Abstract: The primary objective of designing this informatics system is to enable automation and facilitate seamless integration with various platforms. It allows for the utilization of multiple types of base maps, catering to different reference styles for exploration and providing various layer information preferences. The system is tailored for an embedded architecture, where objects are designed with multiple layers and can be easily transferred to different platforms and machines. The embedded architecture operates intelligently to perform diverse tasks based on specific conditions.

One of the key features of the system is its compatibility for establishing multiple layer modifications and reusability, allowing for the execution of various operational tasks. Real-time analysis can be applied through multiple projections, enabling the use of maps according to specific situations and requirements. The system incorporates information analysis and projections based on scientific models, facilitating direct resource extraction using third-party resources.

Moreover, the system can identify different heights of physiographic contributions, ensuring accurate information mapping of Legends and exploratory digitalization objects. These objects can be customized with different sets of information using conditional setups.

The system operates with shared intelligence, ensuring effective information transition when embedded. This capability supports real-time automatic activities and recognition. Overall, the system aims to streamline automation and enhance the efficiency of information processing and analysis.

Keywords: Real-time Projections, Exploration, Resource Extraction

| DOI: 10.17148/IARJSET.2023.107103