Tren Penelitian dan Dampak Adanya Internet of Things terhadap Peningkatan Kualitas Pendidikan IPA dalam Upaya Melaksanakan Sustainable Development Goals (SDGs): Analisis Bibliometrik
Main Article Content
Abstract
Tujuan dari penelitian ini untuk mengetahui tren penelitian dan pengaruh Internet of Things (IoT) terhadap Tujuan Pembangunan Berkelanjutan (SDGs) untuk pendidikan bermutu, khususnya pada Pendidikan IPA. Metode penelitian yang digunakan adalah analisis bibliometrik dengan menggunakan Publish or Peris dan Vos viewer untuk mencari data dan memvisualisasikan hubungan antara kata kunci Internet of things, SDGs dan pendidikan IPA. Hasil yang diperoleh adalah penelitian tentang IoT dan SDGs untuk pendidikan IPA bermutu merupakan penelitian yang sedang tren dan dikaji oleh para ilmuwan. Hal ini dapat dilihat pada visualisasi jaringan dan penjelasan tahun dan negara yang menunjukkan bahwa ketiga kata kunci tersebut merupakan hal yang baru dan menjadi topik penelitian. Rekomendasi dari hasil penelitian ini adalah memberikan peluang dan informasi tentang dampak teknologi IoT terhadap tujuan hidup berkelanjutan, khususnya dalam peningkatan mutu pendidikan IPA atau ilmu pengetahuan lainnya, sehingga untuk kedepannya dapat dilakukan penelitian tentang implementasi teknologi IoT dalam pembelajaran IPA.
Article Details
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
References
Abdulla, A. I., Abdulraheem, A. S., Salih, A. A., Sadeeq, M. A., Ahmed, A. J., Ferzor, B. M., & Mohammed, S. I. (2020). Internet of things and smart home security. Technol. Rep. Kansai Univ, 62(5), 2465-2476.
Abera, H. G. (2023). The role of education in achieving the sustainable development goals (SDGs): A global evidence based research article. International Journal of Social Science and Education Research Studies, 3(1), 67-81.
Al Husaeni, D. F., & Nandiyanto, A. B. D. (2022). Bibliometric computational mapping analysis of publications on mechanical engineering education using vosviewer. Journal of Engineering Science and Technology, 17(2), 1135-1149.
Al Husaeni, D. N. (2022). Bibliometric analysis of briquette research trends during the Covid-19 pandemic. ASEAN Journal for Science and Engineering in Materials, 1(2), 99-106.
Alam, T. (2021). Cloud-based IoT applications and their roles in smart cities. Smart Cities, 4(3), 1196-1219.
Al-Ghaili, A. M., Kasim, H., Hassan, Z., Al-Hada, N. M., Othman, M., Kasmani, R. M., & Shayea, I. (2023). A review: Image processing techniques’ roles towards energy-efficient and secure IoT. Applied Sciences,13(4), 2098.
Bajracharya, B., Gondi, V., & Hua, D. (2021). IoT education using learning kits of IoT devices. Information Systems Education Journal, 19(6), 40-44.
Bellini, P., Nesi, P., & Pantaleo, G. (2022). IoT-enabled smart cities: A review of concepts, frameworks and key technologies. Applied Sciences, 12(3), 1607.
Bilad, M. R. (2022). Bibliometric analysis for understanding the correlation between chemistry and special needs education using Vosviewer indexed by google. ASEAN Journal of Community and Special Needs Education, 1(2), 61-68.
Cristani, M., Del Bue, A., Murino, V., Setti, F., & Vinciarelli, A. (2020). The visual social distancing problem. IEEE Access, 8, 126876-126886.
Davidovic, B., & Labus, A. (2015). A smart home system based on sensor technology. Facta Universitatis, Series: Electronics and Energetics, 29(3), 451-460.
DeBoer, G. E. (2000). Scientific literacy: Another look at its historical and contemporary meanings and its relationship to science education reform. Journal of Research in Science Teaching: The Official Journal of the National Association for Research in Science Teaching, 37(6), 582-601.
Diouf, G. (2019). Millenium development goals (MDGs) and sustainable development goals (SDGs) in social welfare. International Journal of Science and Society, 1(4), 17-24.
