Mastery of concepts is necessary for students in learning geometry, particularly in the topic of flat-sided 3D spatial structures. A strong grasp of concepts is achieved through non-routine problem-solving exercises, which are an integral part of problem-solving-based learning. According to the OECD (Organisation for Economic Co-operation and Development) of Education and Skills 2030, problem-solving-based learning is considered an important component in the curriculum of 60% of countries worldwide. The use of digital media is an innovative approach in education that can transform abstract geometric forms into real-world situations. The focus of this research is to develop digital media to enhance conceptual understanding among eighth-grade students at Yosowinangun Junior High School. The outcome of this study is a valid, practical, and effective digital learning medium for improving conceptual understanding. The research adopts the ADDIE model as the methodological framework. The research sample consists of twenty eighth-grade students. Data collection instruments include validation sheets, practicality questionnaires, interviews, and tests. The research findings indicate that the learning media is valid based on the analyzed validation sheets. Furthermore, the learning media is considered practical based on student response questionnaires, with an average score of 83.3%. The learning media also has a potential effect on conceptual understanding, as evidenced by the overall test results falling into the good category with an average score of 74.75%. Therefore, problem-solving-based digital learning media becomes an effective tool to assist students in developing their conceptual understanding in the process of learning flat-sided 3D spatial structures in geometry.

Al-Mutawah, M. A., Thomas, R., Eid, A., Mahmoud, E. Y., & Fateel, M. J. (2019). Conceptual understanding, procedural knowledge and problem-solving skills in mathematics: High school graduates work analysis and standpoints. International Journal of Education and Practice, 7(3), 258–273. https://doi.org/10.18488/journal.61.2019.73.258.273

Andrés, R.-N. C., Bongani Dhlamini, Z., Singh Chauhan, A., Baltaeva, U., Abubakar, A., Dejarlo, J. O., & Andriani, M. (2023). Ways of Thinking 3D Geometry: Exploratory Case Study in Junior High School Students. Polyhedron International Journal in Mathematics Education, 1(1), 15–34. https://doi.org/10.59965/pijme.v1i1.5

Anwyl, I. A. L., Massonnié, J., Flitton, A., Kirkham, N., & Evershed, J. K. (2020). Gorilla in our midst: An online behavioral experiment builder. Behavior Research Methods, 52(1), 388–407. https://doi.org/10.3758/s13428-019-01237-x

Aziiza, Y. F., & Juandi, D. (2021). Student’s learning obstacle on understanding the concept of prism surface area. Journal of Physics: Conference Series, 1806(1), 1–7. https://doi.org/10.1088/1742-6596/1806/1/012115

Bakri, H. (2019). Adaptivity Of 3d Web Content In Web-Based Virtual Museums A Quality Of Service And Quality Of Experience Perspective. http://research-repository.st-andrews.ac.uk/

Branch, R. M. (2010). Instructional design: The ADDIE approach. In Instructional Design: The ADDIE Approach. Springer US. https://doi.org/10.1007/978-0-387-09506-6

Bukauskas, A., Mayencourt, P., Shepherd, P., Sharma, B., Mueller, C., Walker, P., & Bregulla, J. (2019). Whole timber construction: A state of the art review. In Construction and Building Materials (Vol. 213, pp. 748–769). Elsevier Ltd. https://doi.org/10.1016/j.conbuildmat.2019.03.043

Chen, Y., Wang, Q., Chen, H., Song, X., Tang, H., & Tian, M. (2019). An overview of augmented reality technology. Journal of Physics: Conference Series, 1237(2). https://doi.org/10.1088/1742-6596/1237/2/022082

Derebaşi, B. (2019). Façade-Wall: An Architecture For Knowledge Representation A Thesis Submitted To The Graduate School Of Natural And Applied Sciences Of Middle East Technical University In Partial Fulfillment Of The Requirements For The Degree Of Master Of Architecture In Architecture. https://hdl.handle.net/11511/44268

Ergen, Y. (2020). “Does mathematics fool us?” A study on fourth grade students’ non-routine maths problem solving skills. Issues in Educational Research, 30(3), 845–865. https://search.informit.org/doi/10.3316/informit.465172146087415

