AI-Enhanced Lens Design – Intelligent Precision for Unmatched Clarity
At ProCrea, Artificial Intelligence (AI) plays a central role in pushing the boundaries of lens design. By integrating AI into our optimization models, we can analyze vast sets of optical data and wearer parameters to achieve superior control over peripheral aberrations—often the most challenging area of lens performance.
AI algorithms dynamically adjust surface geometry to ensure each design adheres to strict optical quality constraints, while maintaining visual comfort, sharpness, and natural image perception across all gaze directions.
One of the key outcomes of this AI-powered process is the guarantee of a minimum functional area in every lens. This ensures the wearer receives not only precision in central vision, but also a consistently high-quality experience in the intermediate and peripheral zones.
In essence, AI empowers ProCrea lenses to deliver ultra-clear, comfortable, and adaptive vision—personalized down to every micron.
AI-Driven Design Workflow
Seamless Integration from LMS to Lens Surfacing
Once all relevant parameters—Rx data, frame measurements, Position-of-Wear (PoW) values, and semifinished blank specifications—are entered into the customer’s LMS (Lab Management System), the data is securely transmitted to Crea FreeForm LDS (Lens Design Software).
Here, our integrated AI Engine analyzes the complete dataset and intelligently determines the optimal design strategy. Leveraging advanced algorithms, the AI communicates directly with the LDS platform to generate a customized lens surface that balances precision, visual comfort, and optical performance.
The finalized design data is then sent back to the customer’s LMS, which processes it to generate the machine-ready input for lens surfacing—ensuring a fully automated, high-precision production flow from input to output.
This seamless integration between LMS, AI, and lens design technology reflects ProCrea’s commitment to delivering intelligent, adaptive, and efficient solutions to modern ophthalmic labs.