The performance, durability and reliability of your systems are often related to specific requirements in terms of acoustics and vibrations. Evaluating these aspects at the end of the development process or during qualification raises the risk of having to review designs and induces additional costs.
Our expertise is including field testing, structural dynamics or vibroacoustic calculations, as well as various technique applied to signal processing, measured data analysis and advanced algorithms in machine learning.
Our team of senior experts and experienced engineers will assist you in proposing the adequate approach to help solving each technical issue. The key to success relies on combining the understanding of physics and the application of the right method/algorithm.
With professional know-how and field proven expertise, Metravib is an unrivaled partner in the management of acoustic and vibration-related aspects from the design phases to your final product.
From the design phase to your final product
Metravib approach is to work in tight collaboration with your project team in order to bring together the right skills and find the efficient way to the right answers in:
Improving perceived quality: design study, end-of line tests
Enhancing product experience: quiet products, good vibrations, nice sound
Ensuring durability: analyzing life span solicitations, providing computational and experimental validation, predicting potential degradations,
Contributing to properly design your products: perceived quality, performance and efficiency, durability, robustness
Validating your product design: computation, measurement, subjective evaluation
Helping you acquire noise and vibration competencies through training courses with specialist support for a permanent skills improvement:
Vibrations at the workplace and surrounding environment
Introduction to structural vibrations
Introduction to fatigue analysis
Introduction to industrial acoustics
Introduction to psychoacoustics
Acoustic design of products and installations
Vibro-acoustic design of mechanical systems
Managing acoustic and vibration-related aspect
Structural lifetime assessment and characterization
Usage classification based on data mining and machine learning (supervised learning)
Benchmark studies in noise and vibration
Understanding acoustic and vibration issues by coupling experiments and physical modelling
Noise & vibration impact reduction
Mitigation solution related to noise and vibration impact
Static and dynamic calculation using Finite Element Method (FEM) and Boundary Element Method (BEM)
Specific tools developpement based on analytical / empirical models
Lightweighting structures without compromising vibration / acoustic performance