AUTOMATIC DECENTRATION
Adjusts the design both vertically and horizontally to achieve the perfect fit for the selected frame shape.
D.V.S. – DYNAMIC VISION SYSTEM
Dynamically adjusts the widths of the far zone and near zone in accordance with the frame shape.
DESIGN NEAR ZONE ROTATION
Enhances the frame’s vision capabilities by rotating the near zone.
CONTEXT
Due to geometrical aspects, not all modern and most fashionable frame shapes can be used with progressive designs. Although frame shapes are a starting point for buying a new pair of eyeglasses, they are likely to become a limitation when choosing the progressive designs. In most cases, progressive zones can’t be properly defined, and vision comfort is severely affected. In such cases, the customer has to change the selected frame shape with a most suitable one. The main challenge today is to accomplish customer fashion frame requests with the best optical vision performance possible. The starting point of the Opto+ DAFD technology is the Opto+ Infinity design serie. Each infinity design can be individually tailored with different settings for far zone, near zone, inset, decentration etc. Labs can manually customize the design by choosing the width of progressive zones in mm. The Infinity designs and the Opto+ cloud computation power are the pillars of the Opto+ DAFD technology (Dynamic Adaptable Frame Design).
HOW DOES IT WORKS
By sending the frame shape data to Opto+ LDS, DAFD Technology will automatically replicate on the cloud the real frame shape and will automatically adjust the progressive design according to the selected frame. Opto+ DAFD performs:
Automatic design decentration
Dynamic progressive zones (far and near) width setting,
Automatic design rotation,
and, as a last step, thanks to our AI (artificial intelligence), Opto+ DAFD compares all the possible combinations and chooses the fittest one, guaranteeing the best combination between astigmatisms, clear vision area and thickness.
Opto+ DAFD can be used in every production lab, with no changes in the existing software and machines, setting itself as the game changer in the ophthalmic market.
Opto+ Progressive design:
Opto+ design with DAFD technology:
OPTO+ DAFD Technology
The self-designing progressive lens that adapts to any frame shape
OPTO+ DAFD Technology
Results in a progressive design which is highly tailored to customer vision needs and taste.
A new concept of LDS software which reimagines the idea of progressive lens design using the most advanced technology at our disposition.
www.optoplus.cloud
Optical
Our designs look super-innovative when compared to those already on the market. Under the same values and types of design, our lenses provide lower astigmatism, cleaner and wider areas. This is not fantasy. This is because our designs are made with algorithms based on curved surfaces (i.e circle and sphere-related basic math to draw curves) instead of algorithms based on curves’ maths (B-Spline, NURBS etc.) which introduce additional astigmatism. Opto+ is a new era of lens design calculation.
Technology
Amazon AWS Cloud Platform: Scalable Computing Power. Opto+ is able to output 2 lenses every 5 sec (1440 lenses per hour) with the base setup. In case that limit is reached or exceeded, Opto+ automatically scales up its power to maintain the calculation speed. The average time to get a single prescription calculated for a pair of progressive lenses is 15 seconds (LAB REQUEST – COMPUTING DATACENTER – LAB RESULTS). Thanks to AWS, this can be granted all over the world, because the infrastructure will always choose the nearest data center for calculations. Therefore, we can say Opto+ has no power limits.
Features
Opto+ gives the possibility to analyze the lenses via software using the real values of the calculated lenses, without having a physical lens mapper in house. Each calculated lens can be inspected in 2D, 3D view together with its power and cylinder map, with the possibility to check the real astigmatism value in each point of the lens. Moreover, Opto+ software returns the value of this lens thickness at each point.
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