This track focuses on the theoretical and practical aspects of marine system dynamics, emphasizing the interactions between various components of marine systems. Contributions may include novel modeling approaches and simulation techniques that enhance our understanding of dynamic behavior in marine environments.

This session invites research on the dynamics of vessels, including their motion analysis under various operational conditions. Studies that explore the impact of environmental forces on vessel performance and stability are particularly encouraged.

This track addresses the complexities of multibody dynamics as applied to marine engineering systems. Papers may cover innovative methodologies for analyzing interconnected marine structures and their dynamic interactions.

This session focuses on the critical interplay between fluid dynamics and structural responses in marine applications. Research contributions should explore advanced modeling techniques and experimental validations of fluid-structure interactions.

This track emphasizes the development of control strategies aimed at enhancing the dynamic stability of marine systems. Contributions may include theoretical analyses, simulations, and practical applications of control methodologies.

This session invites research on the vibration characteristics of marine structures and their implications for design and safety. Studies that investigate vibration mitigation techniques and their effectiveness are highly encouraged.

This track explores the dynamics of rotors used in marine engineering, including their design, analysis, and performance under various conditions. Papers may focus on innovative rotor designs and their impact on overall system efficiency.

This session addresses the analysis and modeling of hydrodynamic forces acting on marine structures. Contributions should focus on experimental and computational methods for predicting these forces and their effects on structural integrity.

This track invites discussions on dynamic modeling techniques specifically tailored for offshore engineering applications. Papers should highlight advancements in modeling approaches that address the unique challenges of offshore environments.

This session focuses on the use of mechanical simulations to analyze and predict the behavior of marine systems. Contributions may include case studies and novel simulation techniques that enhance the reliability of marine engineering designs.

This track explores the role of nonlinear dynamics in marine engineering applications, emphasizing the significance of nonlinear phenomena in system behavior. Research contributions should address both theoretical frameworks and practical implications of nonlinear dynamics.