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All Journal International Journal of Humanities Education and Social Sciences Formosa Journal of Science and Technology (FJST)
Rahmandhala, Ilvan Dino
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Humanities Computer Science & IT Economics, Econometrics & Finance Education Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Social Sciences Other

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The Tactical Object Monitoring System for Defense Operations Using the Concept of Object-Oriented Programming (OOP) with Python Programming Language Rahmandhala, Ilvan Dino; Asep Adang Supriyadi; Yosef Prihanto; Ahmad Farid; Muhamad Samingan
International Journal Of Humanities Education and Social Sciences (IJHESS) Vol 4 No 6 (2025): IJHESS JUNE 2025
Publisher : CV. AFDIFAL MAJU BERKAH

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55227/ijhess.v4i6.1571

Abstract

Information and communication technology is currently very important in the defense field, including in the development of tactical object monitoring systems for defense operations. One approach used is to apply the concept of object-oriented programming OOP using the Python programming language. This research uses data processing methods using the Python programming language with the help of Google Colab. In its implementation, this research creates two main classes, namely the Sensor Class and the Tactical Map Class. The Sensor Class functions to represent physical sensors in code form, with attributes of identity, location, and sensor status. The Tactical Map class serves as a representation of a tactical map used to manage and visualize objects, such as sensors, within a certain area. The development of a defense operation tactical object monitoring system by applying OOP concepts using the Python programming language has several benefits, such as easier system setup and maintenance, as well as the development of new features without disrupting existing functions. The application of OOP concepts using the Python programming language can be one of the effective approaches in developing a tactical object monitoring system for defense operations. This approach can improve the efficiency and effectiveness of military operations by utilizing modern technology, as well as provide various benefits in terms of system setup, maintenance, and development.
Geospatial Intelligent Analysis to Support Indonesian Airspace Defense Rahmandhala, Ilvan Dino; Supriyadi, Asep Adang; Prihanto, Yosef; Samingan, Muhammad; Gultom, Rudy Agus Gemilang
Formosa Journal of Science and Technology Vol. 3 No. 9 (2024): September 2024
Publisher : PT FORMOSA CENDEKIA GLOBAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55927/fjst.v3i9.11555

Abstract

This study highlights the importance of Geospatial Intelligence (GEOINT) analysis in supporting Indonesia's airspace defense. In modern military operations, especially air defense, the role of GEOINT is crucial as it enables real-time detection, mapping, planning, surveillance, and analysis of aerial threats. This research aims to analyze the role and potential of GEOINT in supporting Indonesia's airspace defense and to provide strategic recommendations for strengthening air defense. The findings of this study are expected to guide policymakers in enhancing the effectiveness and efficiency of air defense through the use of GEOINT, as well as supporting the development of necessary geospatial infrastructure. This study employs the SEIM (Sensor Effector Information Management) hierarchical approach to integrate various data sources and analytical tools to enhance detection, mapping, planning, and surveillance capabilities in the context of air defense. The study finds that GEOINT enables deeper tactical and strategic situation analysis and can optimize weapon assignments to increase efficiency in military conflicts. To effectively implement GEOINT, investments in technology, data infrastructure development, personnel training, and international cooperation are necessary. The implementation of remote sensing satellites capable of providing real-time, high-resolution imagery will enhance threat detection and monitoring capabilities.
The Facies Modeling of Muria Volcano in the Kedungbamban Area Using GIS Rahmandhala, Ilvan Dino; Supriyadi, Asep Adang; Prihanto, Yosef; Arief, Syachrul; Mulyaningsih, Sri; Wiloso, Danis Agoes
Formosa Journal of Science and Technology Vol. 3 No. 9 (2024): September 2024
Publisher : PT FORMOSA CENDEKIA GLOBAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55927/fjst.v3i9.11606

Abstract

Indonesia is an archipelago located in the Pacific Ring of Fire, known for its high volcanic activity. Indonesia is home to 129 active and 500 inactive volcanoes, representing 13% of the world's total. This research is expected to provide an overview of the facies of the Muria volcano and the geological aspects of the study area. To analyze and resolve issues in this study, geological mapping, and data processing are employed to make volcano facies models using GIS.  The volcanic facies in the study area are proximal facies, which can be divided into three zones: proximal facies of Muria basalt, proximal facies of Maar Bambang basanite, and proximal facies of Muria andesite.
Co-Authors Ahmad Farid Arief, Syachrul Gultom, Rudy Agus Gemilang Muhamad Samingan Samingan, Muhammad Sri Mulyaningsih Supriyadi, Asep Adang Wiloso, Danis Agoes Yosef Prihanto Yosef Prihanto, Yosef