Aim and Scope

Remote Sensing Technology in Defense and Environment (RSTDE) is a leading peer-reviewed and open-access journal, published by Institute for Advanced Social, Science, and Sustainable Future (IASSSF), Jakarta, Indonesia, with e-ISSN: 3062-8970. RSTDE is published twice a year (February and August), and all articles published are available online with open access.

 

Aims

RSTDE aims to advance the application of remote sensing technologies across both defense and environmental domains. The journal is dedicated to publishing high-quality research that explores how remote sensing can address challenges in defense operations and environmental management. By providing a platform for innovative studies, RSTDE seeks to enhance the effectiveness and integration of remote sensing technologies in these critical areas.

 

Focus

The journal focuses on research that utilizes remote sensing technologies to solve problems in defense and environmental contexts. It highlights studies that demonstrate how remote sensing data can be applied to enhance security measures, monitor environmental changes, and support decision-making processes. The emphasis is on research that provides practical solutions and advancements in the use of remote sensing for both defense and environmental applications.

 

Scope

This journal seeks to publish a broad range of scholarly articles, including: 

  1. Strategic Remote Sensing for Defense Operations: Cutting-edge research on the deployment of remote sensing technologies for strategic defense applications. This includes advancements in real-time surveillance, intelligence gathering, and threat assessment using high-resolution and multi-spectral imaging systems.

  2. Remote Sensing in Crisis Management: Studies on the application of remote sensing technologies for crisis response and management, such as disaster monitoring, damage assessment, and rapid response coordination. This includes innovative approaches to leveraging remote sensing data for emergency scenarios and humanitarian aid.

  3. Environmental Forensics with Remote Sensing: Exploration of remote sensing techniques used for environmental forensics, including the detection and analysis of environmental crimes such as illegal deforestation, pollution, and habitat destruction. This covers methods for tracing and attributing environmental damage through satellite and aerial imagery.

  4. Advanced Remote Sensing Platforms and Sensors: Research on the development and utilization of next-generation remote sensing platforms and sensors. This includes emerging technologies such as hyperspectral imaging, LIDAR, and unmanned aerial vehicles (UAVs) tailored for high-precision defense and environmental applications.

  5. Integrated Remote Sensing for Environmental Intelligence: Innovative approaches for integrating remote sensing data with artificial intelligence and machine learning to enhance environmental intelligence. This includes predictive modeling, pattern recognition, and automated analysis for comprehensive environmental monitoring and defense applications.

  6. Geo-Spatial Data Fusion for Multi-Domain Applications: Examination of methods for fusing remote sensing data with other geo-spatial and temporal datasets to create multi-domain insights. This includes integrating remote sensing with social media data, on-the-ground sensors, and other sources to provide a holistic view for both defense strategies and environmental management.