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Analisys Bibliometric of Science Local Wisdom with Vosviewer Application during 40 years Dimas Fahmi Rizaldi; Muhammad Habibbulloh; Imam Sya'roni
Journal of Law and Bibliometrics Studies Vol. 1 No. 1 (2025): April
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jolabis.1.1.45

Abstract

Objective: This study aims to analyze the development and trends in research publications related to science in the context of local wisdom, also known as science local wisdom. Local wisdom can be understood as human efforts to act and behave toward certain phenomena, objects, or events based on cognitive and cultural frameworks. Unconsciously, many forms of local wisdom inherently contain scientific elements. The objective of this research is to map and examine the academic discourse surrounding this topic through a bibliometric lens using Scopus-indexed publications. Method: The study employed a bibliometric analysis approach to explore the evolution of scientific research concerning local wisdom. This method quantitatively analyzes published literature—including journal articles, books, and other forms of written communication—based on their social, intellectual, and conceptual structures. Data were retrieved from the Scopus database and analyzed using bibliometric software tools to visualize patterns of publication, identify keyword trends, track prolific authors, and examine research collaborations. Results: The results indicate that the topic of science local wisdom is still emerging and has been receiving growing scholarly attention in recent years. The distribution of keywords and publication trends indicates that the integration of local wisdom into science education, particularly in physics learning, is becoming a growing area of research interest. However, the number of publications remains relatively low, suggesting a significant opportunity for future exploration. Novelty: This study highlights the novelty of connecting scientific literacy and education with local cultural knowledge systems. By providing a comprehensive bibliometric overview, the study not only identifies current research gaps but also emphasizes the potential of local wisdom as a culturally responsive approach to science learning, particularly within physics education. This integrated perspective offers a fresh direction for interdisciplinary educational research.
Analisys Bibliometric of Science Local Wisdom with Vosviewer Application during 40 years Dimas Fahmi Rizaldi; Muhammad Habibbulloh; Imam Sya'roni
Journal of Law and Bibliometrics Studies Vol. 1 No. 1 (2025): April
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jolabis.1.1.45

Abstract

Objective: This study aims to analyze the development and trends in research publications related to science in the context of local wisdom, also known as science local wisdom. Local wisdom can be understood as human efforts to act and behave toward certain phenomena, objects, or events based on cognitive and cultural frameworks. Unconsciously, many forms of local wisdom inherently contain scientific elements. The objective of this research is to map and examine the academic discourse surrounding this topic through a bibliometric lens using Scopus-indexed publications. Method: The study employed a bibliometric analysis approach to explore the evolution of scientific research concerning local wisdom. This method quantitatively analyzes published literature—including journal articles, books, and other forms of written communication—based on their social, intellectual, and conceptual structures. Data were retrieved from the Scopus database and analyzed using bibliometric software tools to visualize patterns of publication, identify keyword trends, track prolific authors, and examine research collaborations. Results: The results indicate that the topic of science local wisdom is still emerging and has been receiving growing scholarly attention in recent years. The distribution of keywords and publication trends indicates that the integration of local wisdom into science education, particularly in physics learning, is becoming a growing area of research interest. However, the number of publications remains relatively low, suggesting a significant opportunity for future exploration. Novelty: This study highlights the novelty of connecting scientific literacy and education with local cultural knowledge systems. By providing a comprehensive bibliometric overview, the study not only identifies current research gaps but also emphasizes the potential of local wisdom as a culturally responsive approach to science learning, particularly within physics education. This integrated perspective offers a fresh direction for interdisciplinary educational research.
Review Digital Learning Aid Systems for Enhancing Students’ Problem-Solving Skills in Physics Education: A Systematic Literature Review Qurrota A'yun; Dwikoranto Dwikoranto; Rahmatta Thoriq Lintangesukmanjaya; Imam Sya'roni
Journal of Digitalization in Physics Education Vol. 2 No. 1 (2026): April
Publisher : Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/jdpe.v2i1.52037

Abstract

Objective: This study aims to examine how digital learning aid systems support the development of students’ problem solving skills in physics education. The study focuses on identifying how digital tools facilitate conceptual understanding, visualization of abstract physics concepts, inquiry based learning processes, and student engagement in solving physics problems. Method: This research uses a systematic literature review approach. Relevant studies were collected from international scientific databases and selected based on inclusion criteria related to digital learning systems, physics education, and problem solving skills. The selected articles were analyzed to identify learning mechanisms, instructional features, and patterns of digital technology use that support problem solving in physics learning environments. Results: The analysis shows that digital learning aid systems enhance problem solving through several instructional mechanisms. Interactive simulations, virtual experiments, visualization tools, and feedback systems help students understand physics concepts, explore relationships between variables, conduct inquiry based investigations, and evaluate solution strategies. These features support analytical thinking and structured problem solving processes. Novelty: This review highlights that digital learning aid systems function not only as instructional media but as integrated learning environments that simultaneously support conceptual understanding, visualization, inquiry processes, and student engagement to strengthen problem solving skills in physics education.