Abstract
The objective of the “Digital Twin for “Aeroservoelasticity” is to generate an intricate virtual model of aeroelastic systems that closely resembles their real attributes and behaviors. Ladder logic programming on a programmable logic controller (PLC) is a powerful tool for handling such changes. Consistent with the principles of Industry 4.0, this study creates a ladder logic to explain the digital twin idea inside the aeroservoelastic model. Ladder logic programming and the digital twin idea enable the monitoring, optimization, and predictive maintenance of aerospace systems. which enables more accurate and timely results. This method works especially well in aeroservoelastic situations when there is a complicated interaction between forces and reactions and quick and precise decision-making is needed. Additionally, ladder logic programming’s adaptability meets Industry 4.0 requirements. In order to address aeroservoelasticity this research work presents a novel methodology and the creative integration of ladder logic programming within the digital twin concept. Additionally, it focuses on enhancing the capabilities of the digital twin by incorporating ladder logic programming, a type of Programmable Logic Controller (PLC) programming. Industry 4.0, Building a complex virtual model that accurately captures the dynamic interactions between structural elasticity, aerodynamic forces, and aircraft control systems is required for its application in aeroelasticity.