Fansury, A. H., Januarty, R., Rahman, A. W., & Syawal. (2020). Digital Content for Millennial Generations: Teaching the English Foreign Language Learner on COVID-19 Pandemic. Journal of Southwest Jiaotong University, 55(3), 1–12. https://doi.org/10.35741/issn.0258-2724.55.3.40

Firmansyah, F. F., Aribowo, B. E., Damayanti, R., Sari, M. P., Sunardi, & Yudianto, E. (2020). The matthayom and senior high school student’s metacognition profile on solving pisa test shape and space content based on van hiele level. Journal of Physics: Conference Series, 1563(1), 1–9. https://doi.org/10.1088/1742-6596/1563/1/012049

Fitri, A., & Sari, A. (2020). Improvement Of Accounting Vocational School Students’ Competency Through Ideal Learning Methods Problem Solving Based On Project Based Learning With The “A-SEA” Mobile Application. International Journal of Education and Pedagogy (IJEAP), 2(4), 2682–8464. http://myjms.mohe.gov.my/index.php/ijeapJournalwebsite:http://myjms.mohe.gov.my/index.php/ijeap

Gropp, A., Yariv, L., Haim, N., Atzmon, M., & Lipman, Y. (2020). Implicit Geometric Regularization for Learning Shapes. ArXiv Preprint ArXiv. http://arxiv.org/abs/2002.10099

Hake, R. R. (1999). Analyzing Change/Gain Scores* †. http://lists.asu.edu/cgi-bin/wa?A2=ind9903&L=aera-d&P=R6855

Hidayat, P. A., & Nuraeni, R. (2022). Kemampuan pemahaman matematis siswa smp pada materi perpangkatan dan bentuk akar secara daring pada masa pandemi covid-19 di desa jayaraga. Jurnal Inovasi Pembelajaran Matematika: PowerMathEdu (PME), 01(02), 183–192. https://journal.institutpendidikan.ac.id/index.php/powermathedu

İbili, E., Çat, M., Resnyansky, D., Şahin, S., & Billinghurst, M. (2020). An assessment of geometry teaching supported with augmented reality teaching materials to enhance students’ 3D geometry thinking skills. International Journal of Mathematical Education in Science and Technology, 51(2), 224–246. https://doi.org/10.1080/0020739X.2019.1583382

Kim, A., Moravec, P. L., & Dennis, A. R. (2019). Combating Fake News on Social Media with Source Ratings: The Effects of User and Expert Reputation Ratings. Journal of Management Information Systems, 36(3), 931–968. https://doi.org/10.1080/07421222.2019.1628921

Martínez-Planell, R., & Trigueros, M. (2021). Multivariable calculus results in different countries. ZDM - Mathematics Education, 53(3), 695–707. https://doi.org/10.1007/s11858-021-01233-6

Marwick, A. E., & Partin, W. C. (2022). Constructing alternative facts: Populist expertise and the QAnon conspiracy. New Media and Society, 1–21. https://doi.org/10.1177/14614448221090201

Matthews, A. (2021). Sociotechnical imaginaries in the present and future university: a corpus-assisted discourse analysis of UK higher education texts. Learning, Media and Technology, 46(2), 204–217. https://doi.org/10.1080/17439884.2021.1864398

Maulana, F., & Rafianti, I. (2023). Proceedings of Seminar on Mathematics Education Development Of Augmented Reality-Based Learning Media On Instagram Filter To Improve Students’ Mathematical Problem Solving Ability. Proceedings of Seminar on Mathematics Education, 34–45. http://dx.doi.org/10.31000/.v1i1.9516

Medina Herrera, L., Castro Pérez, J., & Juárez Ordóñez, S. (2019). Developing spatial mathematical skills through 3D tools: augmented reality, virtual environments and 3D printing. International Journal on Interactive Design and Manufacturing, 13(4), 1385–1399. https://doi.org/10.1007/s12008-019-00595-2

Mulders, M., Buchner, J., & Kerres, M. (2020). A Framework for the Use of Immersive Virtual Reality in Learning Environments. International Journal of Emerging Technologies in Learning, 15(24), 208–224. https://doi.org/10.3991/ijet.v15i24.16615

Nguyen, Q. M., & Sanchez, D. (2021). Fifer: Practical acceleration of irregular applications on reconfigurable architectures. Proceedings of the Annual International Symposium on Microarchitecture, MICRO, 1064–1077. https://doi.org/10.1145/3466752.3480048

