Cava Catia
By checking vehicle geometry against regulations during the design phase, CAVA enables "virtual homologation," which significantly reduces the need for expensive physical prototypes and late-stage design changes.
Integrating compliance checking directly into the core design tool provides multiple distinct advantages for engineering teams: 1. Reliable Compliance Management
Vehicle manufacturers struggle to navigate a patchwork of regulatory standards that differ significantly between global regions like the United States, Europe, and Asia. Instead of relying on manual checking or separate spreadsheet calculations, designers use CAVA to access integrated rules as native CATIA V5 and 3DEXPERIENCE features .
In an era where automotive manufacturing demands rapid iteration and complex global configurations, tools like CAVA are no longer optional luxuries. By embedding international norms and legal standards directly into the associative 3D environment of , CAVA bridges the historical chasm between automotive styling and regulatory homologation. The result is a faster, leaner, and demonstrably safer path from an initial sketch to a street-legal production car. cava catia
CAVA can be used long before full vehicle geometry exists. By working with parametric “base data”—vehicle dimensions, wheel positions, seating points, and loading conditions—teams can assess underfloor clearances, ground and curb clearance angles, and architecture feasibility during concept design. This reduces the risk of discovering fundamental compliance issues after detailed modeling has begun.
CAVA is integrated into CATIA as a separate workbench or 3DEXPERIENCE App. Its key integration capabilities include:
Historically, verifying that a vehicle concept met these international design standards was a manual, slow, and error-prone process. Designers would pass 3D models back and forth to homologation teams, who would perform complex geometric calculations on a case-by-case basis. By checking vehicle geometry against regulations during the
Instead of waiting until a vehicle architecture is finalized to test for legal compliance, CAVA allows engineers to continuously validate vehicle geometry against international rules, norms, and standards throughout the entire design lifecycle—from the initial concept phase straight through to final homologation. Because CAVA operates natively inside CATIA, the geometry, testing criteria, and calculations remain fully associative. If a designer adjusts a physical component, CAVA immediately flags whether the updated layout violates any legal parameters. Core Pillars of the CAVA Product Suite
Vehicle design is heavily dictated by safety and legal parameters that vary by country. Historically, verifying that a physical prototype met these standards was a late-stage, manual, and high-risk process.
Check the Cava app. Look for the stores marked with a "Test Kitchen" or "Flagship" badge to find your nearest Cava Catia experience. Instead of relying on manual checking or separate
By moving compliance checks to the earliest stages of design, CAVA significantly reduces the time and expense associated with later design iterations, prototypes, and homologation failures. 2. Reliable Compliance Management
The suite is divided into specific modules targeting different architectural requirements: CAVA Safety
: Automates the check for deviations from standards, speeding up the design process. Seamless Integration
Checks if drivers of varying heights can comfortably reach steering columns, pedals, and center console displays. 4. CAVA Allround
As vehicle design moves closer to entirely virtual development, tools like CAVA within CATIA are crucial. By combining powerful 3D CAD modeling with automated compliance checking, CAVA helps automotive companies build safer, compliant vehicles faster than ever before.