Body Measurement

Project GLINT

The goal of Project GLINT was to develop a low-cost portable system that is able to measure the patient's ophtalmic measurements, including the refractive error and the pupilary distance.

Reverse developed a system that uses a 3D digital stereo device with structured infrared light, which is easily mounted on a smartphone device and that computes the pupillary distnace and segment height instantly.

Reverse also developed a patent-pending algorithm to determine the necessary addition power, in diopters, to correct a presbyopic patient's refractive error. This algorithm was implemented in a smartphone application, in which a series of visual stimulii and the cooperation of the user himself are crucial to determine the corrective lens' power.

Project GLINT was co-financed by Portugal 2020.

Foot Measurement

Reverse has developed a non-contact optical digitizing system, adapted for the fast and easy digitization of foot impression foams.

It is an ideal system for the custom made or best-fit shoe and insole industry (for both medical and comfort applications) providing an efficient way of measuring real object coordinates. This makes it possible to integrate the reverse engineered component into the productive process for fast and high accuracy feetmeasurements.

The digitization equipment measures 3D coordinates from the insole imprint and builds a 3D surface model.

The technology is based on light pattern projection and analysis of the object's surface reflections by a high-resolution camera, with Reverse patented algorithms.

Present your costumers with a faster, easier and innovative solution for custom made insoles: the use of Reverse's system allows for shorter product development times and avoidance of transportation costs, eliminating the necessity for cast models.

Contact us for more info.