In today's competitive engineering landscape, reducing noise and managing vibrations are critical to the success of products across industries like automotive, aerospace & defense, and heavy machinery. As consumer and regulatory demands for quieter, more efficient systems increase, traditional methods of noise and vibration control are no longer sufficient. This is where vibro-acoustic simulation software comes into play, enabling engineers to predict, analyze, and mitigate these challenges early in the design process. In this article, we explore the importance of vibro-acoustic modeling, highlight key use cases across different industries, and delve into why VA ONE stands out as the de facto standard tool for vibroacoustic analyses.
Vibro-acoustic simulation is a crucial engineering tool that allows engineers to do the right things - concretely spoken: predict and analyze vibrations and acoustic phenomena in various structures and environments to get early confidence in the difference source levels that cause noise. This type of simulation integrates physics-based modeling to assess how vibrations within a structure—whether a vehicle, aircraft, spacecraft, or industrial machine—generate noise and how that noise propagates through and around the structure. The primary goal is to optimize designs for both noise reduction and structural integrity, ensuring that the final product meets performance and regulatory standards.
With the increasing demand for quieter, lighter, and more efficient vehicles, engineers face significant challenges that cannot be addressed through traditional testing alone. Vibro-acoustic simulation software offers several advantages:
Vibro-acoustic simulation software is an essential tool for various types of engineers who are focused on optimizing designs for noise control and structural integrity. These engineers utilize the software throughout the design cycle to ensure that their products meet vibration performance requirements and regulatory standards. Here are the key users:
Among the many vibro-acoustic simulation tools available, VA ONE by ESI Group stands out as the de facto standard for vibro-acoustic modeling and simulation for manufacturing companies worldwide. It integrates various modeling methods, including Finite Element Modeling (FEM), Boundary Element Modeling (BEM), Finite Element Analysis (FEA), and Statistical Energy Analysis (SEA), to cover the full frequency spectrum, address all aspects of vibro-acoustic challenges, and ultimately facilitating a smooth automation of the engineering process.
VA ONE is a unified platform designed for high-fidelity vibro-acoustic analysis across different industries. It allows users to predict noise and vibration behavior from the component level to entire vehicles or structures. The software's advanced features, such as Ray Tracing and Diffuse Field Acoustic Simulation, enable precise simulation of complex acoustic environments, making it an indispensable tool for achieving first-time-right design.
VA ONE's strength lies in its versatility and accuracy:
Engineering teams in automotive, aerospace, and space industries often struggle with lengthy design cycles, high costs, and complex certification requirements. But with VA One and VPS NVH – ESI Group’s vibroacoustic performance simulation solutions —they can rapidly and accurately assess high and low-frequency noise, optimize noise control treatments, and meet regulatory standards efficiently. This translates to faster certification, lower costs, and superior design quality. Ultimately, it streamlines product development, reduces testing expenses, and enhances performance and comfort of the final products.
Massimiliano CalloniSr. Product Marketing Manager, ESI Group
In the automotive industry, VA ONE helps users design vehicles that meet stringent noise regulations while enhancing passenger comfort. Its ability to simulate different exterior and interior noise sources and dominant transmission paths ensures that all aspects of vehicle acoustics are optimized and potential acoustic problems caused by interior or exterior noise are detected in early development stages.
In the aerospace sector, VA ONE allows for the creation of quieter, more comfortable aircraft cabins. By simulating the interaction between various acoustic treatments and the aircraft structure, engineers can design aircraft that are lightweight and compliant with noise regulations - an important part of noise in urban areas.
In the heavy machinery industry, VA ONE provides crucial insights into noise control and vibration isolation in large, complex equipment. From construction machinery to industrial manufacturing equipment, this software enables engineers to optimize sound packages, reduce noise emissions, and improve operator comfort. By simulating the acoustic environment and identifying vibration hotspots, VA ONE helps ensure that machinery operates efficiently and safely while meeting regulatory noise limits.
For the space industry, VA ONE is invaluable in predicting spacecraft structural integrity under extreme acoustic loads and the aero-vibro acoustic behavior, ensuring that they can withstand the harsh conditions of mission in unbounded acoustic spaces without compromising its success.
In our latest ebook "Silent (R)Evolution - How Vibro-Acoustic Performance Simulation Accelerates Innovation in Ground, Air, and Space Vehicles" we reveal the game-changing potential of advanced vibro-acoustic simulation techniques. Download the ebook now and learn how vibro-acoustic performance simulation can transform your engineering projects.
Denise is a seasoned media and communication professional with over 15 years of experience in the IT industry, spanning logistics and asset management software to system simulation and virtual prototyping (CAE & PLM). With a deep passion for technological innovation and sustainability, Denise is a steadfast ambassador and fervent advocate for Virtual Prototyping, utilizing her extensive expertise to steer companies through the conundrum of terminology in the era of digital and AI. As the Sr. Marketing Content Specialist at ESI, Denise creates insightful publications that help businesses understand the technologies, methodologies, and value of shifting from physical to virtual prototype testing – a transition that is facilitated through the utilization of CAE software, augmented with immersive tools and hybrid AI technologies.