internoise 2018

The Technical Program

  • 1 Acoustic Materials
    • 1.1 Advances in Acoustic Materials
    • 1.2 Acoustic Metamaterials
    • 1.3 Microperforated Panels
    • 1.4 Porous Materials Measurement and Modeling
  • 2 Active Control of Sound and Vibration
    • 2.1 Advances in Active Control of Sound and Vibration
    • 2.2 Application of Active Control
    • 2.3 Algorithms for Active Control and Speech Enhancement
  • 3 Aircraft Noise
    • 3.1 Advances in Aircraft Noise
    • 3.2 Aircraft Interior Noise
    • 3.3 Aircraft Exterior Noise
    • 3.4 UAV Noise
    • 3.5 Airport Noise
  • 4 Bill Lang Memorial Session
    • 4.1 Bill Lang Memorial Session
  • 5 Building / Architectural Acoustics
    • 5.1 Advances in Building / Architectural Acoustics
    • 5.2 Impact and Structureborne Noise in Buildings
    • 5.3 HVAC Noise Control Methods and Standards
    • 5.4 HVAC Equipment and System Noise
    • 5.5 Building Acoustics Case Studies
    • 5.6 Building Acoustics Measurement
    • 5.7 Façade and Envelope Sound Isolation
    • 5.8 Acoustic Regulations, Enforcement and Classification for New, Existing, and Retrofitted Buildings
    • 5.9 Healthcare Acoustics
    • 5.10 Hall and Auditorium Acoustics
    • 5.11 Predictions and Prediction Methods in Building/Room Acoustics
    • 5.12 Measurement Methods in Building/Room Acoustics
    • 5.13 Acoustics of Lightweight Construction
    • 5.14 Acoustical Standards and Guidelines as Basis of Design for Large Mixed-use Urban Development
  • 6 Classic Papers
    • 6.1 Classic Papers Student Paper Competition
  • 7 Community Noise
    • 7.1 Advances in Community Noise
    • 7.2 Urban Sound Planning
    • 7.3 Noise Mapping
    • 7.4 Wind Turbine Noise
  • 8 Construction Noise
    • 8.1 Advances in Construction Noise
  • 9 Flow Induced Noise and Vibration
    • 9.1 Advances in Flow Induced Noise and Vibration
    • 9.2 Flow Induced Noise and Vibration - Computational Methods
    • 9.3 Flow Induced Noise and Vibration - Experiments
  • 10 The Impact of Noise Control
    • 10.1 Standards
    • 10.2 Education
    • 10.3 Noise Policies and Regulations
  • 11 Industrial Noise (David Herrin)
    • 11.1 Advances in Industrial Noise
    • 11.2 Mufflers and Silencers
    • 11.3 Large Silencers
    • 11.4 Industrial Noise Simulation
    • 11.5 Mining Noise
    • 11.6 Gear Noise
    • 11.7 Case Studies
  • 12 Measurement Methods
    • 12.1 Advances in Measurement Methods
    • 12.2 Acoustical Holography / Beamforming
    • 12.3 Signal Processing
    • 12.4 Environmental Management through Monitoring
  • 13 Noise and Health
    • 13.1 Health Effects of Environmental Noise
    • 13.2 Health Effects of Aircraft Noise
    • 13.3 Health Effects of Road Traffic Noise
    • 13.4 Health Effects of Wind Turbine Noise
    • 13.5 Health Effects of Occupational Noise
  • 14 Numerical Methods and Simulation
    • 14.1 Advances in Numerical Methods and Simulation
    • 14.2 Analytical Modeling
  • 15 Railroad Noise
    • 15.1 Advances in Railroad Noise
    • 15.2 Monitoring Railway Noise, Rail and Wheel Roughness
    • 15.3 Noise and Vibration Mitigation Measures
    • 15.4 High Speed Rail Noise and Vibration
    • 15.5 Light Rail Noise and Vibration
  • 16 Sound Quality and Product Noise
    • 16.1 Product Sound Quality
    • 16.2 Power Tool Noise
    • 16.3 Consumer Product Noise
    • 16.4 Buy Quiet
    • 16.5 Information Technology Equipment Noise
    • 16.6 Sound in Multisensory Perception and Interaction
    • 16.7 Psychoacoustics in Noise Evaluation
  • 17 Sound Scape and Noise Management
    • 17.1 Soundscape , Health, and Quality of Life
    • 17.2 Noise Control / Measures for Quiet Zones, Parks and Recreational Areas
    • 17.3 Psychoacoustic Evaluation of Environmental Noise / Soundscape
    • 17.4 Soundscape in Architecture and Urban Planning
    • 17.5 Indoor Soundscape
    • 17.6 Apps, Social Media, and Virtual Reality as Soundscape Evaluation Tools
  • 18 Tire and Road Noise
    • 18.1 Advances in Tire Noise
    • 18.2 Pavement Noise
  • 19 Transportation Noise
    • 19.1 Advances in Transportation Noise
    • 19.2 Pass-by Noise Simulation
    • 19.3 Traffic Noise
    • 19.4 Barriers
    • 19.5 Pereception of Electric and Hybrid Vehicles
    • 19.6 Transport Sound Simulation and Environmental Impact
  • 20 Underwater / Maritime Acoustics
    • 20.1 Advances in Underwater / Maritime Acoustics
    • 20.2 Ships and Offshore Noise and Vibration
  • 21 Vehicle Noise, Vibration, and Harshness
    • 21.1 Advances in Vehicle NVH
    • 21.2 Body Structure NVH
    • 21.3 Powertrain NVH
    • 21.4 Aerodynamic and Flow Induced Vehicle Noise
    • 21.5 Vehicle Passive Noise Control
    • 21.6 Vehicle Active Noise Control
  • 22 Vibro-Acoustics
    • 22.1 Advances in Vibro-Acoustics
    • 22.2 Acoustic Black Holes
    • 22.3 Application of Vibro-Acoustic Methods to Noise Control Treatment
    • 22.4 Vibro-Acoustic Experiments
    • 22.5 Vibro-Acoustics of Composite Panels
    • 22.6 Low Frequency Numerical Methods in Vibro-Acoustics
    • 22.7 Mid and High Frequency Numerical Methods in Vibro-Acoustics
    • 22.8 Stochastic Vibro-Acoustic Problems: Methods and Applications
    • 22.9 Inverse Approaches in Vibro-Acoustics
    • 22.10 Optical Measurements in Vibro-Acoustics Applications
  • 23 Other
    • 23.1 Other