematical Communication Skill For Comparing And Sorting Of Fractions Concept By Contextual Teaching And Learning. Soc Humanit Educ Stud Conf Ser. 2020;3(4):276.
[59] Lee D, Ybanez JB, Vistro-Yu CP. The Role of Visualization Towards Students’ Mathematical Abstraction and Representation in Solving Probabilities. 2022;1(1). Available from: https://www.researchgate.net/publication/365899232
[60] Kusumaningsih W, Supandi S. Ethnomathematics for congruence concept: a didactical design in a mathematics classroom. J Phys … [Internet]. 2020; Available from: https://iopscience.iop.org/article/10.1088/1742-6596/1663/1/012036/meta
[61] Jannah R, Apriliya S. Karlimah. Didactical Design Material Units of Distance and Speed to Developed Mathematical Connection in Elementary School. J Phys Conf Ser. 2017;180(1).
[62] Husna A, Ulpa M. Didactical Analysis of Mathematical Literacy Skills to Identify Learning Obstacles on Space and Shape Content. Alauddin J Math Educ [Internet]. 2023; Available from: https://journal.uin-alauddin.ac.id/index.php/ajme/article/view/43155
[63] Hendriana H, Fitriani N. Mathematical Abstraction of Year 9 Students Using Realistic Mathematics Education Based on the Van Hiele Levels of Geometry. J Didakt Mat. 2019;6(1):1–11.
[64] Fuadiah NF, Suryadi D. Turmudi. How to build institutionalization on students: A pilot experiment on a didactical design of addition and subtraction involving negative integers. J Phys Conf Ser. 2018;1013(1).
[65] Fitriani N, Sugiman S, Arfah A. Didactical Design of Algebraic Expression from a Linear Pattern with a Realistic Mathematics Education Approach. J Ris Pendidik Mat. 2023;10(1):1–15.
[66] Fitriani N, Suryadi D, Darhim D. The Students’ Mathematical Abstraction Ability Through Realistic Mathematics Education With VBAMicrosoft Excel. Infin J [Internet]. 2018; Available from: http://www.ejournal. stkipsiliwangi.ac.id/index.php/infinity/article/view/833
[67] Erbay G. Navigating Mathematical Obstacles: Eighth Grade Students Journey in Overcoming Learning Challenges in Mathematics. Glob J Humanit Soc Sci [Internet]. 2024; Available from: https://www.grpublishing.org/journals/index.php/gjhss/article/view/57
[68] Eka F, Sugiatno S, Munaldus M, et al. Didactical Design with Problem Posing to Overcome Epistemological Obstacles in Problem Solving. J Didakt Mat [Internet]. 2023; Available from: https://jurnal.usk.ac.id/DM/article/view/33086
[69] Diana N, Suryadi D, Dahlan JA. Didactical Design of Circle Equation and Tangent of Circle Analytic Geometry Learning. MSCEIS 2019 Proc … [Internet]. 2020; Available from: https://books.google.com/books?hl=en&lr=&id=yshdEAAAQBAJ&oi= fnd&pg=PA161&dq=didactical+design+research&ots=gm5YVkrA_U&sig=taCowQ7Rs0w_ waYEsQpmRp4x7Mhttps://doi.org/10.4108/eai.12-10-2019.2296529.
[70] Dewi I, Siregar N, Andriani A, Ritonga A. Analysis of Communication and Mathematical Abstraction Ability of Junior High School Students’ using Student Activity Sheets Based on Model of Learning Mean – Ends Analysis. In: AISTSSE. Medan, Indonesi: EAI; 2019.
[71] Ardiansari L. Pra Aljabar: Langkah Baru Mengajar Aljabar Awal (Penerapan Didactical Design Research). Prox J Penelit Mat dan Pendidik Mat. 2018;1(1):32–44.
[72] Annizar EK, Suryadi D. Desain Didaktis Pada Konsep Luas Daerah Trapesium Untuk Kelas V Sekolah Dasar. EduHumaniora | J Pendidik Dasar. 2016;8(1):22.
[73] Agustin PS, Nur’Aeni E, Pranata OH, Apriani IF. The rectangle circumference didactical design based on singing, playing, analyzing, discussing, evaluating (SPADE) learning model. J Phys Conf Ser. 2021;1806(1):012099.
[74] Adharini D, Herman T. Didactical design of vectors in mathematics to develop creative thinking ability and self-confidence of Year 10 students. J Phys Conf Ser. 2021;1882(1):012089.
