[ANPPOM-Lista] INTER-NOISE 2025 - 24-27 Aug.- São Paulo

[José Augusto Mannis]

*INTER-NOISE 2025 - 24-27 Aug.- São Paulo*

The Brazilian Acoustic Quality Association (ProAcustica) – a Member Society
of I-INCE since 2013 – is a non-profit civil organization that was founded
by the initiative of companies and professionals with the goal of bringing
together companies and professionals who seek to develop Applied Acoustics
in Brazil. As the leading association for applied acoustics in the
Brazilian market, we invite you to participate in the 54th Internoise in
São Paulo, the largest city in the southern hemisphere. It will be a unique
opportunity to discuss ideas to improve the quality of life for people in a
country that is among the ten largest economies in the world and plays a
significant role throughout South America.

https://internoise2025.org/

*Important Announcements*
Call for Abstracts + Registration: 8 December 2024
Abstract submission deadline: 23 February 2025
Abstract notification: 16 March 2025
Assessed papers submission deadline: 6 April 2025
Assessed papers notification: 27 April 2025
Regular paper submission deadline: 4 May 2025
Early registration deadline: 18 May 2025

Congress Theme: *Connections for a Better Sounding world*

Highlights the importance of collaboration and innovation in the field of
acoustics to improve the auditory environment and promote everyone’s
well-being.

Inter-Noise, which has been held annually for 53 years, is a crucial
meeting point for professionals, researchers, and manufacturers in the
acoustics industry. It is an event that goes beyond discussing the latest
scientific advancements: it’s about building a community dedicated to
creating a better-sounding, quality-of-life world.

During the pandemic, this connection — a central characteristic of the
congress — was hindered by the lack of in-person meetings. Now, in 2025, we
are back in Brazil stronger than ever, reinforcing the importance of
face-to-face connectivity. This year’s theme reflects that renewed energy
of connection, aiming to unite specialists from all over the world to share
knowledge, promote new technologies, and solve the challenges of noise
control and acoustics.

>From architectural acoustics to environmental noise control, including
areas such as psychoacoustics and audio engineering, each session and
workshop is designed to inspire, encourage the exchange of ideas, and
provide practical tools that can be applied directly to creating better
sound environments.
Join us on this journey to a better-sounding world. Connection and
innovation are the keys to making a difference. Let’s collaborate and build
a future where sound enhances our lives — together, we can achieve this
goal.