Fallah Shayan, N., Mohabbati-Kalejahi, N., Alavi, S., & Zahed, M. A. (2022). Sustainable development goals (SDGs) as a framework for corporate social responsibility (CSR). Sustainability, 14(3), 1222.
Gräfe, M., Power, G., & Klauber, C. (2011). Bauxite residue issues: III. Alkalinity and associated chemistry. Hydrometallurgy, 108(1-2), 60-79.
Halkos, G., & Gkampoura, E. C. (2021). Where do we stand on the 17 sustainable development goals? An overview on progress. Economic Analysis and Policy, 70, 94-122.
Heleta, S., & Bagus, T. (2021). Sustainable development goals and higher education: leaving many behind. Higher Education, 81(1), 163-177.
Hodson, D. (2003). Time for action: Science education for an alternative future. International Journal of Science Education, 25(6), 645-670.
Hofstein, A., & Lunetta, V. N. (2004). The laboratory in science education: Foundations for the twenty‐first century. Science Education, 88(1), 28-54.
Hofstein, A., Eilks, I., & Bybee, R. (2011). Societal issues and their importance for contemporary science education—a pedagogical justification and the state-of-the-art in Israel, Germany, and the USA. International Journal of Science and Mathematics Education, 9, 1459-1483.
Jackson, T. (2004). Negotiating sustainable consumption: A review of the consumption debate and its policy implications. Energy and Environment, 15(6), 1027-1051.
Jenkins, E. W. (1992). School science education: Towards a reconstruction. Journal of Curriculum Studies, 24(3), 229-246.
Khan, M., Silva, B. N., & Han, K. (2016). Internet of things based energy aware smart home control system. IEEE Access, 4, 7556-7566.
Li, Z., Wang, P., Haigh, A., Soutis, C., & Gibson, A. (2021). Review of microwave techniques used in the manufacture and fault detection of aircraft composites. The Aeronautical Journal, 125(1283), 151-179.
Mohanty, S. P., Choppali, U., & Kougianos, E. (2016). Everything you wanted to know about smart cities: The Internet of things is the backbone. IEEE Consumer Electronics Magazine, 5(3), 60-70.
Nandiyanto, A. B. D., Ragadhita, R., & Aziz, M. (2023). Involving particle technology in computational fluid dynamics research: A bibliometric analysis. CFD Letters, 15(11), 92-109.
Nižetić, S., Šolić, P., Gonzalez-De, D. L. D. I., & Patrono, L. (2020). Internet of Things (IoT): Opportunities, issues and challenges towards a smart and sustainable future. Journal of Cleaner Production, 274, 122877.
Nordin, N. A. H. M. (2022). Correlation between process engineering and special needs from bibliometric analysis perspectives. ASEAN Journal of Community and Special Needs Education, 1(1), 9-16.
Oda, T., Matsuo, K., Barolli, L., Yamada, M., & Liu, Y. (2017). Design and implementation of an IoT-based e-learning testbed. International Journal of Web and Grid Services, 13(2), 228-241.
Özdemir, V., & Hekim, N. (2018). Birth of industry 5.0: Making sense of big data with artificial intelligence,“the internet of things” and next-generation technology policy. Omics: A Journal of Integrative Biology, 22(1), 65-76.
Pandharipande, A., & Thijssen, P. (2019). Connected street lighting infrastructure for smart city applications. IEEE Internet of Things Magazine, 2(2), 32-36.
Paul, A., & Jeyaraj, R. (2019). Internet of Things: A primer. Human Behavior and Emerging Technologies, 1(1), 37-47.
Peattie, K. (2010). Green consumption: behavior and norms. Annual review of environment and resources, 35(1), 195-228.
Placidi, P., Morbidelli, R., Fortunati, D., Papini, N., Gobbi, F., & Scorzoni, A. (2021). Monitoring soil and ambient parameters in the iot precision agriculture scenario: An original modeling approach dedicated to low-cost soil water content sensors. Sensors, 21(15), 5110.
Riandi, R., Permanasari, A., & Novia, N. (2022). Implementation of biotechnology in education towards green chemistry teaching: A bibliometrics study and research trends. Moroccan Journal of Chemistry, 10(3), 10-3.