[75] Wafiqoh R. Kusumah yaya S, Juandi D. Two Parts of Reflective abstraction: For New Problem Solving and Mathematical Concept [Internet]. Proceedings of the 7th Mathematics, Science, and Computer Science Education International Seminar, MSCEIS 2019. Bandung, Indonesia; 2020. Available from: https://api.elsevier.com/content/abstract/scopus_id/85127562029
[76] Sukarma IK, Isnawan M, Alsulami NM. Research on Nonroutine Problems: A Hybrid Didactical Design for Overcoming Student Learning Obstacles. Hum Behav Emerg Technol [Internet]. 2024;2024. Available from: https://api.elsevier.com/content/abstract/scopus_id/85183699662 https://doi.org/10.1155/2024/5552365.
[77] Subroto T, Suryadi D. Epistemological Obstacles in Mathematical Abstraction on Abstract Algebra. J Phys Conf Ser. 2018;1132(1):012032.
[78] Ruli RM, Prabawanto S, Mulyana E. Didactical design research of quadratic function based on learning obstacle and learning trajectory. J Phys Conf Ser. 2019;1157(4):042060.
[79] Priatna N, Martadipura BA, Wibisono Y. Developing geogebra-assisted reciprocal teaching strategy to improve junior high school students’ abstraction ability, lateral thinking and mathematical persistence [Internet]. Vol. 1013, Journal of Physics: Conference Series. 2018. Available from: https://api.elsevier.com/content/abstract/scopus_id/85048048532
[80] Panjaitan B. The reflective abstraction profile of junior high school students in solving mathematical problems based on cognitive style of field independent and field dependent. J Phys Conf Ser. 2018;1088:1088.
[81] Iswari IF, Susanti E, Hapizah H, Meryansumayeka M, Turidho A. Design of Problem-Solving Questions to Measure Mathematical Thinking Type Abstraction. In: Journal of Physics: Conference Series [Internet]. 2019. Available from: https://api.elsevier.com/content/abstract/scopus_id/85074901238 https://doi.org/10.1088/1742-6596/1318/1/012104.
[82] Hutagalung EE, Mulyana E, Pangaribuan TR. Mathematical abstraction: Students’ concept of triangles. J Phys Conf Ser. 2020;1521(3):032106.
[83] Hong J, Kim KM. Mathematical Abstraction in The Solving of Ill- Structured Problems by Elementary School Students in Korea [Internet]. Eurasia J Math Sci Technol Educ. 2016;12(2):267–81. Available from: https://api.elsevier.com/content/abstract/scopus_id/84957886756
[84] Harry AR, Cahya E, Jupri A. Mathematical Abstraction Abilities of Hight School Students in Term of Cognitive Style. In: Proceedings of the 7th Mathematics, Science, and Computer Science Education International Seminar, MSCEIS 2019 [Internet]. Bandung, Indonesia; 2020. Available from: https://api.elsevier.com/content/abstract/scopus_id/85127550300 https://doi.org/10.4108/eai.12-10-2019.2296504.
[85] Hakim LL, Nurlaelah E. Mathematical mindsets: The abstraction in mathematical problem solving. In: Journal of Physics: Conference Series [Internet]. Bandung, Indonesia; 2018. Available from: https://api.elsevier.com/content/abstract/scopus_id/85058622481
[86] Guntur M, Sahronih S, Ningsih N. The Learning Trajectory Based on STEM of Elementary School Pupils’ in Solving Proportion Material: Didactical Design- Research. Particip Educ Res [Internet]. 2023;10(6):84–103. Available from: https://api.elsevier.com/content/abstract/scopus_id/85178434271
[87] Fitriani N, Nurfauziah P. Gender and mathematical abstraction on geometry. In: Journal of Physics: Conference Series [Internet]. Cimahi, Indonesia; 2019. Available from: https://api.elsevier.com/content/abstract/scopus_id/85073204539 https://doi.org/10.1088/1742-6596/1315/1/012052.
[88] Fitriani N, Suryadi D, Darhim D. Analysis of mathematical abstraction on concept of a three dimensional figure with curved surfaces of junior high school students. J Phys Conf Ser. 2018;1132(1).
[89] Dewi I, Siregar N, Andriani A. Trial of Design Means-End Analysis Learning Model Based on Local Cultural Wisdom To Improve Communication Ability and Mathematical Abstraction of Middle School Students. In: Journal of Physics: Conference Series [Internet]. 2020. Available from: https://api.elsevier.com/content/abstract/scopus_id/85082996505 https://doi.org/10.1088/1742-6596/1470/1/012081.
[90] Dewi I, Siregar N, Andriani A. The analysis of junior high school students’ mathematical abstraction ability based on local cultural wisdom. In: Journal of Physics: Conference Series [Internet]. Medan, Indonesia; 2018. Available from: https://api.elsevier.com/content/abstract/scopus_id/85055718389
[91] Cahyani L. Masriyah, Rahaju EB. Students’ reflective abstraction of middle school in reconstructing quadratic equation concept based on high mathematical ability [Internet]. Vol. 1417, Journal of Physics: Conference Series. 2019. Available from: https://api.elsevier.com/content/abstract/scopus_id/85078198496