*Subject areas*

1.0. Physical Acoustics & Elastic Waves: General
1.1. Nonlinear Acoustics
1.2. Sound Propagation in Heterogeneous Media
1.3. Sound Interaction with Natural Media
1.4. Elastic & mechanical Metamaterials: Waves and Dynamics
1.5. Acoustic Metamaterials & Phononic Materials
10.0. Underwater, Ship & Offshore Acoustics: General
10.1. Underwater Marine System Noise Radiation and Control
10.2. Underwater Acoustic Propagation
10.3. Target Detection & Classification
11.0. Flow-induced Noise & Vibrations: General
11.1. Experiments in Flow-induced Noise & Vibration
11.2. Numerical methods in Flow-induced Noise & Vibration
11.3. Rotor & Turbomachinery Noise (common session with session 6.5)
11.4. Control of Flow Noise (common session with session 6.7)
12.0. Building & Room Acoustics: General
12.1. Requirements, Classification Schemes & Standards in Building Acoustics
12.10. Acoustics of Education Spaces
12.11. Acoustics of Workspaces
12.12. Computational Tools for Room Acoustics Prediction
12.13. Artificial Intelligence & Machine Learning for Built Environment
12.14. Façade Insulation using Partially Open Windows for Natural
Ventilation
12.2. Measurement and Prediction of Airborne and Impact Sound Insulation
12.3. Measurement and Prediction of Sound Absorption in Reverberation Rooms
12.4. Structure-borne Sound and Equipment Noise in Buildings
12.5. Addressing Noise and Vibration Problems in Buildings
12.6. Low-frequency Measurements and Uncertainty for Building Noise
12.7. Acoustics of Wooden Buildings
12.8. Low-carbon Acoustic Treatments and Design Solutions
12.9. Acoustics of Hospital and Healthcare Spaces
13.0. Outdoor Sound Propagation: General
13.1. Urban Sound Propagation
13.2. Techniques and Applications of Infrasound Propagation
13.3. Advances in Noise Mapping
14.0. Materials & Passive Treatments: General
14.1. Absorption & Transmission of Biobased and Geobased
14.2. Acoustic Multi-dynamic Materials and Metamaterials
14.3. Measurements and Characterization Methods for Acoustical Materials
14.4. Computational Methods for Acoustic Materials & Sound Packages
14.5. Visco-elasticity of Materials
15.0. Occupational Noise, Community Noise, and Health: General
15.1. Occupational Noise and Health
15.2. Healthy Planning and Building
15.3. Environmental Impact Assessment
15.4. Community Response to Noise
15.5. Noise and Health
15.6. Noise and Health in Children
15.7. Implementation of Sound Policy in Emerging and Developing Countries
16.0. Soundscapes: General
16.1. Indoor Soundscaping
16.2. Psychological and Physiological Evaluation in Soundscape Studies
16.3. Soundscape Policies and Standards
16.4. Soundscape Design Interventions
16.5. Innovative and Multisensory Approaches in Soundscape Studies
16.6. Soundscapes from the Perspective of Arts/Human Sciences
16.7. Machine Learning for Acoustic Scene Understanding
17.0. Perceptual Evaluation of Sounds and Product Noise: General
17.1. Psychological and Physiological Evaluation of Product Noise
17.2. Product Sound Quality
17.3. Information Technology Equipment and Household Appliance Noises
17.4. Sound Design
17.5. Perception and Sound Design for Electric Vehicles
17.6. Psychological Evaluation of Transportation Noise: Train, Aircraft,
and Road Traffic Noise
17.7. Combined Exposure to Vibration and Noise: Annoyance Perception,
Cognitive Performance, Interaction and Design
17.8. Impulsive Sound
17.9. Data Sonification
18.0. Noise & Impacts on Biodiversity: General
18.1. Impacts of Noise Generated by Renewable Energy on Biodiversity
18.2. Impacts of Transportation Noise on Biodiversity
18.3. Ecoacoustics and Analysis of Soundscape
19.0. Art, Music & Science: General
19.1. Modeling, Numerical Methods and AI
19.2. Vibration and Acoustic Measurements of Musical and Sound Sources
19.3. Musical instruments: From Physics to Perception
2.0. Measurement Methods: General
2.1. Microphone Array Techniques
2.2. Spatial Capture & Reproduction
2.3. Measurement Instrumentation
2.4. Measurement Standards
2.5. Measurement Methods for Smart Cities and Noise Monitoring
20.0. Education & Popularization: General
20.1. Innovative Classroom Teaching Materials: Web-based, Interactive
Supports, Demonstrations, Comics, Videos
20.2. Experiential and/or Out-of-the-classroom Teaching Approaches: Mobile
teaching, Flipped Classroom, Project-based Learning
20.3. General Public Initiatives: Art, Exhibitions, University Open House,
Events
21.0. Noise Control & Social Sciences: General
21.1. Non Auditory Effects of Noise Exposure on Communication and
Performance
21.2. Special Topics
3.0. Modeling & Simulation Techniques: General
3.1. Light Computational Models for Acoustics and Vibration Simulation
3.2. Acoustics and Vibration Modeling of Electrical Machines
3.3. Numerical Methods for Nonlinear Applications in Vibro-Acoustics &
Vibration
3.4. Artificial Intelligence and Machine Learning for Diagnosis in
Acoustics & Vibration
3.5. Data-driven and Machine Learning Methods for Modeling and Design in
Acoustics & Vibration
3.6. Acoustic Design using Optimization Methods
4.0. Vibro-acoustics & Structure-Borne Noise: General
4.1. Numerical Methods in Vibro-acoustics
4.2. Experiments in Vibro-acoustics
4.3. Use of Micro Perforated Panels in Vibro-acoustics
4.4. Inverse Problems in Vibro-acoustics
4.5. Passive Control of Noise & Vibration Using Acoustic Black Hole Effect
5.0. Signal Processing, Reproduction & Diagnostics: General
5.1. Spatial Audio
5.2. Sound Reinforcement
5.3. Audio Transducers
6.0. Aero- & Thermo-Acoustics: General
6.1. Thermoacoustics & Combustion
6.2. Thermoacoustic Engines
6.3. Computational Methods in Flow-induced Noise & Vibration
6.4. Experiments in Flow-induced Noise & Vibration
6.5. Rotor & Turbomachinery Noise
6.6. Duct Aero-acoustics: Propagation and Noise Reduction in Industrial and
Academical Problems
6.7. (Aero-)acoustic Material Design
7.0. Active Systems for Noise & Vibration Control: General
7.1. Hybrid Active-Passive Systems for Noise & Vibration Control
7.2. Signal Processing & Algorithms for Noise & Vibration Control
7.3. New Applications of Active Control
7.4. Artificial Intelligence for Active Systems in Noise & Vibration Control
7.5. Nonlinear Active Metamaterials
7.6. Active Metamaterials for Noise & Vibration Control
8.0. Aircraft Noise: General (common session with session 8.5)
8.1. Aircraft Interior Noise (common session with session 8.2)
8.2. Aircraft Exterior Noise (common session with session 8.1)
8.3. Airport Noise
8.4. Advanced Monitoring & Measurement
8.5. Supersonic Aircraft Noise (common session with session 8.0)
8.6. Urban Air Mobility Noise
9.0. Ground Transportation and Industrial Noise and Vibration: General
9.1. Measurement Methods for Tire/Road Noise
9.10. Wind Turbine Noise
9.2. Acoustic Properties of Road Pavements
9.3. Acoustic Properties of Tires for Exterior Noise
9.4. Vehicle Acoustics
9.5. Railway Noise: Detection, Mitigation and Modelling
9.6. Noise Barriers and Noise Mitigation Methods
9.7. Auralisation of Transportation Noise
9.8. Vibration from Ground Transportation: Sources and Propagation
9.9. Industrial noise control