Roblek, V., Meško, M., Bach, M. P., Thorpe, O., & Šprajc, P. (2020). The interaction between internet, sustainable development, and emergence of society 5.0. Data, 5(3), 80.
Rohmatulloh, R., Hasanah, A., Sahlani, L., & Zuhri, M. T. (2023). Energy-saving triangle: internalizing Islamic ethical values on energy saving in integrative learning. Religions, 14(10), 1284.
Ruzmetov, A., & Ibragimov, A. (2023). Past, current and future trends of salicylic acid and its derivatives: A bibliometric review of papers from the Scopus database published from 2000 to 2021. ASEAN Journal for Science and Engineering in Materials, 2(1), 53-68.
Saleem, Y., Crespi, N., Rehmani, M. H., & Copeland, R. (2019). Internet of things-aided smart grid: technologies, architectures, applications, prototypes, and future research directions. IEEE Access, 7, 62962-63003.
Srinivasan, R., Kavitha, R., Murugananthan, V., & Mylsami, T. (2023). A process of analyzing soil moisture with the integration of internet of things and wireless sensor network. Intelligent and Soft Computing Systems for Green Energy, 173-184.
Subotnik, R. F., Olszewski-Kubilius, P., & Worrell, F. C. (2011). Rethinking giftedness and gifted education: A proposed direction forward based on psychological science. Psychological science in the public interest, 12(1), 3-54.
Susilawati, A., Kustiawan, I., Rochintaniawati, D., & Hasanah, L. (2023). Things for science teachers: A bibliometric analysis. Journal of Engineering Science and Technology, 18(6), 41-50.
Susilawati, A., Kustiawan, I., Rochintaniawati, D., Hasanah, L., & Lim, Y. Light Intensity Distribution in the Room Using Light Dependent Resistor: Through the Engineering Design Process. Indonesian Journal of Science and Technology, 9(3), 679-708.
Susilawati, A., Rochintaniawati, D., Permanasari, A., & Kustiawan, I. (2022). Research trends about internet of things in science education: A bibliometric analysis. Journal of Engineering Science and Technology, Special Issue Vol. June 2022, 17-24.
Taiwo, O., & Ezugwu, A. E. (2021). Internet of things‐based intelligent smart home control system. Security and Communication Networks, 2021(1), 9928254.
Tyagi, A. K., Dananjayan, S., Agarwal, D., & Thariq Ahmed, H. F. (2023). Blockchain—Internet of things applications: Opportunities and challenges for industry 4.0 and society 5.0. Sensors, 23(2), 947.
Umair, M., Cheema, M. A., Cheema, O., Li, H., & Lu, H. (2021). Impact of COVID-19 on IoT adoption in healthcare, smart homes, smart buildings, smart cities, transportation and industrial IoT. Sensors, 21(11), 3838.
Unaldi, S., Yalcin, N., & Elci, E. (2023). An IoT-based smart home application with barrier-free stairs for disabled/elderly people. Elektronika ir Elektrotechnika, 9(1), 15-20.
Wilshin, S., Amos, S., & Bomphrey, R. J. (2023). Seeing with sound; surface detection and avoidance by sensing self-generated noise. International Journal of Micro Air Vehicles, 15, 17568293221148377.
Xu, G., Ding, Y., Zhao, J., Hu, L., & Fu, X. (2013). Research on the internet of things (IoT). Sensors and Transducers, 160(12), 463.
Yağanoğlu, M., Bozkurt, F., Günay, F. B., Kul, S., Şimşek, E., Öztürk, G., & Karaman, S. (2024). Design and validation of IoT based smart classroom. Multimedia Tools and Applications, 83(1), 62019-62043.
Zeinab, K. A. M., & Elmustafa, S. A. A. (2017). Internet of things applications, challenges and related future technologies. World Scientific News, 67(2), 126-148.
Zou, W., Sastry, M., Gooding, J. J., Ramanathan, R., & Bansal, V. (2020). Recent advances and a roadmap to wearable UV sensor technologies. Advanced Materials Technologies, 5(4), 1901036