VIRTUAL PERFORMANCE SOLUTION
VIRTUAL PERFORMANCE
SOLUTION
L’aspect le plus important d’un modèle de conception est la façon dont il se comporte, qu’il s’agisse de sécurité, de légèreté, de durabilité, de maniabilité, de bruit ou de vibrations. Pourtant, combien de fois vous êtes-vous déjà retrouvé avec un résultat imparfait car à un stade trop avancé du cycle de développement au moment où vous avez réalisé qu’une modification s’imposait ? Ou peut-être avez-vous du mal à prévoir l'impact qu'un nouveau matériau léger aura sur les performances de votre produit ? Et n'oublions pas la quantité infinie de temps et d'argent consacrés à de multiples itérations de conception, en ré outillage et en prototypes physiques, qui peuvent vous empêcher de créer les conceptions innovantes dont vous savez que vous et votre équipe êtes capables.
Produit phare d’ESI, Virtual Performance Solution (VPS) vous donne la possibilité de libérer votre innovation et d’améliorer l’efficacité de vos processus – le tout avec un seul outil.
Zéro test réel, zéro prototype physique – Innovez en toute confiance
Grâce à l’expertise d’ESI et à l’outil VPS, nous avons réussi à développer l'un de nos nouveaux véhicules, en réalisant des essais physiques bons du premier coup, nous permettant d’obtenir les 5 étoiles au test de sécurité Euro NCAP
Olivier Colmard
Integrated CAE & PLM
Engineering Vice President
Groupe Renault
Highlights of VPS for Virtual Testing of Crash, Safety, Strengths, and Dynamics in the Automotive Industry
These are the main VPS software features that empower users to deliver trustworthy simulation results at speed, efficiency, and cost-effectiveness when applying a virtual testing approach:
- Fast solver facilitates more simulation runs in the available time and delivers reliable simulation results quickly and early.
- A single core model where multiple types of simulation can be applied to the same common 3D model, saving time, enabling concurrent engineering, and resulting in a more optimized end product.
- Built-in library of modular material models and physical properties provides highly accurate performance predictions ensuring early confidence in compliance with safety standards.
- Combining Finite Point Method (FPM) technology with the VPS structural dynamics solver for a more precise prediction of liquid or gas flow effects on the vehicle structure.
- Workflow automation & model quality check via Visual Environment for greater efficiency in the simulation process and higher reliability of simulation results
- Multi-scale modeling combines detailed micro-level assessment with a coarser macro-level model, achieving a balance between accuracy and time/cost efficiency
- Continuous software innovation with advanced model order reduction capabilities and smart machine learning technology, enabling engineers of all skill levels to efficiently explore design spaces, prioritize variables, and optimize vehicle safety, weight, cost, crash repairability, and safety ratings within a limited timeframe
- Achieve enhanced realism in crash simulations through integration with our manufacturing simulation software such as Sysweld, and SimulationX, our system simulation software. On this basis, engineers can accurately assess conditions as manufactured and the impact of active safety systems in crash scenarios.
Elevate Car Crash Tests to New Heights with Unparalleled Speed & Precision
Virtual crash simulation is becoming more prevalent in replacing physical crash testing for regulatory certification because of its enhanced accuracy, lifelike human body models, and the capability to digitally predict intricate scenarios. This shift reduces the need for hardware prototypes and testing in product development, fostering financial sustainability, and minimizing carbon emissions in new business models.
VPS gives crash engineers round-the-clock access to the complete virtual vehicle and their dedicated digital crash laboratory.
Unleash Unmatched Precision and Efficiency in Airbag Development & Engineering
Airbag development poses significant challenges in the field of vehicle safety engineering due to the intricate and non-linear nature of airbag folding and deployment across a wide range of crash scenarios. These challenges are further compounded by the ever-evolving and increasingly stringent safety certification requirements.
VPS offers a robust and efficient simulation platform that allows for end-to-end airbag development, covering both folding and deployment aspects. Its distinctive technology enables precise simulation of gas flow throughout all stages of airbag development, enabling an accurate evaluation of the interactions between gas and airbag materials.
Ensure First-Time Battery Certification and Peak Performance for EVs
As electric vehicles emerge in the market, battery safety has become a crucial certification requirement. Suppliers and OEMs must demonstrate compliance with ever-changing safety standards and ensure strong performance in terms of range. Yet, predicting and achieving these outcomes during the early stages of development, within tighter deadlines and the demand for environmentally friendly processes, significantly amplifies the complexity of this task.
Battery manufacturers and OEMs use VPS to achieve regulatory certification, enhance battery safety, and reduce costs through comprehensive assessment, covering micro-scale cell analysis to macro-scale full-car crash scenarios.
Discover Limitless Testing Capabilities for Vehicle Strength and Dynamics
As lightweighting and new materials usage rise, assessing misuse damage and reliability becomes crucial while maintaining cost-effectiveness. Virtual in-operation tryouts enable a vast range of simulated tests, identifying flaws early, saving time and resources, and achieving the optimal design quickly.
VPS is equipped with key capabilities that are essential for automotive engineers to enhance perceived quality, increase customer satisfaction, and prevent recalls.