Dr. Junfeng Miao Website  E-Mail: miaojunfengwu@gmail.com
Henan Normal University,China
Interests: Artificial Intelligence，Internet of Things

 

Dr Sahraoui Dhelim Website  E-Mail: sahraoui.dhelim@dcu.ie
Dublin City University, Republic of Ireland
Interests: Artificial Intelligence，Internet of Things

 

 

 

 

Special Issue Information

Dear colleagues,

 

With the deep integration of artificial intelligence (AI) and Internet of Things technology, AI driven Internet of Things (AIoT) has shown enormous potential in the fields of noise and vibration engineering. This Special Issue aims to advance the integration of AI-driven IoT (AIoT) systems in dynamic measurements, structural health monitoring, and machinery reliability, with a focus on practical engineering applications. We invite contributions that demonstrate analytical, numerical, and experimental approaches to harness AIoT innovations in industrial, infrastructural, and environmental contexts.

 

This Special Issue prioritizes studies aligned with the journal’s scope, including but not limited to:

Dynamic Measurements and Signal Processing

AIoT-enabled sensor networks for real-time monitoring of vibration spectra, transient loads, and acoustic emissions in rotating machinery, aerospace structures, and civil infrastructure. Advanced signal processing techniques to enhance data accuracy in multi-source vibration environments affected by environmental noise.

 

Structural Health Monitoring and Analysis

AI-driven detection of structural anomalies (e.g., fatigue cracks, resonance modes) through vibration signatures and strain data, validated via finite element analysis (FEA) or experimental testing. Edge computing solutions for real-time prediction of structural responses under dynamic loading.

 

Machinery Reliability and Dynamic Testing

Vibration-based condition monitoring and AI-driven fault diagnosis in industrial systems (e.g., bearings, turbines), with emphasis on robustness in high-noise operational scenarios. Experimental validation of anomaly detection algorithms using dynamic testing protocols (e.g., shaker tables, impact hammer analysis).

 

Noise Control and Vibration Mitigation

Machine learning-optimized IoT systems for active/passive damping in industrial equipment, transportation networks, and urban infrastructure. Case studies demonstrating noise reduction in construction machinery or traffic-induced vibrations through adaptive control strategies.

 

This Special Issue bridges AIoT innovations with practical engineering demands in noise and vibration. We encourage submissions that:

Integrate experimental testing with AIoT data streams for model validation.

Provide scalable solutions for predictive maintenance, energy-efficient vibration control, or regulatory compliance.

Address cross-disciplinary challenges through hybrid methodologies (e.g., digital twins, deep learning).

 

 

Keywords

Vibration signal processing

Structural health monitoring

Dynamic testing and measurement

Machinery fault diagnosis

AI-driven predictive maintenance

IoT-enabled sensor networks

Noise control algorithms