*Registrations*
FOR STUDENT ONLY: We support purchasing power parity. Since you are in the
country Brasil  and if you are a student (proof of student status will be
required), please use the coupon PPP_1AA6 to get 44% off selected entries.

*Students and Young Professionals*
Young and early career acousticians can be either undergraduate or
postgraduate students, postdoctoral, or young acousticians or noise control
engineers working in industry.  Several events directed towards young and
early career acousticians are proposed, including social gathering and a
PhD Market. Details soon


.https://internoise2025.org/young-professionals/


__________________________

Prof. Dr. José Augusto MANNIS

Universidade Estadual de Campinas - Unicamp

Instituto de Artes - IA

Depto. de Música - DM

Laboratório de Acústica e Artes Sonoras - LASom

jamannis em unicamp.br

+55 (19) 981163160

Skype: jamannis8531


https://soundcloud.com/user-889742445

unicamp.academia.edu/JoseAugustoMannis

scholar.google.com.br
<http://scholar.google.com.br/citations?user=ZNnwWMQAAAAJ&hl=pt-BR>

researchgate.net/profile/Jose_Augusto_Mannis

researcherID: B-9522-2012 <http://www.researcherid.com/rid/B-9522-2012>

https://br.linkedin.com/in/josé-augusto-mannis-8340777

orcid.org/000-0002-9484-5674


Certificação A1 - SOBRAC - BRASIL