Faculty Profile

Structural Dynamics:
This field primarily investigates the response characteristics and behavioral patterns of structural systems under dynamic loads (e.g., vibrations, impacts, earthquakes, wind loads). It reveals the time-dependent relationships of key parameters such as stress-strain distribution and natural frequencies, thereby providing theoretical foundations for vibration mitigation design and stability optimization in engineering applications.

Integrated Active-Passive Vibration Control:
As a cutting-edge research direction in structural dynamics, integrated active-passive control combines the advantages of both passive and active approaches to achieve more efficient and robust vibration suppression. Through the integration of multidisciplinary technologies spanning mechanical systems, advanced materials, control theory, and artificial intelligence, this methodology optimizes dynamic system responses while enhancing structural safety and operational comfort under complex loading conditions.

Inerter-Based Vibration Isolation System Design:
An emerging research focus in vibration control, this approach utilizes the inerter - a two-terminal inertial element - to overcome performance limitations of conventional isolation systems. The inerter's unique mechanical characteristics (generating inertial force proportional to relative acceleration between terminals) enable significant improvement in low-frequency control performance and energy dissipation efficiency without substantially increasing system mass.

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