Nurjanah, Latif, B., Yuliardi, R., & Tamur, M. (2020). Computer-assisted learning using the Cabri 3D for improving spatial ability and self- regulated learning. Heliyon, 6(11), 1–7. https://doi.org/10.1016/j.heliyon.2020.e05536

OECD. (2021). 21st-Century Readers. OECD. https://doi.org/10.1787/a83d84cb-en

Rohmah, M., & Indriati, D. (2021). Hass’s Theory: How Is the Students’ Spatial Intelligence in Solving Problems? In International Conference of Mathematics and Mathematics Education (I-CMME , 579, 169–175. https://doi.org/10.2991/assehr.k.211122.024

Saptono, B., Herwin, H., & Firmansyah, F. (2023). Indonesian National Educational Innovation E-module based on a Humanistic Approach. Cilt, 29(3), 167–179. https://doi.org/10.52152/kuey.v29i3.683

Siahaan, Y. S., Surya, E., & Siagian, P. (2021). Development of PISA Model Mathematical Problems on Space and Shape Content to Measure Problem Solving Ability Middle School Mathematics. In Line with That, Geometry Content Is a Major Component in the PISA Test Questions, 386–394. https://doi.org/10.2991/assehr.k.211110.113

Sinha, T. (2022). Enriching problem-solving followed by instruction with explanatory accounts of emotions. Journal of the Learning Sciences, 31(2), 151–198. https://doi.org/10.1080/10508406.2021.1964506

Tafakur, Yudantoko, A., & Sudarwanto. (2020). The development of educational media based on the flipped classroom model on practical lesson in vocational education. Journal of Physics: Conference Series, 1446(1), 1–7. https://doi.org/10.1088/1742-6596/1446/1/012015

Turner, C. (2022). Augmented Reality, Augmented Epistemology, and the Real-World Web. Philosophy and Technology, 35(1). https://doi.org/10.1007/s13347-022-00496-5

Ulang, A., Tayeb, T., Tarbiyah dan Keguruan, F., & Alauddin Makassar, U. (2022). Development of A Problem Based Learning (PBL) Module on Algebra Operation Material for Class 7. Alauddin Journal of Mathematics Education Journal Homepage, 4(2), 131–143. http://journal.uin-alauddin.ac.id/index.php/ajme

Vlasenko, K. V, Volkov, S. V, Kovalenko, D. A., Sitak, I., Chumak, O., & Kostokov. (2020). Web-based online course training higher school mathematics teachers. 648–661. https://doi.org/10.31812/123456789/3894

Wakhata, R., Mutarutinya, V., & Balimuttajjo, S. (2023). Exploring the impact of Stein et al.’s levels of cognitive demand in supporting students’ mathematics heuristic problem-solving abilities. Frontiers in Education, 8, 1–13. https://doi.org/10.3389/feduc.2023.949988

Walkington, C., Nathan, M. J., Huang, W., Hunnicutt, J., & Washington, J. (2023). Multimodal analysis of interaction data from embodied education technologies. Educational Technology Research and Development, 1–20. https://doi.org/10.1007/s11423-023-10254-9

Yanala, N. C., Uno, H. B., & Kaluku, A. (2021). Analisis Pemahaman Konsep Matematika pada Materi Operasi Bilangan Bulat di SMP Negeri 4 Gorontalo. Jambura Journal of Mathematics Education, 2(2), 50–58. https://doi.org/10.34312/jmathedu.v2i2.10993

Yuliana, F. D., Fauzan, A., & Syarifuddin, H. (2022). Preliminary Research On RME-Based Learning On Geometry Topics In Junior High School. Journal of Higher Education Theory and Practice, 22(12), 301–310. https://johetap.com/

Yulianah, L., Ni’mah, K., Rahayu, V., Magister, M. P., Matematika, P., Siliwangi, U., & Magister, D. P. (2020). Analisis Kemampuan Pemahaman Konsep Matematika Siswa Berbantuan Media Schoology. Jurnal Derivat, 7(1), 39–45. https://doi.org/10.31316/j.derivat.v7i1.863

Ziatdinov, R., & Valles, J. R. (2022). Synthesis of Modeling, Visualization, and Programming in GeoGebra as an Effective Approach for Teaching and Learning STEM Topics. In Mathematics (Vol. 10, Issue 3). MDPI. https://doi.org/10.3390/math10030398