DIGITAL TWIN TECHNOLOGY IN ENGINEERING INFORMATION SYSTEMS: BRIDGING PHYSICAL AND VIRTUAL WORLDS

Abstract

Digital Twin Technology (DTT) has gained significant traction in modern engineering, acting as a bridge between the physical and virtual worlds. This advanced technological framework creates a dynamic digital replica of a physical asset, system, or process. The concept of Digital Twin provides a robust platform for monitoring, simulation, and optimization of systems in real-time. This article explores the application of Digital Twin technology in engineering information systems, focusing on its implementation in sectors like manufacturing, construction, and energy. The study discusses the integration of real-time data with virtual models to enhance decision-making, predictive maintenance, and lifecycle management. Through the analysis of case studies and examples, the article highlights the transformative role of DTT in optimizing operational efficiency, improving performance, and minimizing risks. Additionally, challenges related to data security, system integration, and computational demands are addressed.