Advancements in Acoustic and Vibration Engineering: Theory, Analysis, and Applications

Research objectives：

Acoustic and vibration engineering play a crucial role in various industries, including automotive, aerospace, civil engineering, healthcare, and manufacturing. With rapid advancements in computational modeling, materials science, and experimental techniques, the field continues to evolve, addressing challenges related to noise reduction, structural integrity, and wave propagation control. This research project aims to provide a platform for researchers and practitioners to share recent developments in the theory, analysis, and applications of acoustic and vibration engineering.

The research project will cover theoretical advancements in wave propagation, structural dynamics, and vibro-acoustic interactions. Researchers are invited to submit studies on novel analytical models, numerical simulations, and experimental techniques that enhance our understanding of acoustic and vibration phenomena. Topics such as signal processing, modal analysis, and uncertainty quantification in vibration systems are of particular interest.

The application aspect of this Research Project will focus on innovative solutions for real-world problems, including noise and vibration control strategies in transportation systems, industrial machinery, and smart structures. Emerging technologies such as metamaterials, active noise cancellation, and machine learning-based diagnostics will be explored. Contributions addressing sustainability and energy-efficient approaches in acoustic and vibration management are highly encouraged.

The Research Project welcomes interdisciplinary research that integrates acoustics and vibration with artificial intelligence, robotics, and biomedical engineering. Studies on human perception of noise, environmental acoustics, and structural health monitoring will also be considered.

By bringing together state-of-the-art research in this field, this Research Project aims to foster collaboration and inspire new innovations in acoustic and vibration engineering. We invite researchers, engineers, and industry professionals to contribute original research articles, reviews, and case studies that advance the scientific and practical knowledge in this domain.

Keywords：

• Acoustic Engineering
• Vibration Analysis
• Wave Propagation
• Structural Dynamics
• Noise Control
• Vibro-Acoustics
• Computational Acoustics
• Metamaterials
• Machine Learning in Acoustics
• Structural Health Monitoring

Expected Outcomes：

Academic: Peer-reviewed publications

Co-academic leads：