This work is licensed under the Creative Commons Attribution 4.0 International License.
Li-Ying, Y. U. A. N. (2020). Teaching Reform Practice of Sensor and Detection Technology Course Based on Engineering Education Certification. DEStech Transactions on Social Science, Education and Human Science icesd.Search in Google Scholar
You, G., & Zeng, W. (2018, October). Study on the Strategy of Large-Class Teaching for Sensor Courses. In 2018 9th International Conference on Information Technology in Medicine and Education (ITME) (pp. 618-621). IEEE.Search in Google Scholar
Suriyaarachchi, H., Nassani, A., Denny, P., & Nanayakkara, S. (2023, June). Using Sensor-Based Programming to Improve Self-Efficacy and Outcome Expectancy for Students from Underrepresented Groups. In Proceedings of the 2023 Conference on Innovation and Technology in Computer Science Education V. 1 (pp. 187-193).Search in Google Scholar
Suriyaarachchi, H., Denny, P., Cortes, J. P. F., Weerasinghe, C., & Nanayakkara, S. (2022, February). Primary school students programming with real-time environmental sensor data. In Proceedings of the 24th Australasian Computing Education Conference (pp. 85-94).Search in Google Scholar
Budd, J., Daniels, H., Wang, W., Hitson, O., & Tseng, K. (2017). Sensor and Electronics Educational Database: Using Technology to Teach Technology. In EDULEARN17 Proceedings (pp. 6716-6725). IATED.Search in Google Scholar
Wang, W., & Wu, X. (2018). Reform and practice of teaching a sensor technology course based on engineering concepts. International Journal of Continuing Engineering Education and Life Long Learning, 28(3-4), 358-372.Search in Google Scholar
Fjukstad, B., Angelvik, N., Grønnesby, M., Wulff Hauglann, M., Gunhildrud, H., Rasch, F. H., ... & Bongo, L. A. (2019, July). Teaching electronics and programming in Norwegian schools using the air: bit sensor kit. In Proceedings of the 2019 ACM Conference on Innovation and Technology in Computer Science Education (pp. 374-380).Search in Google Scholar
Gonzalez Crespo, R., & Burgos, D. (2019). Advanced sensors technology in education. Sensors, 19(19), 4155.Search in Google Scholar
Lv, D., & Zhang, Y. (2023, March). Teaching Reform and Practice of “Sensor and Detection Technology” Course Based on “Specialty and Innovation Integration” and Project-Based Education. In International Conference on Computer Science, Engineering and Education Applications (pp. 1033-1045). Cham: Springer Nature Switzerland.Search in Google Scholar
Drozdikova-Zaripova, A. R., & Sabirova, E. G. (2020). Usage of Digital Educational Resources in Teaching Students with Application of” Flipped Classroom” Technology. Contemporary Educational Technology, 12(2).Search in Google Scholar
Saikkonen, L., & Kaarakainen, M. T. (2021). Multivariate analysis of teachers’ digital information skills-The importance of available resources. Computers & Education, 168, 104206.Search in Google Scholar
Clark-Wilson, A., Robutti, O., & Thomas, M. (2020). Teaching with digital technology. Zdm, 1-20.Search in Google Scholar
Fernández-Batanero, J. M., Román-Graván, P., Montenegro-Rueda, M., López-Meneses, E., & Fernández-Cerero, J. (2021). Digital teaching competence in higher education: A systematic review. Education Sciences, 11(11), 689.Search in Google Scholar
Mtshali, T. I., Ramaligela, S. M., & Makgato, M. (2020). Usage of digital resources in Civil Technology: A case of teaching Tools and Equipment. African Journal of Science, Technology, Innovation and Development, 12(1), 47-55.Search in Google Scholar
Khoza, S. B. (2018). Can teachers’ reflections on digital and curriculum resources generate lessons?. Africa Education Review, 15(4), 20-35.Search in Google Scholar
Esteve-Mon, F. M., Llopis-Nebot, M. Á., & Adell-Segura, J. (2020). Digital teaching competence of university teachers: A systematic review of the literature. IEEE revista Iberoamericana de Tecnologías del aprendizaje, 15(4), 399-406.Search in Google Scholar
Alberola-Mulet, I., Iglesias-Martínez, M. J., & Lozano-Cabezas, I. (2021). Teachers’ beliefs about the role of digital educational resources in educational practice: A qualitative study. Education Sciences, 11(5), 239.Search in Google Scholar
Napal, M., Mendióroz-Lacambra, A. M., & Peñalva, A. (2020). Sustainability teaching tools in the digital age. Sustainability, 12(8), 3366.Search in Google Scholar
Guillén-Gámez, F. D., Cabero-Almenara, J., Llorente-Cejudo, C., & Palacios-Rodríguez, A. (2022). Differential analysis of the years of experience of higher education teachers, their digital competence and use of digital resources: Comparative research methods. Technology, Knowledge and Learning, 27(4), 1193-1213.Search in Google Scholar
Trouche, L., Rocha, K., Gueudet, G., & Pepin, B. (2020). Transition to digital resources as a critical process in teachers’ trajectories: The case of Anna’s documentation work. ZDM, 1-15.Search in Google Scholar
Kerfa Djoudi & Ghorbel Faouzi. (2023). A New Fast Bloc Matching Algorithm Using Unsupervised Bayesian Classifier with Bootstrap Gaussian Expectation Maximization Algorithm. SN Computer Science(3).Search in Google Scholar
Igor O. Zavadskyi. (2024). Lossless text compression by means of binary-coded ternary number representation. Discrete Applied Mathematics15-22.Search in Google Scholar
Tarbiyati Homayoon & Nemati Saray Behzad. (2023). Weight initialization algorithm for physics-informed neural networks using finite differences. Engineering with Computers(3),1603-1619.Search in Google Scholar
Zhao-Guang Liu,Xiu-Hua Ji & Yang Yang. (2019). Hierarchical differential evolution algorithm combined with multi-cross operation. Expert Systems With Applications276-292.Search in Google Scholar
Patrick McGuire,Shihfen Tu,Mary Ellin Logue,Craig A. Mason & Korinn Ostrow. (2017). Counterintuitive effects of online feedback in middle school math: results from a randomized controlled trial in ASSISTments. Educational Media International(3),231-244.Search in Google Scholar
